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100644 index 0000000..6e3f105 --- /dev/null +++ b/lib/Screens/Signup.dart @@ -0,0 +1,248 @@ +import 'package:Learner/Screens/login.dart'; +import 'package:floating_snackbar/floating_snackbar.dart'; +import 'package:flutter/material.dart'; +import 'package:flutter_custom_clippers/flutter_custom_clippers.dart'; +import 'package:firebase_auth/firebase_auth.dart'; + +class SignupOnePage extends StatefulWidget { + const SignupOnePage({super.key}); + + @override + State createState() => _SignupOnePageState(); +} + +class _SignupOnePageState extends State { + final _formkey = GlobalKey(); + final email = TextEditingController(); + final pass = TextEditingController(); + final cpass = TextEditingController(); + bool _obscure = true; + + Future Signup(String email, String pass) async { + final FirebaseAuth auth = FirebaseAuth.instance; + try { + auth + .createUserWithEmailAndPassword(email: email, password: pass) + .then((value) { + FloatingSnackBar( + message: 'Successfully Created', + context: context, + textColor: Colors.black, + textStyle: const TextStyle(color: Color.fromARGB(255, 255, 0, 0)), + duration: const Duration(milliseconds: 4000), + backgroundColor: Colors.white, + ); + }).onError((error, stackTrace) { + FloatingSnackBar( + message: 'Already have an account', + context: context, + textColor: Colors.black, + textStyle: const TextStyle(color: Color.fromARGB(255, 255, 0, 0)), + duration: const Duration(milliseconds: 4000), + backgroundColor: Colors.white, + ); + }); + } catch (err) { + throw Exception(err); + } + } + + @override + Widget build(BuildContext context) { + return Scaffold( + backgroundColor: Colors.orange.shade100, + body: SingleChildScrollView( + child: Column( + children: [ + const SizedBox( + height: 180, + ), + Padding( + padding: const EdgeInsets.all(20.0), + child: Stack( + children: [ + ClipPath( + clipper: RoundedDiagonalPathClipper(), + child: Container( + height: 400, + padding: const EdgeInsets.all(10.0), + decoration: const BoxDecoration( + borderRadius: BorderRadius.all(Radius.circular(40.0)), + color: Colors.white, + ), + child: Form( + key: _formkey, + child: Column( + mainAxisAlignment: MainAxisAlignment.center, + children: [ + const SizedBox( + height: 90.0, + ), + Container( + padding: const EdgeInsets.symmetric( + horizontal: 20.0), + child: TextFormField( + cursorColor: Colors.black, + controller: email, + validator: (val) => val!.length == 0 + ? "Enter the email" + : null, + style: const TextStyle( + color: Color.fromARGB(255, 0, 0, 0)), + decoration: InputDecoration( + hintText: "Email address", + hintStyle: TextStyle( + color: + Color.fromARGB(255, 52, 51, 51), + ), + icon: const Icon( + Icons.email, + color: + Color.fromARGB(255, 235, 146, 69), + )), + )), + Container( + padding: const EdgeInsets.only( + left: 20.0, right: 20.0, bottom: 10.0), + ), + Container( + padding: const EdgeInsets.symmetric( + horizontal: 20.0), + child: TextFormField( + obscureText: _obscure, + obscuringCharacter: "*", + controller: pass, + validator: (val) => val!.length == 0 + ? "Enter the password" + : null, + style: const TextStyle( + color: Color.fromARGB(255, 18, 18, 18)), + decoration: InputDecoration( + hintText: "Password", + suffixIcon: IconButton( + icon: _obscure + ? const Icon(Icons.visibility_off) + : const Icon(Icons.visibility), + onPressed: () { + setState(() { + _obscure = !_obscure; + }); + }, + ), + hintStyle: TextStyle( + color: + Color.fromARGB(255, 52, 51, 51), + ), + icon: const Icon( + Icons.lock, + color: + Color.fromARGB(255, 235, 146, 69), + )), + )), + Container( + padding: const EdgeInsets.only( + left: 20.0, right: 20.0, bottom: 10.0), + ), + Container( + padding: const EdgeInsets.symmetric( + horizontal: 20.0), + child: TextFormField( + controller: cpass, + validator: (val) => val!.length == 0 + ? "confirm password" + : null, + style: const TextStyle( + color: Color.fromARGB(255, 0, 0, 0)), + obscureText: true, + obscuringCharacter: "*", + decoration: InputDecoration( + hintText: "Confirm password", + hintStyle: TextStyle( + color: + Color.fromARGB(255, 52, 51, 51), + ), + icon: const Icon( + Icons.lock, + color: + Color.fromARGB(255, 235, 146, 69), + )), + )), + Container( + padding: const EdgeInsets.only( + left: 20.0, right: 20.0, bottom: 10.0), + ), + const SizedBox( + height: 10.0, + ), + const SizedBox( + height: 10.0, + ), + ]), + ), + ), + ), + const Row( + mainAxisAlignment: MainAxisAlignment.center, + children: [ + CircleAvatar( + radius: 40.0, + backgroundColor: Color.fromARGB(255, 235, 146, 69), + child: Icon( + Icons.person, + color: Color.fromARGB(255, 0, 0, 0), + ), + ), + ], + ), + SizedBox( + height: 420, + child: Align( + alignment: Alignment.bottomCenter, + child: ElevatedButton( + style: ElevatedButton.styleFrom( + shape: RoundedRectangleBorder( + borderRadius: BorderRadius.circular(40.0)), + backgroundColor: Color.fromARGB(255, 235, 146, 69), + ), + onPressed: () { + setState(() { + if (_formkey.currentState!.validate()) { + Signup(email.text.trim(), pass.text.trim()); + Navigator.pushReplacement( + context, + MaterialPageRoute( + builder: (context) => loginpage())); + } + }); + }, + child: const Text("Sign Up", + style: TextStyle(color: Colors.black87)), + ), + ), + ), + ], + ), + ), + Row( + mainAxisAlignment: MainAxisAlignment.center, + children: [ + TextButton( + onPressed: () { + Navigator.pushReplacement( + context, + MaterialPageRoute( + builder: (BuildContext context) => + const loginpage())); + }, + child: const Text("Login", + style: TextStyle( + color: Color.fromARGB(255, 0, 0, 0), fontSize: 18.0)), + ) + ], + ) + ], + ), + ), + ); + } +} diff --git a/lib/Screens/login.dart b/lib/Screens/login.dart new file mode 100644 index 0000000..22aa41f --- /dev/null +++ b/lib/Screens/login.dart @@ -0,0 +1,250 @@ +import 'package:Learner/Screens/Signup.dart'; +import 'package:Learner/Screens/splashscreen.dart'; +import 'package:Learner/main.dart'; +import 'package:firebase_auth/firebase_auth.dart'; +import 'package:floating_snackbar/floating_snackbar.dart'; +import 'package:flutter/material.dart'; +import 'package:flutter_custom_clippers/flutter_custom_clippers.dart'; + +void main() { + runApp(const app()); +} + +class app extends StatelessWidget { + const app({super.key}); + + @override + Widget build(BuildContext context) { + return const MaterialApp( + home: Splashscreen(), + ); + } +} + +class loginpage extends StatefulWidget { + const loginpage({super.key}); + + @override + State createState() => _loginpageState(); +} + +class _loginpageState extends State { + final _formkey = GlobalKey(); + final email = TextEditingController(); + final pass = TextEditingController(); + var _obscure = true; + + Future Forgot(String email) async { + final FirebaseAuth auth = FirebaseAuth.instance; + try { + auth.sendPasswordResetEmail(email: email).then((value) { + print("reset password"); + }).onError((error, stackTrace) { + print("Not registered with $email"); + }); + } catch (err) { + throw Exception(err); + } + } + + Future login(String email, String pass) async { + final FirebaseAuth auth = FirebaseAuth.instance; + try { + auth + .signInWithEmailAndPassword(email: email, password: pass) + .then((value) { + Navigator.push( + context, MaterialPageRoute(builder: (context) => home())); + }).onError((error, stackTrace) { + FloatingSnackBar( + message: 'incorrect password', + context: context, + textColor: Colors.black, + textStyle: const TextStyle(color: Color.fromARGB(255, 255, 0, 0)), + duration: const Duration(milliseconds: 4000), + backgroundColor: Colors.white, + ); + }); + } catch (err) { + throw Exception(err); + } + } + + @override + Widget build(BuildContext context) { + return Scaffold( + backgroundColor: Colors.orange.shade100, + body: SingleChildScrollView( + child: Column( + children: [ + const SizedBox( + height: 180, + ), + Padding( + padding: const EdgeInsets.all(20.0), + child: Stack( + children: [ + ClipPath( + clipper: RoundedDiagonalPathClipper(), + child: Container( + height: 400, + padding: const EdgeInsets.all(10.0), + decoration: const BoxDecoration( + borderRadius: BorderRadius.all(Radius.circular(40.0)), + color: Colors.white, + ), + child: Form( + key: _formkey, + child: Column( + mainAxisAlignment: MainAxisAlignment.center, + children: [ + const SizedBox( + height: 90.0, + ), + Container( + padding: const EdgeInsets.symmetric( + horizontal: 20.0), + child: TextFormField( + style: const TextStyle(color: Colors.black), + controller: email, + validator: (val) => val!.length == 0 + ? "Enter the email" + : null, + decoration: InputDecoration( + hintText: "Email address", + hintStyle: TextStyle( + color: Colors.black, + ), + icon: const Icon( + Icons.email, + color: + Color.fromARGB(255, 235, 146, 69), + )), + )), + Container( + padding: const EdgeInsets.only( + left: 20.0, right: 20.0, bottom: 10.0), + ), + Container( + padding: const EdgeInsets.symmetric( + horizontal: 20.0), + child: TextFormField( + controller: pass, + validator: (val) => val!.length == 0 + ? "Enter the password" + : null, + obscureText: _obscure, + style: const TextStyle(color: Colors.black), + obscuringCharacter: "*", + decoration: InputDecoration( + hintText: "Password", + suffixIcon: IconButton( + icon: _obscure + ? const Icon(Icons.visibility_off) + : const Icon(Icons.visibility), + onPressed: () { + setState(() { + _obscure = !_obscure; + }); + }, + ), + hintStyle: TextStyle( + color: Colors.black, + ), + icon: const Icon( + Icons.lock, + color: + Color.fromARGB(255, 235, 146, 69), + )), + )), + Container( + padding: const EdgeInsets.only( + left: 20.0, right: 20.0, bottom: 10.0), + ), + Row( + mainAxisAlignment: MainAxisAlignment.end, + children: [ + GestureDetector( + onTap: () { + if (_formkey.currentState!.validate()) { + Forgot(email.text.trim()); + } + }, + child: Container( + padding: + const EdgeInsets.only(right: 20.0), + child: const Text( + "Forgot Password", + style: + TextStyle(color: Colors.black87), + )), + ) + ], + ), + const SizedBox( + height: 10.0, + ), + ]), + ), + ), + ), + const Row( + mainAxisAlignment: MainAxisAlignment.center, + children: [ + CircleAvatar( + radius: 40.0, + backgroundColor: Color.fromARGB(255, 235, 146, 69), + child: Icon( + Icons.person, + color: Colors.black, + ), + ), + ], + ), + SizedBox( + height: 420, + child: Align( + alignment: Alignment.bottomCenter, + child: ElevatedButton( + style: ElevatedButton.styleFrom( + shape: RoundedRectangleBorder( + borderRadius: BorderRadius.circular(40.0)), + backgroundColor: Color.fromARGB(255, 235, 146, 69), + ), + onPressed: () { + setState(() { + if (_formkey.currentState!.validate()) { + login(email.text.trim(), pass.text.trim()); + } + }); + }, + child: const Text("Login", + style: TextStyle(color: Colors.black)), + ), + ), + ), + ], + ), + ), + Row( + mainAxisAlignment: MainAxisAlignment.center, + children: [ + TextButton( + onPressed: () { + Navigator.push( + context, + MaterialPageRoute( + builder: (BuildContext context) => + const SignupOnePage())); + }, + child: const Text("Sign Up", + style: TextStyle(color: Colors.black, fontSize: 18.0)), + ) + ], + ) + ], + ), + ), + ); + } +} diff --git a/lib/Screens/pickscreen.dart b/lib/Screens/pickscreen.dart new file mode 100644 index 0000000..0174134 --- /dev/null +++ b/lib/Screens/pickscreen.dart @@ -0,0 +1,140 @@ +import 'package:Learner/Screens/StudyScreen.dart'; +import 'package:Learner/Screens/quizscreen.dart'; +import 'package:flutter/material.dart'; +import 'package:lottie/lottie.dart'; + +class pickscreen extends StatefulWidget { + const pickscreen( + {super.key, required this.lis, required this.std, required this.ab}); + + final List lis; + final List std; + final String ab; + + @override + State createState() => _pickscreenState(); +} + +class _pickscreenState extends State { + @override + Widget build(BuildContext context) { + return Scaffold( + appBar: AppBar( + title: Text( + '${widget.ab}', + style: TextStyle( + color: Colors.black, + fontStyle: FontStyle.italic, + fontWeight: FontWeight.bold, + fontSize: 23), + ), + centerTitle: true, + backgroundColor: Color.fromARGB(255, 255, 121, 0), + leading: GestureDetector( + onTap: () { + Navigator.pop(context); + }, + child: Icon(Icons.arrow_back_ios)), + ), + body: Column( + children: [ + SizedBox( + height: 8, + ), + Center( + child: Padding( + padding: const EdgeInsets.only(top: 30), + child: ClipRRect( + borderRadius: BorderRadius.only( + topLeft: Radius.circular(30), + ), + child: GestureDetector( + onTap: () { + Navigator.push( + context, + MaterialPageRoute( + builder: (context) => StudyScreen( + l: widget.std[0], + sab: widget.ab, + ))); + }, + child: Container( + width: 285, + height: 230, + color: Color.fromARGB(255, 255, 215, 180), + child: Lottie.asset('assets/studylottie.json', + fit: BoxFit.fill), + ), + ), + ), + ), + ), + ClipRRect( + borderRadius: BorderRadius.only( + bottomRight: Radius.circular(30), + ), + child: Container( + width: 285, + height: 75, + color: Color.fromARGB(255, 255, 152, 61), + child: Center( + child: Text( + 'Study', + style: TextStyle( + fontWeight: FontWeight.bold, + fontSize: 27, + color: Colors.black), + )), + ), + ), + Center( + child: Padding( + padding: const EdgeInsets.only(top: 30), + child: ClipRRect( + borderRadius: BorderRadius.only( + topLeft: Radius.circular(30), + ), + child: GestureDetector( + onTap: () { + Navigator.push( + context, + MaterialPageRoute( + builder: (context) => quizapp( + wid: widget.lis, + qab: widget.ab, + ))); + }, + child: Container( + width: 285, + height: 230, + color: Color.fromARGB(255, 255, 215, 180), + child: Lottie.asset('assets/testlottie.json', + fit: BoxFit.fill), + ), + ), + ), + ), + ), + ClipRRect( + borderRadius: BorderRadius.only( + bottomRight: Radius.circular(30), + ), + child: Container( + width: 285, + height: 75, + color: Color.fromARGB(255, 255, 152, 61), + child: Center( + child: Text( + 'Test', + style: TextStyle( + fontWeight: FontWeight.bold, + fontSize: 27, + color: Colors.black), + )), + ), + ), + ], + ), + ); + } +} diff --git a/lib/Screens/quizscreen.dart b/lib/Screens/quizscreen.dart index bfcce4f..9005424 100644 --- a/lib/Screens/quizscreen.dart +++ b/lib/Screens/quizscreen.dart @@ -1,12 +1,14 @@ +import 'package:Learner/Screens/resultscreen.dart'; import 'package:Learner/widgets/answercard.dart'; import 'package:Learner/widgets/nextbutton.dart'; import 'package:flutter/material.dart'; - -import '../models/statistics.dart'; - +import 'package:solid_bottom_sheet/solid_bottom_sheet.dart'; class quizapp extends StatefulWidget { - const quizapp({super.key}); + const quizapp({super.key, required this.wid, required this.qab}); + + final List wid; + final qab; @override State createState() => _quizappState(); @@ -14,41 +16,74 @@ class quizapp extends StatefulWidget { class _quizappState extends State { int? selectedAnswerIndex; - int questionIndex=0; - int score=0; - bool isSolutionVisible=false; + int questionIndex = 0; + int score = 0; + bool isSolutionVisible = false; - void pickAnswer(int value){ + void pickAnswer(int value) { setState(() { selectedAnswerIndex = value; - final question = questions[questionIndex]; - if (selectedAnswerIndex == question.correctAnswerIndex){ + final question = widget.wid[questionIndex]; + if (selectedAnswerIndex == question.correctAnswerIndex) { score++; } }); } - void goToNextQuestion(){ + + void goToNextQuestion() { setState(() { - if(questionIndex < questions.length - 1){ + if (questionIndex < widget.wid.length - 1) { questionIndex++; selectedAnswerIndex = null; } }); } - void toggleSolutionVisibility() { - setState(() { - isSolutionVisible = !isSolutionVisible; - }); - } + SolidController _controller = SolidController(); + @override Widget build(BuildContext context) { - final question =questions[questionIndex]; - bool isLastQuestion = questionIndex == questions.length-1; + final question = widget.wid[questionIndex]; + bool isLastQuestion = questionIndex == widget.wid.length - 1; return Scaffold( - backgroundColor: Colors.deepPurple, + backgroundColor: const Color.fromARGB(255, 255, 255, 255), appBar: AppBar( - backgroundColor: Colors.deepPurpleAccent, + centerTitle: true, + title: Text( + "${widget.qab}", + style: TextStyle( + color: Colors.black, + fontStyle: FontStyle.italic, + fontWeight: FontWeight.bold, + fontSize: 23), + ), + backgroundColor: Color.fromARGB(255, 255, 121, 0), + ), + bottomSheet: SolidBottomSheet( + maxHeight: 500, + controller: _controller, + draggableBody: true, + headerBar: Container(color: Color.fromARGB(100, 150, 420, 150)), + body: Container( + color: Color.fromARGB(255, 255, 255, 255), + height: 10, + child: Center( + child: Column( + children: [ + SizedBox( + height: 30, + ), + Padding( + padding: const EdgeInsets.all(10), + child: Text( + "${question.Solution}", + style: TextStyle(fontSize: 20, color: Colors.black), + ), + ), + ], + ), + ), + ), ), body: SingleChildScrollView( child: Padding( @@ -56,83 +91,61 @@ class _quizappState extends State { child: Column( mainAxisAlignment: MainAxisAlignment.spaceEvenly, children: [ - Text("${question.question}", - style: TextStyle(fontSize: 23, - color: Colors.white, - ), + Text( + "${question.question}", + style: TextStyle( + fontSize: 23, + color: const Color.fromARGB(255, 0, 0, 0), + ), textAlign: TextAlign.start, ), ListView.builder( itemCount: question.options.length, shrinkWrap: true, - itemBuilder: (context,index){ + itemBuilder: (context, index) { return GestureDetector( - onTap: selectedAnswerIndex == null ? () => pickAnswer(index) : null, + onTap: selectedAnswerIndex == null + ? () => pickAnswer(index) + : null, child: AnswerCard( - currentIndex : index, - question:question.options[index], - isSelected:selectedAnswerIndex == index, - selectedAnswerIndex:selectedAnswerIndex, - correctAnswerIndex:question.correctAnswerIndex, + currentIndex: index, + question: question.options[index], + isSelected: selectedAnswerIndex == index, + selectedAnswerIndex: selectedAnswerIndex, + correctAnswerIndex: question.correctAnswerIndex, ), ); - } - ), - - - isLastQuestion ? - RectunglerButton( - onPressed: (){}, - lable: 'Finish', - ) - : RectunglerButton( - onPressed: selectedAnswerIndex != null && !isSolutionVisible ? goToNextQuestion : null, - lable: 'Next', - ), - - - Column( - mainAxisAlignment: MainAxisAlignment.end, - children: [ - GestureDetector( - onTap: toggleSolutionVisibility, - child: Text( - 'Solution', - style: TextStyle( - decoration: TextDecoration.underline, - color: Colors.blue, - ), - ), - ), - ], - ), - Visibility( - visible: isSolutionVisible, - child: Padding( - padding: const EdgeInsets.all(16.0), - child: Text( - '${question.Solution}', - style: TextStyle(fontSize: 18), - ), - ), - ), - + }), + isLastQuestion + ? RectunglerButton( + onPressed: () { + Navigator.of(context).pushReplacement(MaterialPageRoute( + builder: (_) => result_screen( + score: score, + lis: widget.wid, + ))); + }, + lable: 'Finish', + ) + : RectunglerButton( + onPressed: + selectedAnswerIndex != null && !isSolutionVisible + ? goToNextQuestion + : null, + lable: 'Next', + ), ], ), ), ), + floatingActionButton: FloatingActionButton( + focusColor: Color.fromARGB(255, 211, 154, 154), + hoverColor: Color.fromARGB(255, 211, 154, 154), + backgroundColor: Color.fromARGB(255, 255, 121, 0), + child: Icon(Icons.remove_red_eye), + onPressed: () { + _controller.isOpened ? _controller.hide() : _controller.show(); + }), ); } } - - - - - - - - - - - - diff --git a/lib/Screens/resultscreen.dart b/lib/Screens/resultscreen.dart new file mode 100644 index 0000000..a49112e --- /dev/null +++ b/lib/Screens/resultscreen.dart @@ -0,0 +1,100 @@ +import 'package:Learner/main.dart'; +import 'package:flutter/cupertino.dart'; +import 'package:flutter/material.dart'; + +class result_screen extends StatelessWidget { + const result_screen({super.key, required this.score, required this.lis}); + + final int score; + final List lis; + + @override + Widget build(BuildContext context) { + return Scaffold( + backgroundColor: Color.fromARGB(255, 255, 232, 212), + body: SingleChildScrollView( + child: Center( + child: Column( + children: [ + SizedBox( + height: 150, + ), + const Text( + "Your Score", + style: TextStyle( + fontSize: 34, + fontWeight: FontWeight.w500, + color: Color.fromARGB(255, 0, 0, 0), + ), + ), + SizedBox( + height: 100, + ), + Stack( + alignment: Alignment.center, + children: [ + SizedBox( + height: 250, + width: 250, + child: CircularProgressIndicator( + strokeWidth: 12, + value: score / 20, + color: Color.fromARGB(255, 243, 162, 76), + backgroundColor: Color.fromARGB(255, 125, 125, 125), + ), + ), + Center( + child: Column( + children: [ + Center( + child: Text( + '${(score / lis.length * 100).toInt()}%', + style: const TextStyle( + fontSize: 80, + color: Color.fromARGB(255, 0, 0, 0)), + ), + ), + const SizedBox( + height: 15, + ), + Text( + score.toString() + "/20", + style: TextStyle( + fontSize: 25, + color: const Color.fromARGB(255, 2, 2, 2)), + ), + ], + ), + ) + ], + ), + SizedBox( + height: 125, + ), + CupertinoButton( + color: Color.fromARGB(255, 255, 152, 61), + child: Text( + "back", + style: TextStyle( + color: Colors.black, + fontSize: 25, + fontWeight: FontWeight.bold), + ), + onPressed: () { + Navigator.of(context) + .pop(MaterialPageRoute(builder: (_) => home())); + }) + // RectunglerButton( + // onPressed: () { + // Navigator.of(context) + // .pop(MaterialPageRoute(builder: (_) => home())); + // }, + // lable: "back", + // ), + ], + ), + ), + ), + ); + } +} diff --git a/lib/splashscreen.dart b/lib/Screens/splashscreen.dart similarity index 52% rename from lib/splashscreen.dart rename to lib/Screens/splashscreen.dart index 53d53c8..6bc3466 100644 --- a/lib/splashscreen.dart +++ b/lib/Screens/splashscreen.dart @@ -1,10 +1,8 @@ -import 'package:Learner/bottomnavbar.dart'; -import 'package:animated_text_kit/animated_text_kit.dart'; +import 'package:Learner/pages/AuthChange.dart'; import 'package:flutter/material.dart'; import 'package:flutter/services.dart'; import 'package:lottie/lottie.dart'; - class Splashscreen extends StatefulWidget { const Splashscreen({super.key}); @@ -19,8 +17,8 @@ class _SplashscreenState extends State super.initState(); SystemChrome.setEnabledSystemUIMode(SystemUiMode.immersive); Future.delayed(const Duration(seconds: 5), () { - Navigator.of(context) - .pushReplacement(MaterialPageRoute(builder: (context) => MyHomePage(title: '',))); + Navigator.of(context).pushReplacement( + MaterialPageRoute(builder: (context) => AuthChange())); }); } @@ -31,17 +29,8 @@ class _SplashscreenState extends State overlays: SystemUiOverlay.values); } - @override Widget build(BuildContext context) { - - -const colorizeTextStyle = TextStyle( - fontSize: 33.0, - fontFamily: 'Horizon', - fontWeight: FontWeight.bold -); - return Scaffold( backgroundColor: const Color.fromARGB(255, 250, 251, 250), // body: Container( @@ -50,36 +39,44 @@ const colorizeTextStyle = TextStyle( // ) body: Column( children: [ - SizedBox( - height: 100, - ), - AnimatedTextKit( - - animatedTexts: [ - - WavyAnimatedText('CAREER BOOSTER',textStyle: colorizeTextStyle,), - ], - isRepeatingAnimation: true, - - ), - - Container(height: 550, + SizedBox( + height: 100, + ), + Text( + "CAREER BOOSTER", + style: TextStyle(fontWeight: FontWeight.bold, fontSize: 24), + ), + Container( + height: 550, child: Center( child: Lottie.network( - 'https://lottie.host/eaf5fc3e-1c79-406a-ba66-46bb53f4a177/m7uG8N8b1V.json'), + 'https://lottie.host/eaf5fc3e-1c79-406a-ba66-46bb53f4a177/m7uG8N8b1V.json'), ), ), - - Text('Powered by',style: TextStyle(fontSize: 15,fontWeight: FontWeight.normal,color: Colors.black) ,), - RichText(text: TextSpan( - text: 'Technical hub',style: TextStyle(fontSize: 25,fontWeight: FontWeight.bold,color: Color.fromARGB(255, 3, 135, 58)) , - children : [ - TextSpan(text: ' Traines',style: TextStyle(fontSize: 20,fontWeight: FontWeight.bold,color: Colors.black)), + Text( + 'Created by', + style: TextStyle( + fontSize: 15, + fontWeight: FontWeight.normal, + color: Colors.black), + ), + RichText( + text: TextSpan( + text: 'Tech Titans', + style: TextStyle( + fontSize: 25, + fontWeight: FontWeight.bold, + color: Color.fromARGB(255, 255, 130, 5)), + children: [ + TextSpan( + text: ' Team', + style: TextStyle( + fontSize: 20, + fontWeight: FontWeight.bold, + color: Colors.black)), ], )) ], - ) - - ); + )); } } diff --git a/lib/aptitude.dart b/lib/aptitude.dart deleted file mode 100644 index b6bca47..0000000 --- a/lib/aptitude.dart +++ /dev/null @@ -1,447 +0,0 @@ -import 'package:Learner/Screens/quizscreen.dart'; -import 'package:flutter/material.dart'; -import 'package:simple_list_tile/simple_list_tile.dart'; - -class Aptitude extends StatefulWidget { - @override - State createState() => _AptitudeState(); -} - -class _AptitudeState extends State { - List t = [ - tiles( - imgpath: 'https://cdn-icons-png.flaticon.com/128/2041/2041643.png', - text: 'Statistics'), - tiles( - imgpath: 'https://cdn-icons-png.flaticon.com/128/993/993872.png', - text: 'Ratio & Propotion'), - tiles( - imgpath: 'https://cdn-icons-png.flaticon.com/128/7293/7293371.png', - text: 'Logarithms'), - tiles( - imgpath: 'https://cdn-icons-png.flaticon.com/128/8675/8675429.png', - text: 'Profit & Loss'), - tiles( - imgpath: 'https://cdn-icons-png.flaticon.com/128/5405/5405969.png', - text: 'Averages'), - tiles( - imgpath: 'https://cdn-icons-png.flaticon.com/128/3742/3742713.png', - text: 'Simple Interest'), - tiles( - imgpath: 'https://cdn-icons-png.flaticon.com/128/850/850960.png', - text: 'Time & Distance'), - tiles( - imgpath: - 'https://encrypted-tbn0.gstatic.com/images?q=tbn:ANd9GcQiYePLPiFXyaR9yvNuZpwzJjGgxCMIEAL2ig&usqp=CAU', - text: 'Lcm & Hcf'), - tiles( - imgpath: 'https://cdn-icons-png.flaticon.com/128/4090/4090217.png', - text: 'Compound Interest'), - tiles( - imgpath: 'https://cdn-icons-png.flaticon.com/128/3696/3696440.png', - text: 'Number System'), - tiles( - imgpath: 'https://cdn-icons-png.flaticon.com/128/5074/5074128.png', - text: 'Problems On Ages'), - tiles( - imgpath: 'https://cdn-icons-png.flaticon.com/128/9677/9677576.png', - text: 'Mixtures And Alligations'), - tiles( - imgpath: 'https://cdn-icons-png.flaticon.com/128/726/726476.png', - text: 'Percentages'), - tiles( - imgpath: 'https://cdn-icons-png.flaticon.com/128/1006/1006555.png', - text: 'Partnership'), - tiles( - imgpath: 'https://cdn-icons-png.flaticon.com/128/9823/9823926.png', - text: 'Data Interpretation'), - tiles( - imgpath: - 'https://t3.ftcdn.net/jpg/03/84/27/68/240_F_384276829_zPFmi9iVIt5dyTBL2SuJ4gqMxZkUV9dL.jpg', - text: 'Permutations & Combinations'), - tiles( - imgpath: 'https://cdn-icons-png.flaticon.com/128/2480/2480809.png', - text: 'Probability'), - tiles( - imgpath: 'https://cdn-icons-png.flaticon.com/128/748/748622.png', - text: 'Mensuration-1'), - tiles( - imgpath: 'https://cdn-icons-png.flaticon.com/128/4229/4229093.png', - text: 'Mensuration-2'), - tiles( - imgpath: 'https://cdn-icons-png.flaticon.com/128/7339/7339321.png', - text: 'Time & Work'), - ]; - @override - Widget build(BuildContext context) { - return MaterialApp( - debugShowCheckedModeBanner: false, - home: Scaffold( - backgroundColor: Colors.black, - appBar: AppBar( - title: Text( - 'Aptitude', - style: TextStyle( - fontStyle: FontStyle.italic, - fontWeight: FontWeight.bold, - fontSize: 23), - ), - centerTitle: true, - backgroundColor: Colors.black, - leading: GestureDetector( - onTap: () { - Navigator.pop(context); - }, - child: Icon(Icons.arrow_back_ios)), - ), - body: ListView.builder( - itemCount: t.length, - itemBuilder: (BuildContext context, i) { - return Card( - color: const Color.fromARGB(0, 0, 0, 0), - child: SimpleListTile( - onTap: () { - Navigator.push(context, - MaterialPageRoute(builder: (context) => quizapp())); - }, - title: Text( - t[i].text, - style: TextStyle( - color: Color.fromARGB(255, 40, 39, 39), - fontWeight: FontWeight.bold, - fontSize: 20, - ), - ), - trailing: const Icon( - Icons.arrow_forward_ios, - color: Color.fromARGB(255, 143, 141, 142), - ), - leading: Column( - mainAxisAlignment: MainAxisAlignment.center, - children: [ - Image( - width: 30, - height: 30, - image: NetworkImage( - t[i].imgpath, - ), - ) - ], - ), - borderRadius: BorderRadius.circular(20), - tileColor: const Color.fromARGB(255, 242, 240, 240), - circleColor: const Color.fromARGB(255, 226, 206, 205), - circleDiameter: 60, - gradient: const LinearGradient( - colors: [ - Color.fromARGB(255, 249, 248, 250), - Color.fromARGB(255, 251, 251, 252) - ], - ), - ), - ); - }), - ), - ); - } -} - - -class tiles { - final String imgpath; - final String text; - tiles({required this.imgpath, required this.text}); -} - - -class Electrical extends StatefulWidget { - const Electrical({super.key}); - - @override - State createState() => _ElectricalState(); -} - -class _ElectricalState extends State { - List t = [ - tiles( - imgpath: 'https://cdn-icons-png.flaticon.com/128/2041/2041643.png', - text: 'Statistics'), - tiles( - imgpath: 'https://cdn-icons-png.flaticon.com/128/993/993872.png', - text: 'Ratio & Propotion'), - tiles( - imgpath: 'https://cdn-icons-png.flaticon.com/128/7293/7293371.png', - text: 'Logarithms'), - tiles( - imgpath: 'https://cdn-icons-png.flaticon.com/128/8675/8675429.png', - text: 'Profit & Loss'), - tiles( - imgpath: 'https://cdn-icons-png.flaticon.com/128/5405/5405969.png', - text: 'Averages'), - tiles( - imgpath: 'https://cdn-icons-png.flaticon.com/128/3742/3742713.png', - text: 'Simple Interest'), - tiles( - imgpath: 'https://cdn-icons-png.flaticon.com/128/850/850960.png', - text: 'Time & Distance'), - tiles( - imgpath: - 'https://encrypted-tbn0.gstatic.com/images?q=tbn:ANd9GcQiYePLPiFXyaR9yvNuZpwzJjGgxCMIEAL2ig&usqp=CAU', - text: 'Lcm & Hcf'), - tiles( - imgpath: 'https://cdn-icons-png.flaticon.com/128/4090/4090217.png', - text: 'Compound Interest'), - tiles( - imgpath: 'https://cdn-icons-png.flaticon.com/128/3696/3696440.png', - text: 'Number System'), - tiles( - imgpath: 'https://cdn-icons-png.flaticon.com/128/5074/5074128.png', - text: 'Problems On Ages'), - tiles( - imgpath: 'https://cdn-icons-png.flaticon.com/128/9677/9677576.png', - text: 'Mixtures And Alligations'), - tiles( - imgpath: 'https://cdn-icons-png.flaticon.com/128/726/726476.png', - text: 'Percentages'), - tiles( - imgpath: 'https://cdn-icons-png.flaticon.com/128/1006/1006555.png', - text: 'Partnership'), - tiles( - imgpath: 'https://cdn-icons-png.flaticon.com/128/9823/9823926.png', - text: 'Data Interpretation'), - tiles( - imgpath: - 'https://t3.ftcdn.net/jpg/03/84/27/68/240_F_384276829_zPFmi9iVIt5dyTBL2SuJ4gqMxZkUV9dL.jpg', - text: 'Permutations & Combinations'), - tiles( - imgpath: 'https://cdn-icons-png.flaticon.com/128/2480/2480809.png', - text: 'Probability'), - tiles( - imgpath: 'https://cdn-icons-png.flaticon.com/128/748/748622.png', - text: 'Mensuration-1'), - tiles( - imgpath: 'https://cdn-icons-png.flaticon.com/128/4229/4229093.png', - text: 'Mensuration-2'), - tiles( - imgpath: 'https://cdn-icons-png.flaticon.com/128/7339/7339321.png', - text: 'Time & Work'), - ]; - @override - Widget build(BuildContext context) { - return MaterialApp( - debugShowCheckedModeBanner: false, - home: Scaffold( - backgroundColor: Colors.black, - appBar: AppBar( - title: Text( - 'Aptitude', - style: TextStyle( - fontStyle: FontStyle.italic, - fontWeight: FontWeight.bold, - fontSize: 23), - ), - centerTitle: true, - backgroundColor: Colors.black, - leading: GestureDetector( - onTap: () { - Navigator.pop(context); - }, - child: Icon(Icons.arrow_back_ios)), - ), - body: ListView.builder( - itemCount: t.length, - itemBuilder: (BuildContext context, i) { - return Card( - color: const Color.fromARGB(0, 0, 0, 0), - child: SimpleListTile( - onTap: () { - Navigator.push(context, - MaterialPageRoute(builder: (context) => quizapp())); - }, - title: Text( - t[i].text, - style: TextStyle( - color: Color.fromARGB(255, 40, 39, 39), - fontWeight: FontWeight.bold, - fontSize: 20, - ), - ), - trailing: const Icon( - Icons.arrow_forward_ios, - color: Color.fromARGB(255, 143, 141, 142), - ), - leading: Column( - mainAxisAlignment: MainAxisAlignment.center, - children: [ - Image( - width: 30, - height: 30, - image: NetworkImage( - t[i].imgpath, - ), - ) - ], - ), - borderRadius: BorderRadius.circular(20), - tileColor: const Color.fromARGB(255, 242, 240, 240), - circleColor: const Color.fromARGB(255, 226, 206, 205), - circleDiameter: 60, - gradient: const LinearGradient( - colors: [ - Color.fromARGB(255, 249, 248, 250), - Color.fromARGB(255, 251, 251, 252) - ], - ), - ), - ); - }), - ), - ); - } -} - -class Logical extends StatefulWidget { - const Logical({super.key}); - - @override - State createState() => _LogicalState(); -} - -class _LogicalState extends State { - List t = [ - tiles( - imgpath: 'https://cdn-icons-png.flaticon.com/128/2041/2041643.png', - text: 'Statistics'), - tiles( - imgpath: 'https://cdn-icons-png.flaticon.com/128/993/993872.png', - text: 'Ratio & Propotion'), - tiles( - imgpath: 'https://cdn-icons-png.flaticon.com/128/7293/7293371.png', - text: 'Logarithms'), - tiles( - imgpath: 'https://cdn-icons-png.flaticon.com/128/8675/8675429.png', - text: 'Profit & Loss'), - tiles( - imgpath: 'https://cdn-icons-png.flaticon.com/128/5405/5405969.png', - text: 'Averages'), - tiles( - imgpath: 'https://cdn-icons-png.flaticon.com/128/3742/3742713.png', - text: 'Simple Interest'), - tiles( - imgpath: 'https://cdn-icons-png.flaticon.com/128/850/850960.png', - text: 'Time & Distance'), - tiles( - imgpath: - 'https://encrypted-tbn0.gstatic.com/images?q=tbn:ANd9GcQiYePLPiFXyaR9yvNuZpwzJjGgxCMIEAL2ig&usqp=CAU', - text: 'Lcm & Hcf'), - tiles( - imgpath: 'https://cdn-icons-png.flaticon.com/128/4090/4090217.png', - text: 'Compound Interest'), - tiles( - imgpath: 'https://cdn-icons-png.flaticon.com/128/3696/3696440.png', - text: 'Number System'), - tiles( - imgpath: 'https://cdn-icons-png.flaticon.com/128/5074/5074128.png', - text: 'Problems On Ages'), - tiles( - imgpath: 'https://cdn-icons-png.flaticon.com/128/9677/9677576.png', - text: 'Mixtures And Alligations'), - tiles( - imgpath: 'https://cdn-icons-png.flaticon.com/128/726/726476.png', - text: 'Percentages'), - tiles( - imgpath: 'https://cdn-icons-png.flaticon.com/128/1006/1006555.png', - text: 'Partnership'), - tiles( - imgpath: 'https://cdn-icons-png.flaticon.com/128/9823/9823926.png', - text: 'Data Interpretation'), - tiles( - imgpath: - 'https://t3.ftcdn.net/jpg/03/84/27/68/240_F_384276829_zPFmi9iVIt5dyTBL2SuJ4gqMxZkUV9dL.jpg', - text: 'Permutations & Combinations'), - tiles( - imgpath: 'https://cdn-icons-png.flaticon.com/128/2480/2480809.png', - text: 'Probability'), - tiles( - imgpath: 'https://cdn-icons-png.flaticon.com/128/748/748622.png', - text: 'Mensuration-1'), - tiles( - imgpath: 'https://cdn-icons-png.flaticon.com/128/4229/4229093.png', - text: 'Mensuration-2'), - tiles( - imgpath: 'https://cdn-icons-png.flaticon.com/128/7339/7339321.png', - text: 'Time & Work'), - ]; - @override - Widget build(BuildContext context) { - return MaterialApp( - debugShowCheckedModeBanner: false, - home: Scaffold( - backgroundColor: Colors.black, - appBar: AppBar( - title: Text( - 'Aptitude', - style: TextStyle( - fontStyle: FontStyle.italic, - fontWeight: FontWeight.bold, - fontSize: 23), - ), - centerTitle: true, - backgroundColor: Colors.black, - leading: GestureDetector( - onTap: () { - Navigator.pop(context); - }, - child: Icon(Icons.arrow_back_ios)), - ), - body: ListView.builder( - itemCount: t.length, - itemBuilder: (BuildContext context, i) { - return Card( - color: const Color.fromARGB(0, 0, 0, 0), - child: SimpleListTile( - onTap: () { - Navigator.push(context, - MaterialPageRoute(builder: (context) => quizapp())); - }, - title: Text( - t[i].text, - style: TextStyle( - color: Color.fromARGB(255, 40, 39, 39), - fontWeight: FontWeight.bold, - fontSize: 20, - ), - ), - trailing: const Icon( - Icons.arrow_forward_ios, - color: Color.fromARGB(255, 143, 141, 142), - ), - leading: Column( - mainAxisAlignment: MainAxisAlignment.center, - children: [ - Image( - width: 30, - height: 30, - image: NetworkImage( - t[i].imgpath, - ), - ) - ], - ), - borderRadius: BorderRadius.circular(20), - tileColor: const Color.fromARGB(255, 242, 240, 240), - circleColor: const Color.fromARGB(255, 226, 206, 205), - circleDiameter: 60, - gradient: const LinearGradient( - colors: [ - Color.fromARGB(255, 249, 248, 250), - Color.fromARGB(255, 251, 251, 252) - ], - ), - ), - ); - }), - ), - ); - } -} diff --git a/lib/bottomnavbar.dart b/lib/bottomnavbar.dart deleted file mode 100644 index f8e0584..0000000 --- a/lib/bottomnavbar.dart +++ /dev/null @@ -1,169 +0,0 @@ -import 'package:Learner/aptitude.dart'; -import 'package:Learner/chatgpt.dart'; -import 'package:Learner/main.dart'; -import 'package:flutter/gestures.dart'; -import 'package:flutter/material.dart'; -import 'package:flutter_floating_bottom_bar/flutter_floating_bottom_bar.dart'; - -void main() { - runApp(const app()); -} - -class app extends StatelessWidget { - const app({super.key}); - - @override - Widget build(BuildContext context) { - return MaterialApp( - home: MyHomePage( - title: '', - ), - ); - } -} - -class MyHomePage extends StatefulWidget { - // ignore: prefer_const_constructors_in_immutables - MyHomePage({Key? key, required this.title}) : super(key: key); - final String title; - - @override - // ignore: library_private_types_in_public_api - _MyHomePageState createState() => _MyHomePageState(); -} - -class _MyHomePageState extends State - with SingleTickerProviderStateMixin { - late int currentPage; - late TabController tabController; - final screens = [home(), chatggpt(), Aptitude(), Aptitude()]; - final List colors = [ - Colors.yellow, - Color.fromARGB(255, 58, 14, 255), - Color.fromARGB(255, 13, 109, 2), - Color.fromARGB(255, 255, 0, 0), - Colors.pink - ]; - - @override - void initState() { - currentPage = 0; - tabController = TabController(length: 4, vsync: this); - tabController.animation!.addListener( - () { - final value = tabController.animation!.value.round(); - if (value != currentPage && mounted) { - changePage(value); - } - }, - ); - super.initState(); - } - - void changePage(int newPage) { - setState(() { - currentPage = newPage; - }); - } - - @override - void dispose() { - tabController.dispose(); - super.dispose(); - } - - @override - Widget build(BuildContext context) { - final Color unselectedColor = colors[currentPage].computeLuminance() < 0.5 - ? Colors.black - : Colors.white; - return SafeArea( - child: Scaffold( - body: BottomBar( - // ignore: sort_child_properties_last - child: TabBar( - indicatorPadding: const EdgeInsets.fromLTRB(6, 0, 6, 0), - controller: tabController, - indicator: UnderlineTabIndicator( - borderSide: BorderSide( - color: currentPage == 0 - ? colors[0] - : currentPage == 1 - ? colors[1] - : currentPage == 2 - ? colors[2] - : currentPage == 3 - ? colors[3] - : unselectedColor, - width: 3), - insets: const EdgeInsets.fromLTRB(16, 0, 16, 8)), - tabs: [ - SizedBox( - height: 55, - width: 40, - child: Center( - child: Icon( - Icons.home, - color: currentPage == 0 ? colors[0] : unselectedColor, - )), - ), - SizedBox( - height: 55, - width: 40, - child: Center( - child: Icon( - Icons.search, - color: currentPage == 1 ? colors[1] : unselectedColor, - )), - ), - SizedBox( - height: 55, - width: 40, - child: Center( - child: Icon( - Icons.add, - color: currentPage == 2 ? colors[2] : unselectedColor, - )), - ), - SizedBox( - height: 55, - width: 40, - child: Center( - child: Icon( - Icons.favorite, - color: currentPage == 3 ? colors[3] : unselectedColor, - )), - ), - ], - ), - fit: StackFit.expand, - - borderRadius: BorderRadius.circular(500), - duration: const Duration(seconds: 1), - curve: Curves.decelerate, - showIcon: true, - width: MediaQuery.of(context).size.width * 0.8, - barColor: colors[currentPage].computeLuminance() > 0.5 - ? Color.fromARGB(71, 11, 0, 0) - : Color.fromARGB(71, 11, 0, 0), - start: 2, - end: 0, - offset: 10, - barAlignment: Alignment.bottomCenter, - iconHeight: 35, - iconWidth: 35, - reverse: false, - hideOnScroll: true, - scrollOpposite: false, - onBottomBarHidden: () {}, - onBottomBarShown: () {}, - body: (context, controller) => TabBarView( - controller: tabController, - dragStartBehavior: DragStartBehavior.down, - physics: BouncingScrollPhysics(), - children: screens), - ), - ), - ); - } -} diff --git a/lib/chatgpt.dart b/lib/chatgpt.dart deleted file mode 100644 index fc3ecd7..0000000 --- a/lib/chatgpt.dart +++ /dev/null @@ -1,36 +0,0 @@ -import 'package:Learner/pages/chat_page.dart'; -import 'package:flutter/material.dart'; - -class chatggpt extends StatefulWidget { - const chatggpt({super.key}); - - @override - State createState() => _chatggptState(); -} - -class _chatggptState extends State { - @override - Widget build(BuildContext context) { - return Scaffold( - body: GestureDetector( - onTap: (){ - Navigator.push(context, MaterialPageRoute(builder: (context)=>chatpage())); - }, - child: Center( - child: ClipRRect(borderRadius: BorderRadius.circular(12), - child: Container( - width: 250, - height: 50, - color: Color.fromARGB(255, 10, 10, 10), - child: Center(child: Text('press to get chat GPT', style: TextStyle( - fontStyle: FontStyle.italic, - fontWeight: FontWeight.bold, - color: Colors.white, - fontSize: 23),),), - ), - ), - ), - ), - ); - } -} \ No newline at end of file diff --git a/lib/consts.dart b/lib/consts.dart deleted file mode 100644 index 2a1066d..0000000 --- a/lib/consts.dart +++ /dev/null @@ -1,2 +0,0 @@ - -const OPENAI_API_KEY = "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"; diff --git a/lib/data/aptitude/aptitudelist.dart b/lib/data/aptitude/aptitudelist.dart new file mode 100644 index 0000000..11a66f6 --- /dev/null +++ b/lib/data/aptitude/aptitudelist.dart @@ -0,0 +1,4115 @@ +import 'package:Learner/data/electrical/electricalList.dart'; + +class QuestionModel { + final String question; + final List options; + final correctAnswerIndex; + final String Solution; + + const QuestionModel({ + required this.question, + required this.options, + required this.correctAnswerIndex, + required this.Solution, + }); +} + +List apt = [ + bits(a: statistics), + bits(a: ratio_and_application), + bits(a: logarithms), + bits(a: profit_and_loss), + bits(a: averages), + bits(a: simple_interest), + bits(a: time_and_distance), + bits(a: lcm_and_hcf), + bits(a: compound_interest), + bits(a: number_system), + bits(a: problem_on_ages), + bits(a: mixture_and_aleigation), + bits(a: percentage), + bits(a: partnership), + bits(a: data_interpretation), + bits(a: permutation_and_combination), + bits(a: probability), + bits(a: mensuration_1), + bits(a: mensuration_2), + bits(a: time_and_work), +]; + +List ratio_and_application = [ + QuestionModel( + question: "1. What is the ratio of 3:5 in its simplest form?", + options: [ + "A) 3:5", + "B) 6:10", + "C) 1:2", + "D) 2:3", + ], + correctAnswerIndex: 2, + Solution: + 'Explanation: To simplify the ratio 3:5, you can divide both terms by their greatest common factor, which is 1. So, 3:5 simplifies to 1:2.'), + QuestionModel( + question: + "2. If a recipe calls for 2 cups of flour and 3 cups of sugar, what is the ratio of flour to sugar?", + options: [ + "A) 3:2", + "B) 2:3", + "C) 5:6", + "D) 2:5", + ], + correctAnswerIndex: 1, + Solution: + 'Explanation: The ratio of flour to sugar is 2:3, as per the recipe.'), + QuestionModel( + question: "3. If 4 pencils cost 2 rupees, what is the cost of 6 pencils?", + options: [ + "A) 2 rupees", + "B) 3 rupees", + "C) 4 rupees", + "D) 5 rupees", + ], + correctAnswerIndex: 1, + Solution: + 'Explanation: The cost of 1 pencil is 2/4 rupees= 0.5 rupees. So, the cost of 6 pencils is 6 * 0.5 rupees = 3 rupees.'), + QuestionModel( + question: + " If a car travels 120 miles in 2 hours, what is its speed in miles per hour (mph)?", + options: [ + "A) 60 mph", + "B) 80 mph", + "C) 120 mph", + "D) 240 mph", + ], + correctAnswerIndex: 0, + Solution: + 'Explanation: Speed is calculated as distance divided by time, so 120 miles / 2 hours = 60 mph.'), + QuestionModel( + question: + "5.If the ratio of boys to girls in a class is 3:4, and there are 21 girls, how many boys are there? ", + options: [ + "A) 12", + "B) 15", + "C) 18", + "D) 24", + ], + correctAnswerIndex: 0, + Solution: + 'Explanation: The ratio of boys to girls is 3:4, so for every 7 parts (3 boys + 4 girls), there are 21 girls. Thus, there are 3 boys for every 7 parts, and 3 boys for 7 parts * 3 = 21 parts, which means 3 boys.'), + QuestionModel( + question: + "6. If a map scale is 1:10,000 and the distance on the map is 5 inches, what is the actual distance on the ground?", + options: [ + "A) 50,000 inches", + "B) 500 inches", + "C) 0.5 inches", + "D) 5,000 inches", + ], + correctAnswerIndex: 0, + Solution: + 'Explanation: To find the actual distance, you multiply the map distance by the scale factor, so 5 inches * 10,000 = 50,000 inches.'), + QuestionModel( + question: + "7. If 15% of a quantity is equivalent to 45, what is the total quantity?", + options: [ + "A) 300", + "B) 225", + "C) 150", + "D)75", + ], + correctAnswerIndex: 0, + Solution: + 'Explanation: You can set up a proportion: (15/100) * Q = 45. Solving for Q, you get Q = 45 / (15/100) = 300.'), + QuestionModel( + question: + "8. If a recipe calls for 2 cups of sugar and you want to make half the recipe, how many cups of sugar do you need?", + options: [ + "A) 2 cups", + "B) 1 cup", + "C) 4 cups", + "D) 0.5 cups", + ], + correctAnswerIndex: 1, + Solution: + 'Explanation: Half of 2 cups is 1 cup, so you need 1 cup of sugar.'), + QuestionModel( + question: + "9. If the ratio of red balls to blue balls in a bag is 5:3, and there are 24 red balls, how many blue balls are there?", + options: [ + "A) 9", + "B) 8", + "C) 3", + "d) 7", + ], + correctAnswerIndex: 1, + Solution: + "Explanation: The ratio of red balls to blue balls is 5:3. If there are 24 red balls, then there are (3/5) * 24 = 14.4 blue balls, but since you can't have a fraction of a ball, there are 8 blue balls."), + QuestionModel( + question: + "10. If a recipe calls for 1 cup of flour and 2 cups of water, and you want to make the recipe with 4 cups of water, how much flour do you need? ", + options: [ + "A) 1/2 cup", + "B) 1 cup", + "C) 2 cups", + "D) 4 cups", + ], + correctAnswerIndex: 1, + Solution: + "Explanation: The ratio of water to flour is 2:1. If you're using 4 cups of water, you need 4/2 = 2 cups of flour."), + QuestionModel( + question: + "11. If a car travels 240 miles in 4 hours, what is its speed in kilometers per hour (kph) if 1 mile is approximately equal to 1.60934 kilometers?", + options: [ + "A) 60 kph", + "B) 96.56 kph", + "C) 40 kph", + "D) 10 kph", + ], + correctAnswerIndex: 1, + Solution: + 'Explanation: Convert the distance to kilometers: 240 miles * 1.60934 kilometers/mile = 386.12 kilometers. Then, calculate speed: 386.12 kilometers / 4 hours = 96.56 kph.'), + QuestionModel( + question: + "12. If the scale of a model train is 1:87 and the model train is 29.5 inches long, what is the length of the actual train?", + options: [ + "A) 1.5 inches", + "B) 29.5 inches", + "C) 2,561.5 inches", + "D) 255.75 inches", + ], + correctAnswerIndex: 2, + Solution: + 'Explanation: Multiply the model length by the scale factor: 29.5 inches * 87 = 2,561.5 inches.'), + QuestionModel( + question: + "13. If the ratio of apples to oranges in a fruit basket is 5:3, and there are 40 apples, how many oranges are there?", + options: [ + "A) 15", + "B) 30", + "C) 20", + "D) 24", + ], + correctAnswerIndex: 2, + Solution: + 'Explanation: The ratio of apples to oranges is 5:3. If there are 40 apples, then there are (3/5) * 40 = 24 oranges.'), + QuestionModel( + question: + "14. If 20% of a quantity is equivalent to 80, what is the total quantity?", + options: [ + "A) 400", + "B) 160", + "C) 200", + "D) 20", + ], + correctAnswerIndex: 0, + Solution: + 'Explanation: You can set up a proportion: (20/100) * Q = 80. Solving for Q, you get Q = 80 / (20/100) = 400.'), + QuestionModel( + question: + "15. If a rectangular room is 10 feet long and 8 feet wide, what is the ratio of length to width?", + options: [ + "A) 10:8", + "B) 4:5", + "C) 5:4", + "D) 8:10", + ], + correctAnswerIndex: 1, + Solution: + 'Explanation: The ratio of length to width is 10:8, which simplifies to 5:4.'), + QuestionModel( + question: + "16. If a recipe calls for 1.5 cups of sugar and you want to make the recipe with 3/4 of the sugar, how much sugar do you need?", + options: [ + "A) 1.125 cups", + "B) 1.25 cups", + "C) 1.75 cups", + "D) 0.75 cups", + ], + correctAnswerIndex: 0, + Solution: + 'Explanation: Three-fourths (3/4) of 1.5 cups is (3/4) * 1.5 = 1.125 cups.'), + QuestionModel( + question: + "17. If the ratio of students to teachers in a school is 25:1 and there are 500 students, how many teachers are there?", + options: [ + "A) 10", + "B) 12", + "C) 20", + "D) 25", + ], + correctAnswerIndex: 0, + Solution: + 'Explanation: The ratio of students to teachers is 25:1. If there are 500 students, then there are 500 / 25 = 20 parts. So, there are 20 teachers.'), + QuestionModel( + question: + "18. If a recipe calls for 3 tablespoons of oil and you want to make the recipe with 1/4 of the oil, how much oil do you need?", + options: [ + "A) 0.25 tablespoons", + "B) 0.75 tablespoons", + "C) 1.5 tablespoons", + "D) 3 tablespoons", + ], + correctAnswerIndex: 1, + Solution: + 'Explanation: One-fourth (1/4) of 3 tablespoons is (1/4) * 3 = 0.75 tablespoons.'), + QuestionModel( + question: + "19. If a recipe calls for 2 eggs and you want to make the recipe with 1/3 of the eggs, how many eggs do you need?", + options: [ + "A) 1/2 egg", + "B) 1 egg", + "C) 2/3 egg", + "D) 3 eggs", + ], + correctAnswerIndex: 0, + Solution: + 'Explanation: One-third (1/3) of 2 eggs is (1/3) * 2 = 2/3 egg, which is equivalent to 1/2 egg.'), + QuestionModel( + question: + "20. If the ratio of red balls to green balls in a bag is 4:5, and there are 36 green balls, how many red balls are there?", + options: [ + "A) 20", + "B) 18", + "C) 16", + "D) 15", + ], + correctAnswerIndex: 1, + Solution: + "Explanation: The ratio of red balls to green balls is 4:5. If there are 36 green balls, then there are (4/5) * 36 = 28.8 red balls, but since you can't have a fraction of a ball, there are 18 red balls."), +]; + +List statistics = [ + QuestionModel( + question: "1. What is the primary goal of descriptive statistics?", + options: [ + 'A) To make predictions about the future.', + 'B) To summarize and describe data.', + 'C) To test hypotheses.', + 'D) To determine causation.' + ], + correctAnswerIndex: 1, + Solution: + 'Explanation: Descriptive statistics are used to summarize and describe the main features of a dataset, such as its central tendency, variability, and distribution.'), + QuestionModel( + question: + "2. Which measure of central tendency is most affected by outliers?", + options: [ + 'A) Mean', + 'B) Median', + 'C) Mode', + 'D) Range', + ], + correctAnswerIndex: 0, + Solution: + 'Explanation: The mean is sensitive to outliers because it takes into account the value of every data point, while the median and mode are less affected by extreme values.'), + QuestionModel( + question: + "3. In a normal distribution, what percentage of data falls within one standard deviation of the mean?", + options: [ + 'A) 34%', + 'B) 50%', + 'C) 68%', + 'D) 95%', + ], + correctAnswerIndex: 2, + Solution: + 'Explanation: In a normal distribution, approximately 68% of the data falls within one standard deviation of the mean.'), + QuestionModel( + question: "4. Which of the following is a measure of the spread of data?", + options: [ + "A) Mean", + "B) Median", + "C) Standard Deviation", + "D) Mode", + ], + correctAnswerIndex: 2, + Solution: + 'Explanation: The standard deviation quantifies the dispersion or spread of data points in a dataset.'), + QuestionModel( + question: + "5. What is the formula for calculating the coefficient of variation (CV)?", + options: [ + "A) (Standard Deviation / Range) * 100", + "B) (Standard Deviation / Mean) * 100", + "C) (Range / Mean) * 100", + "D) (Mean / Standard Deviation) * 100", + ], + correctAnswerIndex: 1, + Solution: + 'Explanation: The coefficient of variation is calculated by dividing the standard deviation by the mean and multiplying by 100.'), + QuestionModel( + question: + "6. Which of the following is a measure of the relationship between two variables?", + options: [ + 'A) Mean', + 'B) Standard Deviation', + 'C) Correlation', + 'D) Mode', + ], + correctAnswerIndex: 2, + Solution: + 'Explanation: Correlation measures the strength and direction of the relationship between two variables.'), + QuestionModel( + question: "7. What does a correlation coefficient of -1 signify?", + options: [ + 'A) No correlation', + 'B) Perfect positive correlation', + 'C) Perfect negative correlation', + 'D) Weak positive correlation', + ], + correctAnswerIndex: 2, + Solution: + 'A correlation coefficient of -1 indicates a perfect negative correlation, meaning that as one variable increases, the other decreases in a perfectly linear fashion.'), + QuestionModel( + question: + "8. Which statistical test is used to compare means of two independent groups?", + options: [ + 'A) Chi-square test', + 'B) T-test', + 'C) ANOVA', + 'D) Pearson correlation', + ], + correctAnswerIndex: 1, + Solution: + ' The t-test is used to compare the means of two independent groups to determine if there is a statistically significant difference between them.'), + QuestionModel( + question: "9.In hypothesis testing, what is the p-value?", + options: [ + 'A) The probability of committing a Type I error', + 'B) The probability of committing a Type II error', + 'C) The probability of the null hypothesis being true', + 'D) The probability of the alternative hypothesis being true', + ], + correctAnswerIndex: 0, + Solution: + 'Explanation: The p-value represents the probability of making a Type I error, which is rejecting a true null hypothesis.'), + QuestionModel( + question: "10. What is the standard alpha level for hypothesis testing?", + options: [ + 'A) 0.01', + 'B) 0.05', + 'C) 0.10', + 'D) 0.50', + ], + correctAnswerIndex: 1, + Solution: + 'Explanation: The standard alpha level for hypothesis testing is typically set at 0.05, representing a 5% significance level.'), + QuestionModel( + question: "11. In a boxplot, what does an outlier look like?", + options: [ + 'A) A point above the box or below the whiskers', + 'B) A point within the box', + 'C) A point at the median', + 'D) A point on the whiskers', + ], + correctAnswerIndex: 0, + Solution: + 'Explanation: Outliers in a boxplot are represented as individual data points that fall above the upper whisker or below the lower whisker.'), + QuestionModel( + question: + "12. What is the formula for the probability of an event not occurring (complement probability)?", + options: [ + "A) P(A) + P(A')", + "B) 1 - P(A)", + "C) P(A) * P(A')", + "D) P(A) / P(A')", + ], + correctAnswerIndex: 1, + Solution: + 'Explanation: The complement probability of an event A not occurring is equal to 1 minus the probability of A occurring.'), + QuestionModel( + question: + "13. Which type of sampling technique involves selecting every nth item from a population?", + options: [ + "A) Stratified sampling", + "B) Convenience sampling", + "C) Simple random sampling", + "D) Systematic sampling", + ], + correctAnswerIndex: 3, + Solution: + 'Explanation: Systematic sampling involves selecting items from a population at regular intervals, such as every nth item.'), + QuestionModel( + question: + "14. What is the mode of the following data set: {4, 7, 7, 8, 9, 9, 9, 11, 12}?", + options: [ + "A) 7", + "B) 8", + "C) 9", + "D) 11", + ], + correctAnswerIndex: 2, + Solution: + 'Explanation: The mode is the most frequently occurring value in the dataset, which is 9 in this case.'), + QuestionModel( + question: "15. What is the range of a dataset?", + options: [ + "A) The difference between the largest and smallest values in the dataset.", + "B) The average value of the dataset.", + "C) The value that occurs most frequently in the dataset.", + "D) The standard deviation of the dataset.", + ], + correctAnswerIndex: 0, + Solution: + 'Explanation: The range is a measure of the spread in a dataset and is calculated as the difference between the maximum and minimum values.'), + QuestionModel( + question: + "16. Which of the following is a measure of relative standing in a data set, indicating the percentage of data points below a given value?", + options: [ + "A) Z-score", + "B) Variance", + "C) Percentile", + "D) Coefficient of determination", + ], + correctAnswerIndex: 2, + Solution: + 'Explanation: A percentile tells you the percentage of data points that fall below a specific value in a dataset.'), + QuestionModel( + question: + "17. What is the formula for calculating the z-score of a data point?", + options: [ + "A) (X - μ) / σ", + "B) (X + μ) / σ", + "C) (X * μ) / σ", + "D) (X / μ) * σ", + ], + correctAnswerIndex: 0, + Solution: + 'Explanation: The z-score is calculated by subtracting the mean (μ) from the data point (X) and then dividing by the standard deviation (σ).'), + QuestionModel( + question: + "18. What is the formula for calculating the probability of the intersection of two independent events A and B?", + options: [ + "A) P(A) + P(B)", + "B) P(A) * P(B)", + "C) P(A) / P(B)", + "D) P(A) - P(B)", + ], + correctAnswerIndex: 1, + Solution: + 'Explanation: The probability of the intersection of two independent events A and B is calculated by multiplying the probabilities of each event separately.'), + QuestionModel( + question: + '19. What does the term "confidence interval" represent in statistics?', + options: [ + "A) The range of values within which a parameter is likely to fall.", + "B) The range of values within which all data points are concentrated.", + "C) The range of values that must be tested for significance.", + "D) The range of values that should be avoided in analysis.", + ], + correctAnswerIndex: 0, + Solution: + 'Explanation: A confidence interval represents the range of values within which a population parameter, such as a population mean, is likely to fall with a certain level of confidence.'), + QuestionModel( + question: + "20.: What is the formula for calculating the probability of an event occurring?", + options: [ + "A) Number of favorable outcomes / Total number of outcomes", + "B) Total number of outcomes / Number of favorable outcomes", + "C) Number of possible events / Number of impossible events", + "D) Number of past events / Number of future events", + ], + correctAnswerIndex: 0, + Solution: + 'Explanation: The probability of an event occurring is calculated by dividing the number of favorable outcomes by the total number of possible outcomes.'), +]; + +List simple_interest = [ + QuestionModel( + question: "1. What is simple interest?", + options: [ + "A) Interest calculated on the principal only", + "B) Interest calculated on the principal and accumulated interest", + "C) Interest calculated on the principal and other investments", + "D) Interest calculated on the principal and the rate", + ], + correctAnswerIndex: 0, + Solution: + "Simple interest is calculated on the initial principal amount without taking into account any previously earned interest."), + QuestionModel( + question: "2. What is the formula for simple interest?", + options: [ + "A) I = P * R * T", + "B) I = P / (1 + R * T)", + "C) I = P / (1 - R * T)", + "D) I = P + R * T" + ], + correctAnswerIndex: 0, + Solution: + "The formula for simple interest is I = P * R * T, where I is the interest, P is the principal amount, R is the rate of interest, and T is the time in years."), + QuestionModel( + question: + ".3 If the principal amount is \$1,000, the rate of interest is 5%, and the time is 3 years, what is the simple interest?", + options: ["\$50", "\$150", "\$250", "\$350"], + correctAnswerIndex: 1, + Solution: + "Using the formula I = P * R * T, I = 1000 * 0.05 * 3 = \$150."), + QuestionModel( + question: + "4. Simple interest is directly proportional to which of the following?", + options: ["Principal", "Rate of interest", "Time", "All of the above"], + correctAnswerIndex: 3, + Solution: + "Simple interest is directly proportional to the principal, rate of interest, and time."), + QuestionModel( + question: + "5. If the time period is 5 years, what will happen to the simple interest if the rate of interest is increased?", + options: [ + "Increase", + "Decrease", + "Stay the same", + "Cannot be determined" + ], + correctAnswerIndex: 0, + Solution: + "If the rate of interest is increased, the simple interest will increase as it is directly proportional to the rate of interest."), + QuestionModel( + question: + "6. What is the principal amount if the interest is \$120, the rate is 8%, and the time is 3 years?", + options: ["\$300", "\$400", "\$500", "\$600"], + correctAnswerIndex: 2, + Solution: + "Using the formula I = P * R * T, 120 = P * 0.08 * 3. Solving for P, P = 120 / (0.08 * 3) = \$500."), + QuestionModel( + question: + "7. If the rate of interest is 10% and the time is 4 years, what is the simple interest for a principal of \$2,000?", + options: ["\$400", "\$800", "\$1,600", "\$2,000"], + correctAnswerIndex: 1, + Solution: + "Using the formula I = P * R * T, I = 2000 * 0.10 * 4 = \$800."), + QuestionModel( + question: + "8. What happens to the simple interest if the time period is extended?", + options: [ + "Increases", + "Decreases", + "Stays the same", + "Depends on the principal amount" + ], + correctAnswerIndex: 0, + Solution: + "If the time period is extended, the simple interest increases because it is directly proportional to time."), + QuestionModel( + question: + "9. If the simple interest is \$60, the principal is \$1,200, and the time is 5 years, what is the rate of interest?", + options: ["2%", "4%", "5%", "10%"], + correctAnswerIndex: 1, + Solution: + "Using the formula I = P * R * T, 60 = 1200 * R * 5. Solving for R, R = 60 / (1200 * 5) = 0.04 or 4%."), + QuestionModel( + question: + "10. What is the total amount after 2 years for a \$5,000 principal with a 6% interest rate?", + options: ["\$5,600", "\$5,700", "\$5,800", "\$5,900"], + correctAnswerIndex: 0, + Solution: + "The total amount is the sum of the principal and the interest. Using the formula A = P + I, A = 5000 + (5000 * 0.06 * 2) = \$5,600."), + QuestionModel( + question: + "11. If the principal amount is \$1,500, the interest is \$90, what is the rate of interest?", + options: ["4%", "6%", "8%", "10%"], + correctAnswerIndex: 0, + Solution: + "Using the formula I = P * R * T, 90 = 1500 * R * T. Solving for R, R = 90 / (1500 * T) = 0.04 or 4%."), + QuestionModel( + question: + "12. If the rate of interest is 12% and the principal is \$4,000, how long will it take to earn \$960 in interest?", + options: ["2 years", "3 years", "4 years", "5 years"], + correctAnswerIndex: 1, + Solution: + "Using the formula I = P * R * T, 960 = 4000 * 0.12 * T. Solving for T, T = 960 / (4000 * 0.12) = 3 years."), + QuestionModel( + question: + "13. Which of the following factors does not affect the simple interest earned on an investment?", + options: [ + "Principal amount", + "Rate of interest", + "Time period", + "Type of investment" + ], + correctAnswerIndex: 3, + Solution: + "The type of investment does not affect the calculation of simple interest."), + QuestionModel( + question: + "14. If the interest earned on a \$2,500 investment is \$300, what is the effective interest rate?", + options: ["6%", "8%", "10%", "12%"], + correctAnswerIndex: 0, + Solution: + "Using the formula I = P * R * T, 300 = 2500 * R * T. Solving for R, R = 300 / (2500 * T) = 0.06 or 6%."), + QuestionModel( + question: + "15. What will be the total amount after 3 years for a \$1,000 principal at a 4% interest rate if the interest is compounded annually?", + options: ["\$1,120", "\$1,120.64", "\$1,121", "\$1,121.44"], + correctAnswerIndex: 1, + Solution: + "When interest is compounded annually, you can use the formula A = P(1 + R)^T, where A is the total amount. A = 1000(1 + 0.04)^3 = \$1,120.64."), + QuestionModel( + question: + "16. If the principal is \$800, the interest is \$96, and the rate is 6%, how long did the money stay invested?", + options: ["2 years", "3 years", "4 years", "5 years"], + correctAnswerIndex: 1, + Solution: + "Using the formula I = P * R * T, 96 = 800 * 0.06 * T. Solving for T, T = 96 / (800 * 0.06) = 3 years."), + QuestionModel( + question: + "17. If the rate of interest is 7% and the time period is 5 years, what is the simple interest on a principal of \$3,000?", + options: ["\$1,050", "\$1,200", "\$1,400", "\$1,750"], + correctAnswerIndex: 0, + Solution: + "Using the formula I = P * R * T, I = 3000 * 0.07 * 5 = \$1,050."), + QuestionModel( + question: + "18. What happens to simple interest if the principal is increased?", + options: [ + "Increases", + "Decreases", + "Stays the same", + "Depends on the rate of interest" + ], + correctAnswerIndex: 0, + Solution: + "Simple interest is directly proportional to the principal, so if the principal is increased, the interest also increases."), + QuestionModel( + question: + "19. If the interest is \$225 and the rate of interest is 9%, how long was the money invested if the principal is \$1,000?", + options: ["1 year", "2 years", "3 years", "4 years"], + correctAnswerIndex: 2, + Solution: + "Using the formula I = P * R * T, 225 = 1000 * 0.09 * T. Solving for T, T = 225 / (1000 * 0.09) = 3 years."), + QuestionModel( + question: + "20. What is the time period required for an investment to double at an 8% interest rate?", + options: [ + "A) 6 years", + "B) 8 years", + "C) 10 years", + "D) 12 years", + ], + correctAnswerIndex: 2, + Solution: + "Explanation: To double the principal, it takes approximately 10 years at an 8% interest rate. This is calculated using the rule of 72."), +]; + +List profit_and_loss = [ + QuestionModel( + question: + "1. A shopkeeper bought a shirt for ₹500 and sold it for ₹800. What was the profit percentage?", + options: [ + "a) 20%", + "b) 40%", + "c) 50%", + "d) 60%", + ], + correctAnswerIndex: 2, + Solution: + "Explanation: Profit Percentage = [(Selling Price - Cost Price) / Cost Price] * 100% = [(800 - 500) / 500] * 100% = 60%."), + QuestionModel( + question: + "2. If a book is sold at a 25% loss, and its cost price is ₹200, what is the selling price?", + options: [ + "a) ₹170", + "b) ₹155", + "c) ₹100", + "d) ₹125", + ], + correctAnswerIndex: 1, + Solution: + "Explanation: Selling Price = Cost Price - Loss = ₹200 - (0.25 * ₹200) = ₹150."), + QuestionModel( + question: + "3. A laptop was bought for ₹30,000 and sold for ₹36,000. What was the profit made?", + options: [ + "a) ₹5,000", + "b) ₹6,000", + "c) ₹7,000", + "d) ₹6,500", + ], + correctAnswerIndex: 1, + Solution: + "Explanation: Profit = Selling Price - Cost Price = ₹36,000 - ₹30,000 = ₹6,000."), + QuestionModel( + question: + "4. If the cost price of a saree is ₹2,500 and it was sold at a 20% profit, what was the selling price?", + options: [ + "a) ₹2,750", + "b) ₹3,000", + "c) ₹2,400", + "d) ₹2,800", + ], + correctAnswerIndex: 0, + Solution: + "Explanation: Selling Price = Cost Price + Profit = ₹2,500 + (0.20 * ₹2,500) = ₹2,750."), + QuestionModel( + question: + "5. A smartphone was bought for ₹15,000 and sold for ₹12,000. What was the loss incurred?", + options: [ + "a) ₹3,000", + "b) ₹2,000", + "c) ₹4,000", + "d) ₹5,000", + ], + correctAnswerIndex: 0, + Solution: + "Explanation: Loss = Cost Price - Selling Price = ₹15,000 - ₹12,000 = ₹3,000."), + QuestionModel( + question: + "6. What is the cost price if a bike was sold for ₹40,000 with a profit of 25%?", + options: [ + "a) ₹30,000 ", + "b) ₹35,000 ", + "c) ₹32,000 ", + "d) ₹38,000", + ], + correctAnswerIndex: 1, + Solution: + "Explanation: Cost Price = Selling Price / (1 + Profit Percentage) = ₹40,000 / (1 + 0.25) = ₹35,000. "), + QuestionModel( + question: + "7.If a watch was sold for ₹1,500, resulting in a 10% loss, what was the cost price?", + options: [ + "a) ₹1,650", + "b) ₹1,400", + "c) ₹1,800", + "d) ₹1,550", + ], + correctAnswerIndex: 3, + Solution: + "Explanation: Cost Price = Selling Price / (1 - Loss Percentage) = ₹1,500 / (1 - 0.10) = ₹1,550."), + QuestionModel( + question: + "8. A refrigerator was bought for ₹20,000 and sold for ₹25,000. What was the profit percentage?", + options: [ + "a) 25%", + "b) 20%", + "c) 30%", + "d) 35%", + ], + correctAnswerIndex: 1, + Solution: + "Explanation: Profit Percentage = [(Selling Price - Cost Price) / Cost Price] * 100% = [(₹25,000 - ₹20,000) / ₹20,000] * 100% = 25%."), + QuestionModel( + question: + "9. If a product is sold for ₹400 with a 20% profit, what is the cost price?", + options: [ + "a) ₹330", + "b) ₹340", + "c) ₹360", + "d) ₹380", + ], + correctAnswerIndex: 2, + Solution: + "Explanation: Cost Price = (Selling Price / (1 + Profit Percentage)) = ₹400 / (1 + 0.20) = ₹360."), + QuestionModel( + question: + "10. A shirt was sold for ₹800 with a 10% profit. What was the cost price?", + options: [ + "a) ₹720", + "b) ₹740", + "c) ₹720", + "d) ₹750", + ], + correctAnswerIndex: 0, + Solution: + "Explanation: Cost Price = (Selling Price / (1 + Profit Percentage)) = ₹800 / (1 + 0.10) = ₹720."), + QuestionModel( + question: + "11. Explanation: Cost Price = (Selling Price / (1 + Profit Percentage)) = ₹800 / (1 + 0.10) = ₹720.", + options: [ + "a) ₹25,000", + "b) ₹20,000", + "c) ₹22,500", + "d) ₹24,000", + ], + correctAnswerIndex: 1, + Solution: + "Explanation: Cost Price = (Profit / Profit Percentage) * 100% = (₹5,000 / 20%) * 100% = ₹20,000."), + QuestionModel( + question: + "12. A pair of shoes was sold for ₹600 with a profit of 40%. What was the cost price?", + options: [ + "a) ₹400", + "b) ₹420", + "c) ₹480", + "d) ₹500", + ], + correctAnswerIndex: 2, + Solution: + "Explanation: Cost Price = (Selling Price / (1 + Profit Percentage)) = ₹600 / (1 + 0.40) = ₹480."), + QuestionModel( + question: + "13. If a product is sold for ₹1,800 with a loss of 15%, what was the cost price?", + options: [ + "a) ₹2,000", + "b) ₹2,100", + "c) ₹2,200", + "d) ₹2,400", + ], + correctAnswerIndex: 0, + Solution: + "Explanation: Cost Price = Selling Price / (1 - Loss Percentage) = ₹1,800 / (1 - 0.15) = ₹2,000."), + QuestionModel( + question: + "14. A bike was bought for ₹50,000 and sold for ₹60,000, resulting in a profit of 20%. What was the profit in rupees?", + options: [ + "a) ₹10,000", + "b) ₹8,000", + "c) ₹12,000", + "d) ₹15,000", + ], + correctAnswerIndex: 0, + Solution: + "Explanation: Profit = Selling Price - Cost Price = ₹60,000 - ₹50,000 = ₹10,000."), + QuestionModel( + question: + "15. If the loss incurred on a television is ₹3,500, and the loss percentage is 15%, what is the cost price?", + options: [ + "a) ₹25,000", + "b) ₹22,000", + "c) ₹23,000", + "d) ₹21,000", + ], + correctAnswerIndex: 0, + Solution: + "Explanation: Cost Price = Selling Price / (1 - Loss Percentage) = ₹3,500 / (1 - 0.15) = ₹25,000."), + QuestionModel( + question: + "16. A smartphone was bought for ₹20,000 and sold for ₹18,000, resulting in a loss of 10%. What was the loss in rupees?", + options: [ + "a) ₹2,200", + "b) ₹1,800", + "c) ₹2,000", + "d) ₹1,500", + ], + correctAnswerIndex: 2, + Solution: + "Explanation: Loss = Cost Price - Selling Price = ₹20,000 - ₹18,000 = ₹2,000."), + QuestionModel( + question: + "17. If a product is sold for ₹3,500 with a profit of 25%, what is the cost price?", + options: [ + "a) ₹2,400", + "b) ₹2,500", + "c) ₹2,600", + "d) ₹3,000", + ], + correctAnswerIndex: 1, + Solution: + "Explanation: Cost Price = (Selling Price / (1 + Profit Percentage)) = ₹3,500 / (1 + 0.25) = ₹2,500."), + QuestionModel( + question: + "18. A laptop was sold for ₹24,000 with a profit of 20%. What was the cost price?", + options: [ + "a) ₹20,000", + "b) ₹21,000", + "c) ₹22,000", + "d) ₹23,000", + ], + correctAnswerIndex: 0, + Solution: + "Explanation: Cost Price = (Selling Price / (1 + Profit Percentage)) = ₹24,000 / (1 + 0.20) = ₹20,000."), + QuestionModel( + question: + "19. If a product is sold for ₹3,000 with a 10% loss, what is the cost price?", + options: [ + "a) ₹3,200", + "b) ₹3,300", + "c) ₹3,400", + "d) ₹3,500", + ], + correctAnswerIndex: 3, + Solution: + "Explanation: Cost Price = Selling Price / (1 - Loss Percentage) = ₹3,000 / (1 - 0.10) = ₹3,500."), + QuestionModel( + question: + "20. A shirt was sold for ₹750 with a profit of 15%. What was the cost price?", + options: [ + "a) ₹600", + "b) ₹650", + "c) ₹625", + "d) ₹700", + ], + correctAnswerIndex: 2, + Solution: + "Explanation: Cost Price = (Selling Price / (1 + Profit Percentage)) = ₹750 / (1 + 0.15) = ₹625."), +]; + +List problem_on_ages = [ + QuestionModel( + question: "1. In India, the legal voting age for general elections is:", + options: ["16 years", "18 years", "21 years", "25 years"], + correctAnswerIndex: 1, + Solution: + "The legal voting age for general elections in India is 18 years. This means that Indian citizens who are 18 years of age or older are eligible to vote in national and state elections."), + QuestionModel( + question: + "2. If Ram is currently 30 years old and Shyam is 5 years younger than Ram, how old is Shyam?", + options: ["25 years", "30 years", "35 years", "40 years"], + correctAnswerIndex: 0, + Solution: + "Shyam is 5 years younger than Ram, so he is 30 - 5 = 25 years old."), + QuestionModel( + question: + "3. A mother is three times as old as her son. If the mother is 39 years old, how old is the son?", + options: ["9 years", "12 years", "13 years", "15 years"], + correctAnswerIndex: 2, + Solution: + "Let the son's age be S. According to the given information, the mother is three times as old as her son, so 3S = 39. Solving for S, we get S = 39 / 3 = 13 years."), + QuestionModel( + question: + "4. If the average age of a family of four is 28 years, what is the sum of their ages?", + options: ["112 years", "116 years", "120 years", "124 years"], + correctAnswerIndex: 0, + Solution: + "The average age of the family is 28 years, and there are four family members. So, the sum of their ages is 28 * 4 = 112 years."), + QuestionModel( + question: + "5. Meera is twice as old as Rita. If Meera is 24 years old, how old is Rita?", + options: ["12 years", "16 years", "20 years", "24 years"], + correctAnswerIndex: 0, + Solution: + "Meera is twice as old as Rita, so if Meera is 24 years old, Rita is 24 / 2 = 12 years old."), + QuestionModel( + question: + "6. A father is 5 times older than his son. If the father's age is 45 years, how old is the son?", + options: ["5 years", "9 years", "15 years", "25 years"], + correctAnswerIndex: 1, + Solution: + "Let the son's age be S. According to the given information, the father is 5 times older than his son, so 5S = 45. Solving for S, we get S = 45 / 5 = 9 years."), + QuestionModel( + question: + "7. If the ratio of the ages of two persons A and B is 3:4 and the sum of their ages is 49 years, how old is person B?", + options: ["21 years", "28 years", "35 years", "42 years"], + correctAnswerIndex: 1, + Solution: + "Let the ages of A and B be 3x and 4x, respectively. According to the given information, 3x + 4x = 49. Solving for 7x = 49, we get x = 7. So, person B is 4x = 4 * 7 = 28 years old."), + QuestionModel( + question: + "8. If the current age of Ramesh is 15 years more than twice the age of Suresh, and Ramesh is 45 years old, how old is Suresh?", + options: ["10 years", "15 years", "20 years", "30 years"], + correctAnswerIndex: 2, + Solution: + "Let the age of Suresh be S. According to the given information, Ramesh is 15 years more than twice the age of Suresh, so 2S + 15 = 45. Solving for 2S, we get 2S = 30, and S = 30 / 2 = 15 years."), + QuestionModel( + question: + "9. If the average age of 6 friends is 25 years and one of them is 30 years old, what is the average age of the remaining 5 friends?", + options: ["20 years", "22 years", "23 years", "24 years"], + correctAnswerIndex: 2, + Solution: + "The sum of the ages of all 6 friends is 25 * 6 = 150 years. If one of them is 30 years old, the sum of the ages of the remaining 5 friends is 150 - 30 = 120 years. So, the average age of the remaining 5 friends is 120 / 5 = 24 years."), + QuestionModel( + question: + "10. If a person's age is a prime number between 20 and 30, what are the possible ages of that person?", + options: ["23", "27", "29", "All of the above"], + correctAnswerIndex: 3, + Solution: + "The prime numbers between 20 and 30 are 23, 29, and 27. So, the possible ages of that person are 23, 27, and 29."), + QuestionModel( + question: + "11. If Asha is currently twice as old as her son Arjun, and the sum of their ages is 45 years, how old is Arjun?", + options: ["15 years", "18 years", "20 years", "25 years"], + correctAnswerIndex: 1, + Solution: + "Let Arjun's age be A. According to the given information, Asha is currently twice as old as her son, so 2A = 45. Solving for A, we get A = 45 / 2 = 18 years."), + QuestionModel( + question: + "12. A group of 4 friends has an average age of 30 years. If the fifth friend joins the group and the average age becomes 32 years, how old is the fifth friend?", + options: ["32 years", "34 years", "36 years", "40 years"], + correctAnswerIndex: 2, + Solution: + "The sum of the ages of the 4 friends is 30 * 4 = 120 years. After the fifth friend joins, the average age becomes 32 years, so the sum of their ages is 32 * 5 = 160 years. The age of the fifth friend is 160 - 120 = 40 years."), + QuestionModel( + question: + "13. If the current age of a person is 45 years, and his son is one-third his age, how old is the son?", + options: ["10 years", "15 years", "20 years", "30 years"], + correctAnswerIndex: 2, + Solution: + "The son's age is one-third of the person's age, so the son is (1/3) * 45 = 15 years old."), + QuestionModel( + question: + "14. If a person is 5 years older than twice the age of his daughter, and his daughter is 12 years old, how old is the person?", + options: ["29 years", "32 years", "37 years", "42 years"], + correctAnswerIndex: 1, + Solution: + "Let the person's age be P. According to the given information, the person is 5 years older than twice the age of his daughter, so 2 * 12 + 5 = 24 + 5 = 29 years. Therefore, the person is 29 years old."), + QuestionModel( + question: + "15. If the sum of the ages of A, B, and C is 75 years, and A is 10 years older than B, and B is 5 years older than C, how old is A?", + options: ["25 years", "30 years", "35 years", "40 years"], + correctAnswerIndex: 1, + Solution: + "Let C's age be C years. B is 5 years older than C, so B's age is C + 5 years. A is 10 years older than B, so A's age is (C + 5) + 10 = C + 15 years. The sum of their ages is A + B + C = 75 years. Substituting the expressions for A, B, and C, we get (C + 15) + (C + 5) + C = 75. Solving for C, we find C = 20 years. Therefore, A is C + 15 = 20 + 15 = 35 years old."), + QuestionModel( + question: + "16. If the ages of three friends are consecutive even numbers, and the sum of their ages is 60, what are their ages?", + options: ["18, 20, 22", "16, 18, 20", "20, 22, 24", "24, 26, 28"], + correctAnswerIndex: 0, + Solution: + "Let the ages of the three friends be E, E + 2, and E + 4, where E is an even number. The sum of their ages is E + (E + 2) + (E + 4) = 60. Solving for E, we get E = 18. So, their ages are 18, 20, and 22 years."), + QuestionModel( + question: + "17. If the sum of the ages of Rahul and his father is 60 years, and Rahul's age is 20 years, how old is Rahul's father?", + options: ["30 years", "40 years", "45 years", "50 years"], + correctAnswerIndex: 2, + Solution: + "The sum of Rahul and his father's ages is 60 years, and Rahul's age is 20 years. So, Rahul's father's age is 60 - 20 = 40 years."), + QuestionModel( + question: + "18. If the ages of three siblings are in the ratio of 3:4:5, and the sum of their ages is 72 years, how old is the eldest sibling?", + options: ["24 years", "32 years", "40 years", "48 years"], + correctAnswerIndex: 2, + Solution: + "Let the ages of the three siblings be 3x, 4x, and 5x. According to the given information, 3x + 4x + 5x = 72. Solving for 12x = 72, we get x = 6. So, the eldest sibling is 5x = 5 * 6 = 30 years old."), + QuestionModel( + question: + "19. If a group of 5 students has an average age of 16 years, and one of the students is 20 years old, what is the average age of the remaining 4 students?", + options: ["12 years", "14 years", "15 years", "18 years"], + correctAnswerIndex: 1, + Solution: + "The sum of the ages of the 5 students is 16 * 5 = 80 years. If one of them is 20 years old, the sum of the ages of the remaining 4 students is 80 - 20 = 60 years. So, the average age of the remaining 4 students is 60 / 4 = 15 years."), + QuestionModel( + question: + "20. If the ages of two brothers are in the ratio of 5:7, and the elder brother is 35 years old, how old is the younger brother?", + options: ["20 years", "25 years", "28 years", "30 years"], + correctAnswerIndex: 1, + Solution: + "Let the age of the younger brother be 5x. According to the given information, the elder brother is 7 times the age of the younger brother, so 7x = 35. Solving for x, we get x = 35 / 7 = 5 years. Therefore, the age of the younger brother is 5x = 5 * 5 = 25 years.") +]; + +List probability = [ + QuestionModel( + question: + "1. What is the probability of rolling a 6 on a fair six-sided die?", + options: ["1/6", "1/2", "1/3", "1/4"], + correctAnswerIndex: 0, + Solution: + "The probability of rolling a 6 on a fair six-sided die is 1/6. There is one favorable outcome (rolling a 6) out of six possible outcomes (rolling a number from 1 to 6)."), + QuestionModel( + question: + "2. A deck of playing cards contains 52 cards. What is the probability of drawing a red card (hearts or diamonds) at random?", + options: ["1/4", "1/2", "1/3", "2/3"], + correctAnswerIndex: 1, + Solution: + "There are 26 red cards (13 hearts and 13 diamonds) out of a total of 52 cards. So, the probability of drawing a red card is 26/52, which simplifies to 1/2."), + QuestionModel( + question: + "3. If you toss a fair coin, what is the probability of getting heads?", + options: ["1/2", "1/3", "2/3", "1/4"], + correctAnswerIndex: 0, + Solution: + "When you toss a fair coin, there are two equally likely outcomes, heads and tails. So, the probability of getting heads is 1/2."), + QuestionModel( + question: + "4. In a standard deck of cards, what is the probability of drawing a face card (jack, queen, or king) at random?", + options: ["1/4", "1/2", "1/13", "3/13"], + correctAnswerIndex: 3, + Solution: + "There are 12 face cards (4 jacks, 4 queens, and 4 kings) out of a total of 52 cards. So, the probability of drawing a face card is 12/52, which simplifies to 3/13."), + QuestionModel( + question: + "5. If you roll a fair six-sided die twice, what is the probability of getting a 6 on both rolls?", + options: ["1/12", "1/36", "1/6", "1/18"], + correctAnswerIndex: 1, + Solution: + "The probability of rolling a 6 on a fair six-sided die is 1/6. When rolling twice, the probability multiplies, so it's (1/6) * (1/6) = 1/36."), + QuestionModel( + question: + "6. What is the probability of drawing a spade from a standard deck of cards?", + options: ["1/4", "1/13", "1/2", "1/26"], + correctAnswerIndex: 1, + Solution: + "There are 13 spades in a standard deck of 52 cards. So, the probability of drawing a spade is 13/52, which simplifies to 1/4."), + QuestionModel( + question: + "7. If you randomly select a letter from the word 'PROBABILITY,' what is the probability that it is a vowel?", + options: ["1/11", "2/11", "3/11", "4/11"], + correctAnswerIndex: 2, + Solution: + "There are 3 vowels (O, A, and I) in the word 'PROBABILITY,' out of a total of 11 letters. So, the probability of selecting a vowel is 3/11."), + QuestionModel( + question: + "8. In a deck of cards, what is the probability of drawing a black card (clubs or spades) at random?", + options: ["1/4", "1/2", "1/3", "3/4"], + correctAnswerIndex: 3, + Solution: + "There are 26 black cards (13 clubs and 13 spades) out of a total of 52 cards. So, the probability of drawing a black card is 26/52, which simplifies to 1/2."), + QuestionModel( + question: + "9. What is the probability of getting a sum of 7 when rolling two fair six-sided dice?", + options: ["1/6", "1/12", "1/3", "1/36"], + correctAnswerIndex: 1, + Solution: + "There are 6 ways to get a sum of 7 when rolling two dice (1+6, 2+5, 3+4, 4+3, 5+2, 6+1) out of a total of 36 possible outcomes. So, the probability is 6/36, which simplifies to 1/6."), + QuestionModel( + question: + "10. If you pick a random month, what is the probability of selecting a month with 31 days?", + options: ["1/2", "7/12", "1/4", "1/3"], + correctAnswerIndex: 1, + Solution: + "There are 7 months with 31 days out of a total of 12 months. So, the probability of selecting a month with 31 days is 7/12."), + QuestionModel( + question: + "11. What is the probability of drawing a face card (jack, queen, or king) from a standard deck of cards if you've already drawn one face card?", + options: ["1/4", "1/2", "1/13", "11/48"], + correctAnswerIndex: 3, + Solution: + "After drawing one face card, there are 11 face cards left in the deck out of a total of 48 cards. So, the probability of drawing a face card is 11/48."), + QuestionModel( + question: + "12. If you flip a coin and roll a die, what is the probability of getting a head on the coin and a 6 on the die?", + options: ["1/2", "1/12", "1/4", "1/6"], + correctAnswerIndex: 3, + Solution: + "The probability of getting a head on the coin is 1/2, and the probability of rolling a 6 on the die is 1/6. To find the combined probability, multiply the individual probabilities: (1/2) * (1/6) = 1/12."), + QuestionModel( + question: + "13. If you draw a card from a standard deck and then draw a second card without replacing the first, what is the probability of drawing two aces in a row?", + options: ["1/26", "1/169", "1/52", "1/221"], + correctAnswerIndex: 1, + Solution: + "There are 4 aces in a deck of 52 cards. After drawing one ace, there are 3 aces left in the deck out of a total of 51 cards. So, the probability of drawing two aces in a row is (4/52) * (3/51), which simplifies to 1/169."), + QuestionModel( + question: + "14. What is the probability of rolling an odd number on a fair six-sided die?", + options: ["1/2", "1/3", "2/3", "1/4"], + correctAnswerIndex: 2, + Solution: + "There are 3 odd numbers (1, 3, and 5) on a fair six-sided die out of a total of 6 possible outcomes. So, the probability of rolling an odd number is 3/6, which simplifies to 1/2."), + QuestionModel( + question: + "15. If you randomly select a student from a class of 30 students, what is the probability that the student's name starts with the letter 'A'?", + options: ["1/30", "1/3", "1/26", "1/15"], + correctAnswerIndex: 2, + Solution: + "Assuming that all letters of the alphabet are equally likely to start a student's name, there is a 1/26 chance of selecting a student whose name starts with 'A.'"), + QuestionModel( + question: + "16. What is the probability of drawing a heart from a standard deck of cards if you've already drawn a diamond?", + options: ["1/4", "1/13", "1/3", "12/51"], + correctAnswerIndex: 3, + Solution: + "After drawing a diamond, there are 12 hearts left in the deck out of a total of 51 cards. So, the probability of drawing a heart is 12/51."), + QuestionModel( + question: + "17. If you roll a fair six-sided die three times, what is the probability of getting a 6 on at least one of the rolls?", + options: ["1/6", "11/36", "5/6", "31/36"], + correctAnswerIndex: 3, + Solution: + "The probability of not getting a 6 on a single roll is 5/6. To find the probability of not getting a 6 on all three rolls, you raise 5/6 to the power of 3: (5/6)³ = 125/216. Then, to find the probability of getting a 6 on at least one roll, subtract this from 1: 1 - 125/216 = 91/216, which simplifies to 31/36."), + QuestionModel( + question: + "18. In a bag, there are 5 red balls, 3 green balls, and 2 blue balls. What is the probability of randomly selecting a red ball?", + options: ["1/5", "3/10", "5/10", "1/2"], + correctAnswerIndex: 1, + Solution: + "There are 5 red balls out of a total of 10 balls in the bag. So, the probability of selecting a red ball is 5/10, which simplifies to 1/2."), + QuestionModel( + question: + "19. If you roll two fair six-sided dice, what is the probability of getting a sum of 12?", + options: ["1/12", "1/36", "1/6", "1/18"], + correctAnswerIndex: 0, + Solution: + "There is only one way to get a sum of 12 when rolling two dice (6+6) out of a total of 36 possible outcomes. So, the probability is 1/36."), + QuestionModel( + question: + "20. What is the probability of drawing a black card from a standard deck of cards if you've already drawn a red card?", + options: ["1/4", "1/2", "1/3", "0"], + correctAnswerIndex: 3, + Solution: + "Once you've drawn a red card, there are no black cards left in the deck, so the probability of drawing a black card becomes 0."), + QuestionModel( + question: + "21. If you randomly select a two-digit number, what is the probability that it is a prime number?", + options: ["1/10", "1/5", "1/25", "4/25"], + correctAnswerIndex: 2, + Solution: + "There are 4 two-digit prime numbers (11, 13, 17, 19) out of a total of 25 two-digit numbers. So, the probability of selecting a prime number is 4/25."), + QuestionModel( + question: + "22. If you draw a card from a standard deck and then draw a second card without replacing the first, what is the probability of drawing a red card followed by a black card?", + options: ["13/51", "26/51", "1/2", "25/52"], + correctAnswerIndex: 0, + Solution: + "After drawing a red card, there are 26 black cards left in the deck out of a total of 51 cards. So, the probability of drawing a red card followed by a black card is (26/52) * (25/51), which simplifies to 13/51."), + QuestionModel( + question: + "23. What is the probability of getting a sum of 5 when rolling two fair six-sided dice?", + options: ["1/6", "1/12", "1/3", "1/36"], + correctAnswerIndex: 1, + Solution: + "There are 4 ways to get a sum of 5 when rolling two dice (1+4, 2+3, 3+2, 4+1) out of a total of 36 possible outcomes. So, the probability is 4/36, which simplifies to 1/9."), + QuestionModel( + question: + "24. If you flip a coin twice, what is the probability of getting at least one head?", + options: ["1/4", "1/3", "3/4", "1/2"], + correctAnswerIndex: 2, + Solution: + "The probability of not getting a head on a single flip is 1/2. To find the probability of not getting a head on both flips, you raise (1/2) to the power of 2: (1/2)² = 1/4. Then, to find the probability of getting at least one head, subtract this from 1: 1 - 1/4 = 3/4."), + QuestionModel( + question: + "25. A bag contains 3 red balls, 2 green balls, and 1 blue ball. What is the probability of randomly selecting a red ball?", + options: ["1/6", "1/3", "3/6", "1/2"], + correctAnswerIndex: 2, + Solution: + "There are 3 red balls out of a total of 6 balls in the bag. So, the probability of selecting a red ball is 3/6, which simplifies to 1/2."), +]; + +List permutation_and_combination = [ + QuestionModel( + question: + "1. How many ways can you arrange the letters of the word 'INDIA'?", + options: ["24", "120", "720", "5"], + correctAnswerIndex: 1, + Solution: + "The word 'INDIA' has 5 letters. To arrange them, you can use 5P5 = 5! = 120 ways."), + QuestionModel( + question: + "2. In how many ways can you select a committee of 3 people out of 5 people (A, B, C, D, and E)?", + options: ["10", "15", "20", "60"], + correctAnswerIndex: 2, + Solution: + "You can select a committee of 3 people from 5 in 5C3 = 10 ways."), + QuestionModel( + question: + "3. How many different 3-digit numbers can be formed using the digits 1, 2, 3 without repetition?", + options: ["3", "6", "9", "12"], + correctAnswerIndex: 2, + Solution: + "You have 3 choices for the first digit, 2 choices for the second digit, and 1 choice for the third digit. Therefore, you can form 3 * 2 * 1 = 6 different 3-digit numbers."), + QuestionModel( + question: + "4. If you have 5 red balls, 3 green balls, and 4 blue balls, how many ways can you arrange them in a row?", + options: ["40", "60", "120", "2520"], + correctAnswerIndex: 3, + Solution: "To arrange them, you can use 12P12 = 12! = 2520 ways."), + QuestionModel( + question: + "5. How many ways can you choose 2 books from a shelf containing 5 different books?", + options: ["10", "15", "20", "25"], + correctAnswerIndex: 2, + Solution: "You can choose 2 books from 5 in 5C2 = 10 ways."), + QuestionModel( + question: + "6. In how many ways can you arrange the letters of the word 'MUMBAI'?", + options: ["720", "360", "120", "60"], + correctAnswerIndex: 0, + Solution: + "The word 'MUMBAI' has 6 letters. To arrange them, you can use 6P6 = 6! = 720 ways."), + QuestionModel( + question: + "7. How many 4-letter words can be formed using the letters of the word 'DELHI'?", + options: ["60", "120", "240", "480"], + correctAnswerIndex: 1, + Solution: + "You have 5 choices for the first letter, 4 choices for the second letter, 3 choices for the third letter, and 2 choices for the fourth letter. Therefore, you can form 5 * 4 * 3 * 2 = 120 4-letter words."), + QuestionModel( + question: + "8. If there are 6 boys and 4 girls, how many ways can you arrange them in a row such that no two girls are together?", + options: ["1440", "2880", "4320", "5760"], + correctAnswerIndex: 1, + Solution: + "The total number of ways to arrange 10 people is 10!. To ensure no two girls are together, you can treat the 4 girls as dividers between the 6 boys, so you have 6 boys and 5 dividers. Therefore, you can arrange them in (6+5)! ways. This is 11! = 3,628,800. However, you need to divide by the 4! ways to arrange the girls among themselves. So, the answer is 3,628,800 / 24 = 151,200 ways."), + QuestionModel( + question: + "9. How many different 5-card poker hands can be dealt from a standard deck of 52 cards?", + options: ["259,896", "2,598,960", "5,108,528", "10,179,816"], + correctAnswerIndex: 1, + Solution: + "You can choose a 5-card hand from a deck of 52 cards in 52C5 ways, which is equal to 2,598,960."), + QuestionModel( + question: + "10. In how many ways can you arrange the letters of the word 'BANGALORE'?", + options: ["40,320", "362,880", "725,760", "1,451,520"], + correctAnswerIndex: 1, + Solution: + "The word 'BANGALORE' has 9 letters, with 'A' appearing twice. So, you can arrange them in 9!/2! ways, which is 362,880."), + QuestionModel( + question: + "11. If you have 6 different chocolates, how many ways can you distribute them among 3 children so that each child gets at least one chocolate?", + options: ["60", "120", "240", "360"], + correctAnswerIndex: 2, + Solution: + "You can use the concept of distributing identical objects into distinct boxes. Using stars and bars, the answer is 15C2, which is 105. However, you need to subtract the ways where one child gets all the chocolates, which is 3 ways. So, the answer is 105 - 3 = 102 ways."), + QuestionModel( + question: + "12. How many different ways can you choose 4 fruits from a basket containing 6 apples, 4 bananas, and 3 oranges?", + options: ["144", "180", "210", "252"], + correctAnswerIndex: 2, + Solution: + "You can choose 4 fruits from 13 in 13C4 ways, which is 715. However, you need to subtract the ways where all 4 fruits are from a single type. So, you need to subtract 6C4, 4C4, and 3C4, which are 15, 1, and 0 respectively. Therefore, the answer is 715 - 15 - 1 - 0 = 699 ways."), + QuestionModel( + question: + "13. How many ways can you arrange the letters of the word 'INDIA' so that no two vowels are together?", + options: ["12", "24", "48", "96"], + correctAnswerIndex: 1, + Solution: + "To arrange the letters of 'INDIA' such that no two vowels are together, you can treat the vowels (I and A) as distinct objects and arrange them with the consonants (N, D) in between. This can be done in 4! * 2! ways, which is 24."), + QuestionModel( + question: + "14. In how many ways can you select a committee of 4 people from 8 men and 6 women if the committee should have at least 2 men and 2 women?", + options: ["1,440", "3,600", "5,040", "7,560"], + correctAnswerIndex: 2, + Solution: + "You can use the principle of inclusion and exclusion to calculate this. The total ways to select a committee of 4 people from 14 is 14C4, which is 1,001. You need to subtract the ways with all men (8C4) and all women (6C4). So, the answer is 1,001 - 70 - 15 = 916 ways."), + QuestionModel( + question: + "15. How many 5-letter words can be formed from the letters of the word 'COMBINATION'?", + options: ["6,000", "30,240", "72,000", "126,000"], + correctAnswerIndex: 1, + Solution: + "The word 'COMBINATION' has 11 letters, with 'O' appearing twice, 'N' appearing twice, and 'I' appearing twice. So, you can arrange them in 11!/(2! * 2! * 2!) ways, which is 30,240."), + QuestionModel( + question: + "16. If you have 5 different types of ice cream, and you can choose 3 scoops, how many different 3-scoop ice cream combinations can you create?", + options: ["10", "20", "30", "40"], + correctAnswerIndex: 3, + Solution: + "You can choose 3 scoops from 5 types in 5C3 ways, which is 10. However, you can choose different combinations of scoops, so the answer is 10 * 4 = 40."), + QuestionModel( + question: + "17. How many different 4-digit even numbers can be formed using the digits 1, 2, 3, and 4 without repetition?", + options: ["6", "12", "24", "48"], + correctAnswerIndex: 1, + Solution: + "The last digit must be 2 or 4 to make the number even. You have 2 choices for the last digit, and the rest of the digits can be arranged in 3! ways. So, the answer is 2 * 6 = 12 numbers."), + QuestionModel( + question: + "18. In how many ways can you arrange the letters of the word 'TAMILNADU'?", + options: ["1,814,400", "3,628,800", "5,748,000", "7,564,800"], + correctAnswerIndex: 0, + Solution: + "The word 'TAMILNADU' has 10 letters, with 'A' appearing twice and 'T' appearing twice. So, you can arrange them in 10!/(2! * 2!) ways, which is 1,814,400."), + QuestionModel( + question: + "19. How many different 6-letter words can be formed from the word 'DELHI'?", + options: ["180", "360", "720", "1,080"], + correctAnswerIndex: 2, + Solution: + "You have 5 choices for the first letter, 4 choices for the second letter, 3 choices for the third letter, 2 choices for the fourth letter, and 1 choice for the fifth letter. Therefore, you can form 5 * 4 * 3 * 2 * 1 = 120 5-letter words. You can also add 'I' or 'D' as the sixth letter, so the answer is 120 * 2 = 240 6-letter words."), + QuestionModel( + question: + "20. How many ways can you distribute 10 identical pens among 4 students?", + options: ["210", "525", "1,260", "3,024"], + correctAnswerIndex: 1, + Solution: + "You can use the concept of distributing identical objects into distinct boxes. Using stars and bars, the answer is 13C3, which is 286. However, you need to subtract the ways where a student receives 0 pens, which is 4C1, and the answer is 286 - 4 = 282 ways."), + QuestionModel( + question: + "21. If you have 7 different novels, how many ways can you arrange them on a bookshelf?", + options: ["42", "84", "168", "5040"], + correctAnswerIndex: 3, + Solution: + "You can arrange 7 different novels in 7! ways, which is 5,040."), + QuestionModel( + question: + "22. How many different 3-digit numbers can be formed using the digits 0, 2, 5 without repetition?", + options: ["3", "6", "9", "12"], + correctAnswerIndex: 0, + Solution: + "You have 3 choices for the first digit, 2 choices for the second digit, and 1 choice for the third digit. Therefore, you can form 3 different 3-digit numbers."), + QuestionModel( + question: + "23. In how many ways can you choose 5 different chocolates from a box containing 10 different chocolates?", + options: ["252", "504", "1,008", "2,520"], + correctAnswerIndex: 0, + Solution: + "You can choose 5 different chocolates from 10 in 10C5 ways, which is 252."), + QuestionModel( + question: + "24. How many different 5-letter words can be formed using the letters of the word 'PATTERN'?", + options: ["720", "1,440", "2,880", "5,760"], + correctAnswerIndex: 2, + Solution: + "The word 'PATTERN' has 7 letters, with 'T' appearing twice. So, you can arrange them in 7!/(2!) ways, which is 2,880."), + QuestionModel( + question: + "25. If you have 8 red balls, 6 green balls, and 7 blue balls, how many ways can you arrange them in a row so that no two balls of the same color are adjacent?", + options: ["6,188,160", "10,584,000", "14,576,240", "22,719,360"], + correctAnswerIndex: 0, + Solution: + "To arrange the balls such that no two balls of the same color are adjacent, you can treat the balls of each color as distinct objects and arrange them with the balls of other colors in between. This can be done in 8! * 6! * 7! ways, which is 6,188,160."), +]; + +List percentage = [ + QuestionModel( + question: + "1. What is the percentage of India's total population living in urban areas as of 2021?", + options: ["a) 25%", "b) 35%", "c) 45%", "d) 55%"], + correctAnswerIndex: 2, + Solution: + "The correct answer is (c) 45%. According to the 2021 census, approximately 45% of India's population lives in urban areas."), + QuestionModel( + question: + "2. If a product's price is increased by 20%, and then decreased by 10%, what is the net percentage change in price?", + options: [ + "a) 10% increase", + "b) 8% decrease", + "c) 8% increase", + "d) No change" + ], + correctAnswerIndex: 0, + Solution: + "The correct answer is (a) 10% increase. When the price is increased by 20% and then decreased by 10%, the net percentage change is a 10% increase."), + QuestionModel( + question: + "3. If the GDP of India grew from \$2 trillion to \$2.5 trillion in a year, what was the percentage growth in GDP?", + options: ["a) 15%", "b) 20%", "c) 25%", "d) 30%"], + correctAnswerIndex: 2, + Solution: + "The correct answer is (c) 25%. The GDP increased by \$0.5 trillion, which is 25% of the initial GDP of \$2 trillion."), + QuestionModel( + question: + "4. In a class of 50 students, 60% are girls. How many girls are there in the class?", + options: ["a) 20", "b) 30", "c) 40", "d) 50"], + correctAnswerIndex: 1, + Solution: + "The correct answer is (b) 30. 60% of 50 students is equal to 30 girls."), + QuestionModel( + question: + "5. If the price of a commodity decreases by 20%, by what percentage should it increase to return to its original price?", + options: ["a) 20%", "b) 25%", "c) 30%", "d) 40%"], + correctAnswerIndex: 1, + Solution: + "The correct answer is (b) 25%. To return to its original price, the commodity needs to increase by 25%."), + QuestionModel( + question: + "6. The literacy rate in India increased from 74% to 79% over five years. What was the percentage point increase in literacy rate?", + options: ["a) 4%", "b) 5%", "c) 74%", "d) 79%"], + correctAnswerIndex: 1, + Solution: + "The correct answer is (b) 5%. The literacy rate increased by 5 percentage points (79% - 74%)."), + QuestionModel( + question: + "7. If a company's profit margin is 15%, and it incurs a 10% loss, what is the new profit margin?", + options: ["a) 5% profit", "b) 2.5% profit", "c) 5% loss", "d) 10% loss"], + correctAnswerIndex: 3, + Solution: + "The correct answer is (d) 10% loss. When a company with a 15% profit margin incurs a 10% loss, the new profit margin is -10%."), + QuestionModel( + question: + "8. If a smartphone is priced at ₹20,000 after a 20% discount, what was its original price?", + options: ["a) ₹16,000", "b) ₹20,000", "c) ₹25,000", "d) ₹24,000"], + correctAnswerIndex: 2, + Solution: + "The correct answer is (c) ₹25,000. The original price was ₹25,000, and a 20% discount was applied to make it ₹20,000."), + QuestionModel( + question: + "9. If the inflation rate in India is 6% and the savings account offers an interest rate of 3%, what is the real interest rate?", + options: ["a) 6%", "b) 3%", "c) 9%", "d) 1.5%"], + correctAnswerIndex: 3, + Solution: + "The correct answer is (d) 1.5%. The real interest rate is the nominal interest rate (3%) minus the inflation rate (6%), resulting in a real interest rate of 1.5%."), + QuestionModel( + question: + "10. If a company's workforce consists of 40% women and 60% men, how many women are there if there are 240 employees in total?", + options: ["a) 96", "b) 100", "c) 144", "d) 60"], + correctAnswerIndex: 0, + Solution: + "The correct answer is (a) 96. 40% of 240 employees is equal to 96 women."), + QuestionModel( + question: + "11. If the price of a product increases by 10%, and the quantity demanded decreases by 15%, what is the percentage change in total revenue?", + options: [ + "a) 5% increase", + "b) 2.5% decrease", + "c) 1.5% increase", + "d) No change" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is (c) 1.5% increase. The decrease in quantity demanded offset the increase in price, resulting in a 1.5% increase in total revenue."), + QuestionModel( + question: + "12. If a student scores 85% in one exam and 90% in another, what is the average percentage score for both exams?", + options: ["a) 85%", "b) 87.5%", "c) 90%", "d) 175%"], + correctAnswerIndex: 1, + Solution: + "The correct answer is (b) 87.5%. To find the average percentage score, add the percentages and divide by the number of exams: (85% + 90%) / 2 = 87.5%."), + QuestionModel( + question: + "13. If a product's price is reduced by 25%, how much should it increase by to return to its original price?", + options: ["a) 25%", "b) 20%", "c) 33.33%", "d) 50%"], + correctAnswerIndex: 2, + Solution: + "The correct answer is (c) 33.33%. To return to its original price, the product needs to increase by 33.33%."), + QuestionModel( + question: + "14. If a student answers 80 out of 100 questions correctly, what is the percentage of correct answers?", + options: ["a) 80%", "b) 85%", "c) 75%", "d) 90%"], + correctAnswerIndex: 0, + Solution: + "The correct answer is (a) 80%. The student answered 80 out of 100 questions correctly, which is 80%."), + QuestionModel( + question: + "15. If a company's revenue was ₹1,000 crores last year and it increased to ₹1,200 crores this year, what was the percentage increase in revenue?", + options: ["a) 10%", "b) 20%", "c) 15%", "d) 25%"], + correctAnswerIndex: 1, + Solution: + "The correct answer is (b) 20%. The revenue increased by ₹200 crores, which is 20% of the initial ₹1,000 crores."), + QuestionModel( + question: + "16. If the cost of a product is ₹500, and it is sold for ₹600, what is the profit percentage?", + options: ["a) 10%", "b) 15%", "c) 20%", "d) 25%"], + correctAnswerIndex: 2, + Solution: + "The correct answer is (c) 20%. The profit is ₹100, which is 20% of the cost price ₹500."), + QuestionModel( + question: + "17. If a company's stock price was ₹100 and it increased to ₹125, what was the percentage increase in stock price?", + options: ["a) 15%", "b) 20%", "c) 25%", "d) 30%"], + correctAnswerIndex: 2, + Solution: + "The correct answer is (c) 25%. The stock price increased by ₹25, which is 25% of the initial ₹100."), + QuestionModel( + question: + "18. If the rainfall in a region decreased from 1000mm to 800mm in a year, what was the percentage decrease in rainfall?", + options: ["a) 10%", "b) 20%", "c) 15%", "d) 25%"], + correctAnswerIndex: 1, + Solution: + "The correct answer is (b) 20%. The rainfall decreased by 200mm, which is 20% of the initial 1000mm."), + QuestionModel( + question: + "19. If a company's expenses were ₹2,000 crores last year and they decreased to ₹1,800 crores this year, what was the percentage decrease in expenses?", + options: ["a) 5%", "b) 10%", "c) 15%", "d) 20%"], + correctAnswerIndex: 2, + Solution: + "The correct answer is (c) 15%. The expenses decreased by ₹200 crores, which is 15% of the initial ₹2,000 crores."), + QuestionModel( + question: + "20. If a store owner buys a product for ₹500 and sells it for ₹400, what is the loss percentage?", + options: ["a) 10%", "b) 20%", "c) 15%", "d) 25%"], + correctAnswerIndex: 2, + Solution: + "The correct answer is (c) 15%. The loss is ₹100, which is 15% of the cost price ₹500.") +]; + +List partnership = [ + QuestionModel( + question: + "1. In a partnership firm, who is responsible for the day-to-day operations of the business?", + options: [ + "A. Sleeping partner", + "B. Active partner", + "C. Nominal partner", + "D. Minor partner" + ], + correctAnswerIndex: 1, + Solution: + "The active partner is responsible for the day-to-day operations of the business in a partnership firm."), + QuestionModel( + question: + "2. What is the maximum number of partners allowed in a partnership firm in India?", + options: ["A. 10", "B. 20", "C. 50", "D. 100"], + correctAnswerIndex: 0, + Solution: + "The maximum number of partners allowed in a partnership firm in India is 10, except for certain types of partnerships."), + QuestionModel( + question: + "3. Which type of partner has limited liability in a partnership firm?", + options: [ + "A. Active partner", + "B. Sleeping partner", + "C. Nominal partner", + "D. Minor partner" + ], + correctAnswerIndex: 1, + Solution: + "A sleeping partner has limited liability in a partnership firm, meaning they are not personally liable for the firm's debts beyond their capital contribution."), + QuestionModel( + question: + "4. In a partnership firm, profits and losses are shared among the partners based on:", + options: [ + "A. Equal sharing", + "B. Fixed ratio", + "C. Capital ratio", + "D. As per the discretion of the managing partner" + ], + correctAnswerIndex: 2, + Solution: + "Profits and losses are typically shared among the partners in a partnership firm based on their capital contributions, which is known as the capital ratio."), + QuestionModel( + question: + "5. Which of the following is a necessary element for the formation of a partnership in India?", + options: [ + "A. Written agreement", + "B. Registration with the government", + "C. Minimum capital requirement", + "D. Approval from the Reserve Bank of India" + ], + correctAnswerIndex: 0, + Solution: + "A written partnership agreement is a necessary element for the formation of a partnership in India, but registration with the government is optional."), + QuestionModel( + question: "6. Who is considered a minor partner in a partnership firm?", + options: [ + "A. A partner who is below 18 years of age", + "B. A partner who does not actively participate in the business", + "C. A partner who has limited liability", + "D. A partner who is not a citizen of India" + ], + correctAnswerIndex: 0, + Solution: + "A partner who is below 18 years of age is considered a minor partner in a partnership firm."), + QuestionModel( + question: + "7. What happens to the liability of partners in a limited liability partnership (LLP) in India?", + options: [ + "A. Partners have unlimited liability", + "B. Partners have limited liability", + "C. Liability is determined by the number of partners", + "D. Liability is decided by the government" + ], + correctAnswerIndex: 1, + Solution: + "In an LLP, partners have limited liability, which means their personal assets are protected from the business's debts and liabilities."), + QuestionModel( + question: + "8. Which of the following types of partnerships is most commonly found in India?", + options: [ + "A. General partnership", + "B. Limited partnership", + "C. Joint partnership", + "D. Cooperative partnership" + ], + correctAnswerIndex: 0, + Solution: + "General partnership is the most common type of partnership found in India, where all partners actively participate in the business and share profits and losses."), + QuestionModel( + question: + "9. How are the profits and losses shared in a limited partnership in India?", + options: [ + "A. Equally among all partners", + "B. Based on the capital invested by each partner", + "C. Only among the active partners", + "D. As per the discretion of the managing partner" + ], + correctAnswerIndex: 1, + Solution: + "In a limited partnership, profits and losses are typically shared based on the capital invested by each partner, not equally."), + QuestionModel( + question: + "10. Which government agency in India is responsible for the registration and regulation of partnerships?", + options: [ + "A. Reserve Bank of India", + "B. Ministry of Finance", + "C. Ministry of Corporate Affairs", + "D. Securities and Exchange Board of India (SEBI)" + ], + correctAnswerIndex: 2, + Solution: + "The Ministry of Corporate Affairs in India is responsible for the registration and regulation of partnerships."), + QuestionModel( + question: + "11. What is the minimum number of partners required to form a partnership firm in India?", + options: ["A. 2", "B. 3", "C. 5", "D. 10"], + correctAnswerIndex: 0, + Solution: + "A minimum of 2 partners is required to form a partnership firm in India."), + QuestionModel( + question: + "12. In a partnership, what is the difference between a sleeping partner and a nominal partner?", + options: [ + "A. They have the same rights and responsibilities", + "B. Sleeping partners actively manage the business, while nominal partners do not", + "C. Sleeping partners have limited liability, while nominal partners have unlimited liability", + "D. There is no difference between them" + ], + correctAnswerIndex: 2, + Solution: + "The key difference is that sleeping partners have limited liability, while nominal partners have unlimited liability and are usually associated with lending their name to the firm."), + QuestionModel( + question: + "13. What is the duration of a partnership agreement in India if no specific duration is mentioned in the agreement?", + options: [ + "A. 1 year", + "B. 3 years", + "C. 5 years", + "D. It is a perpetual agreement" + ], + correctAnswerIndex: 3, + Solution: + "If no specific duration is mentioned in the partnership agreement, it is considered a perpetual agreement and continues until dissolved by the partners."), + QuestionModel( + question: + "14. Who is responsible for the debts and obligations of a partnership firm in India?", + options: [ + "A. All partners collectively", + "B. The managing partner", + "C. The partner with the highest capital contribution", + "D. The government" + ], + correctAnswerIndex: 0, + Solution: + "All partners in a partnership firm are collectively responsible for the debts and obligations of the firm, and they share the liability."), + QuestionModel( + question: + "15. Which type of partnership is often formed for a specific project or venture in India?", + options: [ + "A. General partnership", + "B. Limited partnership", + "C. Joint partnership", + "D. Specific partnership" + ], + correctAnswerIndex: 3, + Solution: + "A specific partnership is often formed for a particular project or venture and is dissolved once that project is completed."), + QuestionModel( + question: + "16. How is the registration of a partnership firm different from the registration of a limited liability partnership (LLP) in India?", + options: [ + "A. Both require registration with the government", + "B. Only LLPs require registration", + "C. Only partnership firms require registration", + "D. Neither requires registration" + ], + correctAnswerIndex: 2, + Solution: + "Only partnership firms require registration, while LLPs are automatically registered upon incorporation without the need for a separate registration process."), + QuestionModel( + question: + "17. Which of the following is a disadvantage of a partnership firm in India?", + options: [ + "A. Limited liability for partners", + "B. Ease of formation", + "C. Lack of perpetual existence", + "D. Government regulation" + ], + correctAnswerIndex: 2, + Solution: + "A disadvantage of a partnership firm in India is the lack of perpetual existence, as it dissolves upon the death or withdrawal of a partner."), + QuestionModel( + question: + "18. What is the minimum capital requirement for forming a partnership firm in India?", + options: [ + "A. No minimum capital requirement", + "B. Rs. 1,00,000", + "C. Rs. 5,00,000", + "D. Rs. 10,00,000" + ], + correctAnswerIndex: 0, + Solution: + "There is no minimum capital requirement for forming a partnership firm in India."), + QuestionModel( + question: + "19. Which partner in a partnership firm is often referred to as a 'partner by estoppel'?", + options: [ + "A. Sleeping partner", + "B. Active partner", + "C. Nominal partner", + "D. Minor partner" + ], + correctAnswerIndex: 2, + Solution: + "A nominal partner is often referred to as a 'partner by estoppel' because they hold themselves out as partners, even though they may not have a real interest in the firm."), + QuestionModel( + question: + "20. In a partnership firm, how are disputes among partners typically resolved?", + options: [ + "A. Through litigation in court", + "B. Through arbitration or mediation", + "C. By the government authority", + "D. By dissolving the partnership" + ], + correctAnswerIndex: 1, + Solution: + "Disputes among partners in a partnership firm are typically resolved through arbitration or mediation as specified in the partnership agreement."), + QuestionModel( + question: + "21. Which partner is not actively involved in the management of the partnership firm but contributes capital and shares profits and losses?", + options: [ + "A. Active partner", + "B. Sleeping partner", + "C. Nominal partner", + "D. Minor partner" + ], + correctAnswerIndex: 1, + Solution: + "A sleeping partner is not actively involved in the management of the partnership firm but contributes capital and shares profits and losses."), + QuestionModel( + question: + "22. What is the primary document that governs the rights and responsibilities of partners in a partnership firm?", + options: [ + "A. Business plan", + "B. Government regulations", + "C. Partnership deed", + "D. Share certificate" + ], + correctAnswerIndex: 2, + Solution: + "The primary document that governs the rights and responsibilities of partners in a partnership firm is the partnership deed."), + QuestionModel( + question: "23. What is the tax treatment of a partnership firm in India?", + options: [ + "A. Partners are not taxed individually", + "B. Partners are taxed individually on their share of profits", + "C. Partnership firm is taxed as a separate entity", + "D. No taxation is applicable" + ], + correctAnswerIndex: 1, + Solution: + "In a partnership firm, partners are taxed individually on their share of profits, and the firm itself is not a separate taxable entity."), + QuestionModel( + question: + "24. Which partner is responsible for representing the firm in legal matters and external affairs?", + options: [ + "A. Sleeping partner", + "B. Active partner", + "C. Nominal partner", + "D. Minor partner" + ], + correctAnswerIndex: 1, + Solution: + "The active partner is responsible for representing the firm in legal matters and external affairs in a partnership."), + QuestionModel( + question: + "25. What happens to the partnership firm's assets and liabilities when a partner leaves the firm?", + options: [ + "A. Assets and liabilities are transferred to the leaving partner", + "B. Assets and liabilities are divided among the remaining partners", + "C. Assets and liabilities are dissolved and liquidated", + "D. Assets are retained by the firm, and liabilities are transferred to the leaving partner" + ], + correctAnswerIndex: 2, + Solution: + "When a partner leaves the partnership, the assets and liabilities of the firm are typically dissolved and liquidated to settle the leaving partner's share.") +]; + +List number_system = [ + QuestionModel( + question: "1. Which of the following is not a prime number?", + options: ["A) 2", "B) 3", "C) 4", "D) 5"], + correctAnswerIndex: 2, + Solution: + "Explanation: A prime number is a positive integer greater than 1 that has no positive integer divisors other than 1 and itself. 4 is not a prime number because it is divisible by 2."), + QuestionModel( + question: "2. What is the value of (16^2) in the decimal number system?", + options: ["A) 64", "B) 256", "C) 512", "D) 1024"], + correctAnswerIndex: 1, + Solution: + "Explanation: In the decimal number system, 16^2 is equal to 256."), + QuestionModel( + question: "3. In the binary number system, what is the value of '1101'?", + options: ["A) 5", "B) 10", "C) 13", "D) 15"], + correctAnswerIndex: 2, + Solution: + "Explanation: In the binary system, '1101' is equivalent to 13 in the decimal system."), + QuestionModel( + question: "4. Which of the following is a perfect square?", + options: ["A) 36", "B) 48", "C) 55", "D) 64"], + correctAnswerIndex: 0, + Solution: + "Explanation: A perfect square is a number that can be expressed as the square of an integer. 36 is a perfect square because it is equal to 6^2."), + QuestionModel( + question: "5. What is the smallest prime number?", + options: ["A) 0", "B) 1", "C) 2", "D) 3"], + correctAnswerIndex: 2, + Solution: + "Explanation: The smallest prime number is 2. Prime numbers are greater than 1 and have no divisors other than 1 and themselves."), + QuestionModel( + question: "6. In the octal number system, what is the value of '34'?", + options: ["A) 26", "B) 28", "C) 30", "D) 32"], + correctAnswerIndex: 1, + Solution: + "Explanation: In the octal system, '34' is equivalent to 28 in the decimal system."), + QuestionModel( + question: + "7. What is the value of the Roman numeral 'C' in the decimal system?", + options: ["A) 50", "B) 100", "C) 500", "D) 1000"], + correctAnswerIndex: 1, + Solution: + "Explanation: The Roman numeral 'C' represents 100 in the decimal system."), + QuestionModel( + question: "8. Which of the following is a composite number?", + options: ["A) 11", "B) 13", "C) 17", "D) 21"], + correctAnswerIndex: 3, + Solution: + "Explanation: A composite number is a positive integer greater than 1 that has divisors other than 1 and itself. 21 is a composite number."), + QuestionModel( + question: "9. What is the value of 'X' in the Roman numeral 'XXI'?", + options: ["A) 5", "B) 10", "C) 15", "D) 20"], + correctAnswerIndex: 3, + Solution: + "Explanation: In the Roman numeral 'XXI,' 'X' represents 10, so the value of 'X' is 10."), + QuestionModel( + question: "10. What is the value of '101101' in the binary system?", + options: ["A) 21", "B) 45", "C) 53", "D) 77"], + correctAnswerIndex: 2, + Solution: + "Explanation: In the binary system, '101101' is equivalent to 53 in the decimal system."), + QuestionModel( + question: "11. Which of the following is a rational number?", + options: ["A) √2", "B) π", "C) 3/4", "D) e"], + correctAnswerIndex: 2, + Solution: + "Explanation: A rational number is a number that can be expressed as a fraction of two integers. 3/4 is a rational number."), + QuestionModel( + question: "12. What is the value of 'D' in the hexadecimal number '1D'?", + options: ["A) 10", "B) 11", "C) 12", "D) 13"], + correctAnswerIndex: 3, + Solution: + "Explanation: In the hexadecimal system, 'D' represents 13 in the decimal system."), + QuestionModel( + question: "13. Which of the following is an irrational number?", + options: ["A) 0.25", "B) √2", "C) 1/3", "D) 2.5"], + correctAnswerIndex: 1, + Solution: + "Explanation: An irrational number cannot be expressed as a simple fraction. √2 is an example of an irrational number."), + QuestionModel( + question: "14. What is the value of 'IV' in the Roman numeral system?", + options: ["A) 2", "B) 4", "C) 6", "D) 8"], + correctAnswerIndex: 1, + Solution: "Explanation: In the Roman numeral system, 'IV' represents 4."), + QuestionModel( + question: "15. What is the value of '1010' in the binary system?", + options: ["A) 5", "B) 10", "C) 15", "D) 20"], + correctAnswerIndex: 1, + Solution: + "Explanation: In the binary system, '1010' is equivalent to 10 in the decimal system."), + QuestionModel( + question: "16. What is the value of '7F' in the hexadecimal system?", + options: ["A) 122", "B) 127", "C) 132", "D) 137"], + correctAnswerIndex: 1, + Solution: + "Explanation: In the hexadecimal system, '7F' represents 127 in the decimal system."), + QuestionModel( + question: "17. What is the value of 'XL' in the Roman numeral system?", + options: ["A) 40", "B) 50", "C) 60", "D) 70"], + correctAnswerIndex: 0, + Solution: + "Explanation: In the Roman numeral system, 'XL' represents 40."), + QuestionModel( + question: "18. Which of the following is a prime number?", + options: ["A) 20", "B) 27", "C) 31", "D) 36"], + correctAnswerIndex: 2, + Solution: + "Explanation: 31 is a prime number because it has no divisors other than 1 and itself."), + QuestionModel( + question: "19. In the octal number system, what is the value of '75'?", + options: ["A) 59", "B) 61", "C) 65", "D) 77"], + correctAnswerIndex: 3, + Solution: + "Explanation: In the octal system, '75' is equivalent to 77 in the decimal system."), + QuestionModel( + question: "20. What is the value of '1111' in the binary system?", + options: ["A) 7", "B) 10", "C) 15", "D) 16"], + correctAnswerIndex: 2, + Solution: + "Explanation: In the binary system, '1111' is equivalent to 15 in the decimal system."), +]; + +List mixture_and_aleigation = [ + QuestionModel( + question: + "1. A chemist has two solutions, one containing 40% of acid and the other containing 60% of acid. In what ratio should he mix the two solutions to get a 50% acid solution?", + options: ["1:1", "2:1", "3:2", "4:3"], + correctAnswerIndex: 2, + Solution: + "Solution: Let's assume the chemist mixes the two solutions in the ratio of x:y. According to the given information, we can write the equation: (40x + 60y) / (x + y) = 50. Solving this equation, we get x:y = 3:2. So, the chemist should mix the solutions in the ratio of 3:2 to get a 50% acid solution."), + QuestionModel( + question: + "2. A container has 30 liters of milk. From this container, 6 liters of milk is taken out and replaced with water. This process is repeated twice. What is the final quantity of milk in the container?", + options: ["15.75 liters", "17.25 liters", "18.75 liters", "20.25 liters"], + correctAnswerIndex: 1, + Solution: + "Solution: After the first replacement, 1/5 of the milk is replaced with water. After the second replacement, 1/5 of the remaining milk is replaced with water again. So, after two replacements, 1/5 * 1/5 = 1/25 of the original milk remains. Therefore, the final quantity of milk in the container is (1 - 1/25) * 30 = 29/25 * 30 = 17.25 liters."), + QuestionModel( + question: + "3. A mixture contains milk and water in the ratio of 4:1. If 5 liters of water is added to the mixture, the ratio becomes 4:3. How many liters of milk were in the original mixture?", + options: ["15 liters", "20 liters", "25 liters", "30 liters"], + correctAnswerIndex: 2, + Solution: + "Solution: Let the original quantity of milk and water in the mixture be 4x and x liters, respectively. After adding 5 liters of water, the new ratio becomes (4x)/(x+5) = 4/3. Solving this equation, we get x = 5. Therefore, the original quantity of milk in the mixture was 4x = 4 * 5 = 20 liters."), + QuestionModel( + question: + "4. A mixture contains sugar and salt in the ratio of 5:3. If 4 kg of salt is added to the mixture, the ratio becomes 5:4. How much sugar was there in the original mixture?", + options: ["12 kg", "16 kg", "20 kg", "24 kg"], + correctAnswerIndex: 0, + Solution: + "Solution: Let the original quantity of sugar and salt in the mixture be 5x and 3x kg, respectively. After adding 4 kg of salt, the new ratio becomes (5x)/(3x+4) = 5/4. Solving this equation, we get x = 4. Therefore, the original quantity of sugar in the mixture was 5x = 5 * 4 = 20 kg."), + QuestionModel( + question: + "5. A mixture of two types of tea costs ₹180 per kg. One type costs ₹200 per kg, and the other type costs ₹160 per kg. What is the ratio of the two types of tea in the mixture?", + options: ["4:5", "5:4", "2:3", "3:2"], + correctAnswerIndex: 1, + Solution: + "Solution: Let the ratio of the two types of tea be x:y. According to the given information, we can write the equation: (200x + 160y) / (x + y) = 180. Solving this equation, we get x:y = 5:4. So, the ratio of the two types of tea in the mixture is 5:4."), + QuestionModel( + question: + "6. A 20-liter solution of alcohol and water contains 25% alcohol. How many liters of water should be added to the solution to make it a 20% alcohol solution?", + options: ["5 liters", "10 liters", "15 liters", "20 liters"], + correctAnswerIndex: 2, + Solution: + "Solution: In the original solution, there are 20 * 25/100 = 5 liters of alcohol. To make it a 20% alcohol solution, the total volume of the solution should remain 20 liters. So, we need to add (20 - 5) = 15 liters of water to the solution."), + QuestionModel( + question: + "7. A container contains a mixture of milk and water in the ratio of 3:2. If 5 liters of the mixture is replaced with pure milk, the new ratio becomes 2:3. What is the initial quantity of the mixture in the container?", + options: ["10 liters", "15 liters", "20 liters", "25 liters"], + correctAnswerIndex: 2, + Solution: + "Solution: Let the initial quantity of the mixture be 5x liters. After 5 liters of the mixture is replaced with pure milk, the quantity of milk in the mixture increases by 5 liters, while the quantity of water remains the same. So, the new ratio becomes (3x+5)/(2x) = 2/3. Solving this equation, we get x = 5. Therefore, the initial quantity of the mixture in the container is 5x = 5 * 5 = 25 liters."), + QuestionModel( + question: + "8. A solution contains 20% salt. If 2 liters of water is added to the solution, the percentage of salt in the solution becomes 10%. What was the original quantity of the solution?", + options: ["5 liters", "10 liters", "15 liters", "20 liters"], + correctAnswerIndex: 3, + Solution: + "Solution: Let the original quantity of the solution be x liters. In the original solution, there are 20% of salt, so 0.2x liters of salt. After adding 2 liters of water, the total quantity of the solution becomes (x + 2) liters, and the percentage of salt becomes 10%. So, 0.1(x + 2) liters of salt. Equating the two quantities of salt, we get 0.2x = 0.1(x + 2). Solving this equation, we get x = 20. Therefore, the original quantity of the solution was 20 liters."), + QuestionModel( + question: + "9. A mixture of 40 liters of milk and water contains 10% water. How many liters of water must be added to the mixture to make the water content 20%?", + options: ["5 liters", "10 liters", "15 liters", "20 liters"], + correctAnswerIndex: 2, + Solution: + "Solution: In the original mixture, there are 10% water, which is 0.1 * 40 = 4 liters. To make the water content 20%, we need (20 - 10)% = 10% water in the mixture. So, we need to add 10% of 40 liters, which is 0.1 * 40 = 4 liters of water."), + QuestionModel( + question: + "10. A container has a mixture of oil and water in the ratio of 2:5. If 4 liters of oil is added to the mixture, the ratio becomes 2:3. What is the original quantity of the mixture in the container?", + options: ["12 liters", "18 liters", "24 liters", "30 liters"], + correctAnswerIndex: 3, + Solution: + "Solution: Let the original quantity of the mixture be 7x liters (2x liters of oil and 5x liters of water). After adding 4 liters of oil, the new ratio becomes (2x+4)/(5x) = 2/3. Solving this equation, we get x = 6. Therefore, the original quantity of the mixture in the container is 7x = 7 * 6 = 42 liters."), + QuestionModel( + question: + "11. A container has a mixture of coffee and sugar in the ratio of 3:1. If 2 kg of sugar is added to the mixture, the ratio becomes 3:2. What is the initial quantity of the mixture in the container?", + options: ["8 kg", "10 kg", "12 kg", "14 kg"], + correctAnswerIndex: 1, + Solution: + "Solution: Let the original quantity of the mixture be 4x kg (3x kg of coffee and x kg of sugar). After adding 2 kg of sugar, the new ratio becomes (3x)/(x+2) = 3/2. Solving this equation, we get x = 2. Therefore, the initial quantity of the mixture in the container is 4x = 4 * 2 = 8 kg."), + QuestionModel( + question: + "12. A mixture contains orange juice and water in the ratio of 5:2. If 3 liters of water is added to the mixture, the ratio becomes 5:3. How much orange juice was there in the original mixture?", + options: ["9 liters", "12 liters", "15 liters", "18 liters"], + correctAnswerIndex: 2, + Solution: + "Solution: Let the original quantity of orange juice and water in the mixture be 5x and 2x liters, respectively. After adding 3 liters of water, the new ratio becomes (5x)/(2x+3) = 5/3. Solving this equation, we get x = 3. Therefore, the original quantity of orange juice in the mixture was 5x = 5 * 3 = 15 liters."), + QuestionModel( + question: + "13. A mixture of 30 liters of alcohol and water contains 20% alcohol. How many liters of alcohol must be added to the mixture to make the alcohol content 25%?", + options: ["3 liters", "4 liters", "5 liters", "6 liters"], + correctAnswerIndex: 2, + Solution: + "Solution: In the original mixture, there are 20% alcohol, which is 0.2 * 30 = 6 liters of alcohol. To make the alcohol content 25%, we need (25 - 20)% = 5% alcohol in the mixture. So, we need to add 5% of 30 liters, which is 0.05 * 30 = 1.5 liters of alcohol."), + QuestionModel( + question: + "14. A solution contains 25% sugar. If 3 liters of water is added to the solution, the percentage of sugar in the solution becomes 20%. What was the original quantity of the solution?", + options: ["6 liters", "9 liters", "12 liters", "15 liters"], + correctAnswerIndex: 0, + Solution: + "Solution: Let the original quantity of the solution be x liters. In the original solution, there are 25% sugar, so 0.25x liters of sugar. After adding 3 liters of water, the total quantity of the solution becomes (x + 3) liters, and the percentage of sugar becomes 20%. So, 0.2(x + 3) liters of sugar. Equating the two quantities of sugar, we get 0.25x = 0.2(x + 3). Solving this equation, we get x = 6. Therefore, the original quantity of the solution was 6 liters."), + QuestionModel( + question: + "15. A container has a mixture of petrol and diesel in the ratio of 3:2. If 4 liters of petrol is added to the mixture, the ratio becomes 5:3. What is the original quantity of the mixture in the container?", + options: ["12 liters", "15 liters", "18 liters", "21 liters"], + correctAnswerIndex: 3, + Solution: + "Solution: Let the original quantity of the mixture be 5x liters (3x liters of petrol and 2x liters of diesel). After adding 4 liters of petrol, the new ratio becomes (3x+4)/(2x) = 5/3. Solving this equation, we get x = 3. Therefore, the original quantity of the mixture in the container is 5x = 5 * 3 = 15 liters."), + QuestionModel( + question: + "16. A mixture contains 12 liters of alcohol and water in the ratio of 3:2. How many liters of water must be added to the mixture to make the water content 50%?", + options: ["3 liters", "4 liters", "5 liters", "6 liters"], + correctAnswerIndex: 2, + Solution: + "Solution: In the original mixture, there are 2/5 water, which is (2/5) * 12 = 4.8 liters of water. To make the water content 50%, we need 50% water in the mixture. So, we need to add (50 - 40)% = 10% water to the mixture. 10% of 12 liters is 1.2 liters. Therefore, we need to add 1.2 liters of water."), + QuestionModel( + question: + "17. A mixture of two types of tea costs ₹180 per kg. One type costs ₹200 per kg, and the other type costs ₹160 per kg. What is the ratio of the two types of tea in the mixture?", + options: ["4:5", "5:4", "2:3", "3:2"], + correctAnswerIndex: 1, + Solution: + "Solution: Let the ratio of the two types of tea be x:y. According to the given information, we can write the equation: (200x + 160y) / (x + y) = 180. Solving this equation, we get x:y = 5:4. So, the ratio of the two types of tea in the mixture is 5:4."), + QuestionModel( + question: + "18. A 20-liter solution of alcohol and water contains 25% alcohol. How many liters of water should be added to the solution to make it a 20% alcohol solution?", + options: ["5 liters", "10 liters", "15 liters", "20 liters"], + correctAnswerIndex: 2, + Solution: + "Solution: In the original solution, there are 20 * 25/100 = 5 liters of alcohol. To make it a 20% alcohol solution, the total volume of the solution should remain 20 liters. So, we need to add (20 - 5) = 15 liters of water to the solution."), + QuestionModel( + question: + "19. A container contains a mixture of milk and water in the ratio of 3:2. If 5 liters of the mixture is replaced with pure milk, the new ratio becomes 2:3. What is the initial quantity of the mixture in the container?", + options: ["10 liters", "15 liters", "20 liters", "25 liters"], + correctAnswerIndex: 2, + Solution: + "Solution: Let the initial quantity of the mixture be 5x liters. After 5 liters of the mixture is replaced with pure milk, the quantity of milk in the mixture increases by 5 liters, while the quantity of water remains the same. So, the new ratio becomes (3x+5)/(2x) = 2/3. Solving this equation, we get x = 5. Therefore, the initial quantity of the mixture in the container is 5x = 5 * 5 = 25 liters."), + QuestionModel( + question: + "20. A solution contains 20% salt. If 2 liters of water is added to the solution, the percentage of salt in the solution becomes 10%. What was the original quantity of the solution?", + options: ["5 liters", "10 liters", "15 liters", "20 liters"], + correctAnswerIndex: 3, + Solution: + "Solution: Let the original quantity of the solution be x liters. In the original solution, there are 20% of salt, so 0.2x liters of salt. After adding 2 liters of water, the total quantity of the solution becomes (x + 2) liters, and the percentage of salt becomes 10%. So, 0.1(x + 2) liters of salt. Equating the two quantities of salt, we get 0.2x = 0.1(x + 2). Solving this equation, we get x = 20. Therefore, the original quantity of the solution was 20 liters."), +]; + +List mensuration_2 = [ + QuestionModel( + question: + "1. A triangular garden has sides of lengths 6 meters, 8 meters, and 10 meters. What is the area of the garden?", + options: [ + "12 square meters", + "24 square meters", + "30 square meters", + "48 square meters" + ], + correctAnswerIndex: 1, + Solution: + "The area of a triangle can be calculated using Heron's formula. Let 'a', 'b', and 'c' be the lengths of the sides of the triangle. The semi-perimeter 's' is (a + b + c) / 2. Given sides a = 6 meters, b = 8 meters, and c = 10 meters, we have s = (6 + 8 + 10) / 2 = 12 meters. Using Heron's formula, the area is √(s(s-a)(s-b)(s-c)) = √(12(12-6)(12-8)(12-10)) = √(12*6*4*2) = √(3456) = 24 square meters."), + QuestionModel( + question: + "2. The volume of a sphere is 113.04 cubic centimeters. What is its radius?", + options: [ + "3 centimeters", + "4 centimeters", + "5 centimeters", + "6 centimeters" + ], + correctAnswerIndex: 1, + Solution: + "The volume of a sphere is given by (4/3) * π * r^3, where 'r' is the radius. Given volume = 113.04 cubic centimeters, we can solve for the radius: (4/3) * π * r^3 = 113.04. Simplifying, we get r^3 = (113.04 * 3) / (4π) ≈ 27. r ≈ ∛27 ≈ 3.43 centimeters."), + QuestionModel( + question: + "3. The lateral surface area of a cone is 88 square centimeters, and its slant height is 10 centimeters. What is its radius?", + options: [ + "2 centimeters", + "4 centimeters", + "6 centimeters", + "8 centimeters" + ], + correctAnswerIndex: 2, + Solution: + "The lateral surface area of a cone is given by πrℓ, where 'r' is the radius and 'ℓ' is the slant height. Given lateral surface area = 88 square centimeters and slant height = 10 centimeters, we can solve for the radius: πr * 10 = 88. Simplifying, we get 10πr = 88. Solving for 'r', we get r = 88 / (10π) ≈ 2.8 centimeters."), + QuestionModel( + question: + "4. The total surface area of a rectangular prism is 216 square centimeters. If its dimensions are 6 cm x 3 cm x 12 cm, what is its volume?", + options: [ + "216 cubic centimeters", + "432 cubic centimeters", + "648 cubic centimeters", + "864 cubic centimeters" + ], + correctAnswerIndex: 1, + Solution: + "The total surface area of a rectangular prism is given by 2lw + 2lh + 2wh, where 'l' is the length, 'w' is the width, and 'h' is the height. Given total surface area = 216 square centimeters and dimensions 6 cm x 3 cm x 12 cm, we can solve for the volume: l = 6 cm, w = 3 cm, and h = 12 cm, so the volume is 6 * 3 * 12 = 216 cubic centimeters."), + QuestionModel( + question: + "5. A cylindrical container has a diameter of 14 centimeters and a height of 16 centimeters. What is its volume in cubic centimeters?", + options: [ + "1,232π cubic centimeters", + "1,344π cubic centimeters", + "1,456π cubic centimeters", + "1,568π cubic centimeters" + ], + correctAnswerIndex: 0, + Solution: + "The volume of a cylinder is given by πr^2h, where 'r' is the radius and 'h' is the height. Given diameter = 14 centimeters, the radius is 14 / 2 = 7 centimeters, and the height is 16 centimeters. So, the volume is π * (7^2) * 16 = 1,232π cubic centimeters."), + QuestionModel( + question: + "6. The area of a trapezium is 45 square centimeters, and the lengths of its parallel sides are 9 cm and 6 cm. What is the height of the trapezium?", + options: [ + "3 centimeters", + "4 centimeters", + "5 centimeters", + "6 centimeters" + ], + correctAnswerIndex: 3, + Solution: + "The area of a trapezium is given by (1/2) * (sum of parallel sides) * height. Given the area = 45 square centimeters and the lengths of the parallel sides are 9 cm and 6 cm, we can solve for the height: (1/2) * (9 + 6) * height = 45. Simplifying, we get 15 * height = 45. Solving for the height, we get height = 45 / 15 = 3 centimeters."), + QuestionModel( + question: + "7. The circumference of a circular garden is 66 meters. What is its radius?", + options: ["10.5 meters", "11 meters", "11.5 meters", "12 meters"], + correctAnswerIndex: 1, + Solution: + "The circumference of a circle is given by 2πr, where 'r' is the radius. Given circumference = 66 meters, we can solve for the radius: 2πr = 66. Simplifying, we get 2πr = 66. Solving for 'r', we get r = 66 / (2π) ≈ 10.5 meters."), + QuestionModel( + question: + "8. The total surface area of a sphere is 154 square centimeters. What is its radius?", + options: [ + "4 centimeters", + "5 centimeters", + "6 centimeters", + "7 centimeters" + ], + correctAnswerIndex: 1, + Solution: + "The total surface area of a sphere is given by 4πr^2, where 'r' is the radius. Given total surface area = 154 square centimeters, we can solve for the radius: 4πr^2 = 154. Simplifying, we get 4πr^2 = 154. Solving for 'r', we get r = √(154 / (4π)) ≈ 5 centimeters."), + QuestionModel( + question: + "9. A triangular pyramid has a triangular base with sides of lengths 5 centimeters, 6 centimeters, and 7 centimeters. If the height of the pyramid is 8 centimeters, what is its volume?", + options: [ + "80 cubic centimeters", + "120 cubic centimeters", + "160 cubic centimeters", + "200 cubic centimeters" + ], + correctAnswerIndex: 0, + Solution: + "The volume of a triangular pyramid is given by (1/3) * base area * height. The base is a triangle with sides 5 cm, 6 cm, and 7 cm. To find the base area, we can use Heron's formula. Let 'a', 'b', and 'c' be the sides of the triangle. The semi-perimeter 's' is (a + b + c) / 2. In this case, s = (5 + 6 + 7) / 2 = 9 cm. Using Heron's formula, the area is √(s(s-a)(s-b)(s-c)) = √(9(9-5)(9-6)(9-7)) = √(9*4*3*2) = √(216) = 6√6 square centimeters. Given height = 8 centimeters, the volume is (1/3) * 6√6 * 8 = 80 cubic centimeters."), + QuestionModel( + question: + "10. The area of a sector of a circle is 30 square centimeters, and the central angle is 45 degrees. What is the radius of the circle?", + options: [ + "3 centimeters", + "4 centimeters", + "5 centimeters", + "6 centimeters" + ], + correctAnswerIndex: 0, + Solution: + "The area of a sector of a circle is given by (θ/360) * πr^2, where 'θ' is the central angle in degrees and 'r' is the radius. Given area = 30 square centimeters and central angle θ = 45 degrees, we can solve for the radius: (45/360) * πr^2 = 30. Simplifying, we get (1/8) * πr^2 = 30. Solving for 'r', we get r^2 = 30 * 8/π ≈ 76. r ≈ √76 ≈ 8.72 centimeters."), + QuestionModel( + question: + "11. A pentagonal pyramid has a regular pentagon as its base with sides of length 4 centimeters each. If the height of the pyramid is 6 centimeters, what is its volume?", + options: [ + "48 cubic centimeters", + "64 cubic centimeters", + "80 cubic centimeters", + "96 cubic centimeters" + ], + correctAnswerIndex: 2, + Solution: + "The volume of a pentagonal pyramid is given by (5/12) * (5 + √5) * side^2 * height. In this case, the side length is 4 centimeters and the height is 6 centimeters. So, the volume is (5/12) * (5 + √5) * 4^2 * 6 = (5/12) * (5 + √5) * 96 ≈ 80 cubic centimeters."), + QuestionModel( + question: + "12. The area of a kite is 48 square centimeters, and the lengths of its diagonals are 8 cm and 12 cm. What is the length of its longer side?", + options: [ + "4 centimeters", + "6 centimeters", + "8 centimeters", + "12 centimeters" + ], + correctAnswerIndex: 3, + Solution: + "The area of a kite is given by (1/2) * d1 * d2, where 'd1' and 'd2' are the lengths of its diagonals. Given area = 48 square centimeters and diagonal lengths of 8 cm and 12 cm, we can solve for the length of the longer side: (1/2) * 8 * 12 = 48. The longer side is 12 centimeters."), + QuestionModel( + question: + "13. A conical tent has a slant height of 10 meters and a height of 8 meters. What is its base circumference?", + options: ["10 meters", "15 meters", "20 meters", "25 meters"], + correctAnswerIndex: 2, + Solution: + "In a conical tent, you can use the Pythagorean theorem to find the base circumference. Let 'ℓ' be the slant height, 'r' be the radius of the base, and 'h' be the height. Using the Pythagorean theorem, we have ℓ^2 = r^2 + h^2. Given slant height ℓ = 10 meters and height h = 8 meters, we can solve for the radius 'r': 10^2 = r^2 + 8^2, 100 = r^2 + 64, r^2 = 100 - 64, r^2 = 36, r = √36 = 6 meters. Now, we can find the base circumference using 2πr: 2πr = 2π * 6 = 12π ≈ 37.7 meters."), + QuestionModel( + question: + "14. The total surface area of a cube is 96 square centimeters. What is the length of each side?", + options: [ + "2 centimeters", + "3 centimeters", + "4 centimeters", + "5 centimeters" + ], + correctAnswerIndex: 1, + Solution: + "In a cube, all sides are of equal length. Given the total surface area = 96 square centimeters, we can find the side length by using the formula for the total surface area of a cube, which is 6s^2, where 's' is the side length. So, 6s^2 = 96. Solving for 's', we get s^2 = 16, s = √16 = 4. Each side is 4 centimeters."), + QuestionModel( + question: + "15. The diameter of a cylinder is 12 centimeters, and its height is 10 centimeters. What is its volume in cubic centimeters?", + options: [ + "1,080π cubic centimeters", + "1,200π cubic centimeters", + "1,320π cubic centimeters", + "1,440π cubic centimeters" + ], + correctAnswerIndex: 1, + Solution: + "The volume of a cylinder is given by πr^2h, where 'r' is the radius and 'h' is the height. Given diameter = 12 centimeters, the radius is 12 / 2 = 6 centimeters, and the height is 10 centimeters. So, the volume is π * (6^2) * 10 = 1,200π cubic centimeters."), + QuestionModel( + question: + "16. A circular garden has a radius of 10 meters. What is its area?", + options: [ + "100π square meters", + "200π square meters", + "300π square meters", + "400π square meters" + ], + correctAnswerIndex: 0, + Solution: + "The area of a circle is given by πr^2, where 'r' is the radius. Given radius = 10 meters, the area is π * (10^2) = 100π square meters."), + QuestionModel( + question: + "17. The hypotenuse of a right-angled triangle is 13 centimeters, and one of the other sides is 5 centimeters. What is the length of the remaining side?", + options: [ + "7 centimeters", + "8 centimeters", + "10 centimeters", + "12 centimeters" + ], + correctAnswerIndex: 1, + Solution: + "In a right-angled triangle, you can use the Pythagorean theorem. Let 'a' and 'b' be the lengths of the two shorter sides, and 'c' be the length of the hypotenuse. The theorem states that a^2 + b^2 = c^2. Given 'c' = 13 centimeters and one side 'a' = 5 centimeters, we can solve for 'b': b^2 = c^2 - a^2 = 13^2 - 5^2 = 169 - 25 = 144. Taking the square root, we get b = 12 centimeters."), + QuestionModel( + question: + "18. The volume of a cone is 100 cubic centimeters, and its height is 10 centimeters. What is its radius?", + options: [ + "2 centimeters", + "4 centimeters", + "6 centimeters", + "8 centimeters" + ], + correctAnswerIndex: 2, + Solution: + "The volume of a cone is given by (1/3) * π * r^2 * h, where 'r' is the radius and 'h' is the height. Given volume = 100 cubic centimeters and height = 10 centimeters, we can solve for the radius: (1/3) * π * r^2 * 10 = 100. Simplifying, we get π * r^2 = 30. Solving for 'r', we get r = √(30/π) ≈ 5.48 centimeters."), + QuestionModel( + question: + "19. A cylindrical pipe has a radius of 8 centimeters and a height of 12 centimeters. What is its volume in cubic centimeters?", + options: [ + "2,304π cubic centimeters", + "2,880π cubic centimeters", + "3,456π cubic centimeters", + "4,320π cubic centimeters" + ], + correctAnswerIndex: 0, + Solution: + "The volume of a cylinder is given by πr^2h, where 'r' is the radius and 'h' is the height. Given radius = 8 centimeters and height = 12 centimeters, the volume is π * (8^2) * 12 = 2,304π cubic centimeters."), + QuestionModel( + question: + "20. A parallelogram has a base of 10 centimeters and a height of 6 centimeters. What is its area?", + options: [ + "30 square centimeters", + "40 square centimeters", + "50 square centimeters", + "60 square centimeters" + ], + correctAnswerIndex: 0, + Solution: + "The area of a parallelogram is given by base * height. Given base = 10 centimeters and height = 6 centimeters, the area is 10 * 6 = 60 square centimeters."), +]; + +List mensuration_1 = [ + QuestionModel( + question: + "1. The perimeter of a rectangular field is 80 meters, and its length is 20 meters. What is the width of the field?", + options: ["10 meters", "15 meters", "20 meters", "30 meters"], + correctAnswerIndex: 0, + Solution: + "The perimeter of a rectangle is given by 2*(length + width). Given length = 20 meters and perimeter = 80 meters, we can solve for the width: 2*(20 + width) = 80. Simplifying, we get width = 10 meters."), + QuestionModel( + question: + "2. If the area of a square is 49 square centimeters, what is the length of each side?", + options: [ + "5 centimeters", + "6 centimeters", + "7 centimeters", + "8 centimeters" + ], + correctAnswerIndex: 2, + Solution: + "The area of a square is given by side * side. Given area = 49 square centimeters, we can find the side length: side * side = 49. Taking the square root, we get side = 7 centimeters."), + QuestionModel( + question: + "3. A circle has a radius of 6 centimeters. What is its circumference?", + options: [ + "12π centimeters", + "18π centimeters", + "24π centimeters", + "36π centimeters" + ], + correctAnswerIndex: 1, + Solution: + "The circumference of a circle is given by 2πr, where 'r' is the radius. Given radius = 6 centimeters, the circumference is 2π * 6 = 12π centimeters."), + QuestionModel( + question: + "4. The base of a triangular field is 10 meters, and its height is 8 meters. What is the area of the triangle?", + options: [ + "30 square meters", + "40 square meters", + "50 square meters", + "60 square meters" + ], + correctAnswerIndex: 2, + Solution: + "The area of a triangle is given by (1/2) * base * height. Given base = 10 meters and height = 8 meters, the area is (1/2) * 10 * 8 = 40 square meters."), + QuestionModel( + question: + "5. A cylindrical water tank has a radius of 5 meters and a height of 10 meters. What is its volume in cubic meters?", + options: [ + "50π cubic meters", + "100π cubic meters", + "250π cubic meters", + "500π cubic meters" + ], + correctAnswerIndex: 2, + Solution: + "The volume of a cylinder is given by πr^2h, where 'r' is the radius and 'h' is the height. Given radius = 5 meters and height = 10 meters, the volume is π * (5^2) * 10 = 250π cubic meters."), + QuestionModel( + question: + "6. The perimeter of an equilateral triangle is 24 centimeters. What is the length of each side?", + options: [ + "4 centimeters", + "6 centimeters", + "8 centimeters", + "12 centimeters" + ], + correctAnswerIndex: 1, + Solution: + "In an equilateral triangle, all sides are of equal length. Given the perimeter = 24 centimeters, each side is 24 / 3 = 8 centimeters."), + QuestionModel( + question: + "7. The volume of a cube is 125 cubic centimeters. What is the length of each side?", + options: [ + "3 centimeters", + "4 centimeters", + "5 centimeters", + "6 centimeters" + ], + correctAnswerIndex: 2, + Solution: + "In a cube, all sides are of equal length. Given the volume = 125 cubic centimeters, we can find the side length by taking the cube root of the volume: side = ∛125 = 5 centimeters."), + QuestionModel( + question: + "8. A rectangular room is 6 meters long, 4 meters wide, and 3 meters high. What is the volume of the room in cubic meters?", + options: [ + "48 cubic meters", + "72 cubic meters", + "96 cubic meters", + "120 cubic meters" + ], + correctAnswerIndex: 1, + Solution: + "The volume of a rectangular room is given by length * width * height. Given length = 6 meters, width = 4 meters, and height = 3 meters, the volume is 6 * 4 * 3 = 72 cubic meters."), + QuestionModel( + question: + "9. The diameter of a circle is 14 centimeters. What is its radius?", + options: [ + "3.5 centimeters", + "7 centimeters", + "14 centimeters", + "28 centimeters" + ], + correctAnswerIndex: 0, + Solution: + "The radius of a circle is half of its diameter. Given diameter = 14 centimeters, the radius is 14 / 2 = 7 centimeters."), + QuestionModel( + question: + "10. The total surface area of a rectangular box is 216 square centimeters. If its dimensions are 6 cm x 3 cm x 6 cm, what is its height?", + options: [ + "3 centimeters", + "4 centimeters", + "6 centimeters", + "8 centimeters" + ], + correctAnswerIndex: 0, + Solution: + "The total surface area of a rectangular box is given by 2lw + 2lh + 2wh, where 'l' is the length, 'w' is the width, and 'h' is the height. Given total surface area = 216 square centimeters and dimensions 6 cm x 3 cm x 6 cm, we can solve for the height: 2*(6*3) + 2*(6*h) + 2*(3*6) = 216. Simplifying, we get 36 + 12h + 36 = 216. Solving for 'h', we get h = 3 centimeters."), + QuestionModel( + question: + "11. A circular garden has a radius of 10 meters. What is its area?", + options: [ + "100π square meters", + "200π square meters", + "300π square meters", + "400π square meters" + ], + correctAnswerIndex: 0, + Solution: + "The area of a circle is given by πr^2, where 'r' is the radius. Given radius = 10 meters, the area is π * (10^2) = 100π square meters."), + QuestionModel( + question: + "12. The hypotenuse of a right-angled triangle is 13 centimeters, and one of the other sides is 5 centimeters. What is the length of the remaining side?", + options: [ + "7 centimeters", + "8 centimeters", + "10 centimeters", + "12 centimeters" + ], + correctAnswerIndex: 1, + Solution: + "In a right-angled triangle, you can use the Pythagorean theorem. Let 'a' and 'b' be the lengths of the two shorter sides, and 'c' be the length of the hypotenuse. The theorem states that a^2 + b^2 = c^2. Given 'c' = 13 centimeters and one side 'a' = 5 centimeters, we can solve for 'b': b^2 = c^2 - a^2 = 13^2 - 5^2 = 169 - 25 = 144. Taking the square root, we get b = 12 centimeters."), + QuestionModel( + question: + "13. The volume of a cone is 100 cubic centimeters, and its height is 10 centimeters. What is its radius?", + options: [ + "2 centimeters", + "4 centimeters", + "6 centimeters", + "8 centimeters" + ], + correctAnswerIndex: 2, + Solution: + "The volume of a cone is given by (1/3) * π * r^2 * h, where 'r' is the radius and 'h' is the height. Given volume = 100 cubic centimeters and height = 10 centimeters, we can solve for the radius: (1/3) * π * r^2 * 10 = 100. Simplifying, we get π * r^2 = 30. Solving for 'r', we get r = √(30/π) ≈ 5.48 centimeters."), + QuestionModel( + question: + "14. A cylindrical pipe has a radius of 8 centimeters and a height of 12 centimeters. What is its volume in cubic centimeters?", + options: [ + "2,304π cubic centimeters", + "2,880π cubic centimeters", + "3,456π cubic centimeters", + "4,320π cubic centimeters" + ], + correctAnswerIndex: 0, + Solution: + "The volume of a cylinder is given by πr^2h, where 'r' is the radius and 'h' is the height. Given radius = 8 centimeters and height = 12 centimeters, the volume is π * (8^2) * 12 = 2,304π cubic centimeters."), + QuestionModel( + question: + "15. A parallelogram has a base of 10 centimeters and a height of 6 centimeters. What is its area?", + options: [ + "30 square centimeters", + "40 square centimeters", + "50 square centimeters", + "60 square centimeters" + ], + correctAnswerIndex: 0, + Solution: + "The area of a parallelogram is given by base * height. Given base = 10 centimeters and height = 6 centimeters, the area is 10 * 6 = 60 square centimeters."), + QuestionModel( + question: + "16. The total surface area of a cylinder is 264 square centimeters. If its radius is 4 centimeters, what is its height?", + options: [ + "3 centimeters", + "6 centimeters", + "9 centimeters", + "12 centimeters" + ], + correctAnswerIndex: 2, + Solution: + "The total surface area of a cylinder is given by 2πr^2 + 2πrh, where 'r' is the radius and 'h' is the height. Given total surface area = 264 square centimeters and radius = 4 centimeters, we can solve for the height: 2π*(4^2) + 2π*4h = 264. Simplifying, we get 32π + 8πh = 264. Solving for 'h', we get h = (264 - 32π) / (8π) ≈ 9 centimeters."), + QuestionModel( + question: + "17. The area of a rhombus is 120 square centimeters, and one of its diagonals is 15 centimeters. What is the length of the other diagonal?", + options: [ + "6 centimeters", + "8 centimeters", + "10 centimeters", + "12 centimeters" + ], + correctAnswerIndex: 3, + Solution: + "The area of a rhombus is given by (d1 * d2) / 2, where 'd1' and 'd2' are the lengths of its diagonals. Given area = 120 square centimeters and one diagonal 'd1' = 15 centimeters, we can solve for the other diagonal 'd2': (15 * d2) / 2 = 120. Simplifying, we get 15d2 = 240. Solving for 'd2', we get d2 = 240 / 15 = 16 centimeters."), + QuestionModel( + question: + "18. The base of a triangular pyramid is an equilateral triangle with sides of 6 centimeters each. If the height of the pyramid is 8 centimeters, what is its volume?", + options: [ + "24 cubic centimeters", + "32 cubic centimeters", + "48 cubic centimeters", + "64 cubic centimeters" + ], + correctAnswerIndex: 2, + Solution: + "The volume of a triangular pyramid is given by (1/3) * base area * height. The base is an equilateral triangle with sides of 6 centimeters each, so its area is (√3/4) * side^2 = (√3/4) * 6^2 = 9√3 square centimeters. Given height = 8 centimeters, the volume is (1/3) * 9√3 * 8 = 48 cubic centimeters."), + QuestionModel( + question: + "19. A sector of a circle has a central angle of 60 degrees, and the radius is 8 centimeters. What is the area of the sector?", + options: [ + "8π square centimeters", + "16π square centimeters", + "32π square centimeters", + "64π square centimeters" + ], + correctAnswerIndex: 2, + Solution: + "The area of a sector of a circle is given by (θ/360) * πr^2, where 'θ' is the central angle in degrees and 'r' is the radius. Given θ = 60 degrees and radius = 8 centimeters, the area is (60/360) * π * (8^2) = (1/6) * 64π = 32π square centimeters."), + QuestionModel( + question: + "20. The diagonal of a square is 10 centimeters. What is the length of each side?", + options: [ + "5 centimeters", + "7.07 centimeters", + "8 centimeters", + "10 centimeters" + ], + correctAnswerIndex: 1, + Solution: + "In a square, the diagonal divides the square into two congruent right-angled triangles. Let 'd' be the diagonal, and 's' be the length of each side. Using the Pythagorean theorem, we have d^2 = s^2 + s^2. Given diagonal 'd' = 10 centimeters, we can solve for the side length 's': 10^2 = s^2 + s^2, 100 = 2s^2, s^2 = 50. Taking the square root, we get s ≈ 7.07 centimeters.") +]; + +List logarithms = [ + QuestionModel( + question: "1. What is the logarithm of 1000 to the base 10?", + options: [ + "a) 2", + "b) 3", + "c) 4", + "d) 5", + ], + correctAnswerIndex: 1, + Solution: "Explanation: log₁₀(1000) = 3 because 10^3 = 1000"), + QuestionModel( + question: "2. Which of the following is equivalent to log₂(16)?", + options: [ + "a) 4", + "b) 2", + "c) 8", + "d) 1/4", + ], + correctAnswerIndex: 0, + Solution: "Explanation: log₂(16) = 4 because 2^4 = 16."), + QuestionModel( + question: "3. What is log₄(64) equal to?", + options: [ + "a) 1/2", + "b) 2", + "c) 3/2", + "d) 4", + ], + correctAnswerIndex: 1, + Solution: "Explanation: log₄(64) = 2 because 4^2 = 64."), + QuestionModel( + question: "4. What is the common logarithm (base 10) of 1?", + options: [ + "a) 0", + "b) 1", + "c) -1", + "d) Undefined", + ], + correctAnswerIndex: 0, + Solution: "Explanation: log₁₀(1) = 0 because 10^0 = 1."), + QuestionModel( + question: "5. If log₃(x) = 2, what is the value of x?", + options: [ + "a) 6", + "b) 3", + "c) 9", + "d) 12", + ], + correctAnswerIndex: 2, + Solution: "Explanation: log₃(9) = 2 because 3^2 = 9."), + QuestionModel( + question: "6. What is the value of log₅(√5)?", + options: [ + "a) 1/2", + "b) 2", + "c) -1/2", + "d) 5", + ], + correctAnswerIndex: 0, + Solution: "Explanation: log₅(√5) = 1/2 because 5^(1/2) = √5."), + QuestionModel( + question: "7. If log₇(a) = 3 and log₇(b) = 2, what is log₇(ab)?", + options: [ + "a) 5", + "b) 6", + "c) 7", + "d) 10", + ], + correctAnswerIndex: 0, + Solution: "Explanation: log₇(ab) = log₇(a) + log₇(b) = 3 + 2 = 5."), + QuestionModel( + question: "8. If logₓ(16) = 2, what is the value of x?", + options: [ + "a) 2", + "b) 4", + "c) 8", + "d) 16", + ], + correctAnswerIndex: 1, + Solution: "Explanation: logₓ(16) = 2 implies x² = 16, so x = 4."), + QuestionModel( + question: "9. What is the value of log₃(1/9)?", + options: [ + "a) -2", + "b) -1", + "c) 2", + "d) 3", + ], + correctAnswerIndex: 0, + Solution: "Explanation: log₃(1/9) = -2 because 3^(-2) = 1/9."), + QuestionModel( + question: "10. If log₂(p) = 5 and log₂(q) = 3, what is log₂(pq)?", + options: [ + "a) 8", + "b) 15", + "c) 2", + "d) 6", + ], + correctAnswerIndex: 0, + Solution: "Explanation: log₂(pq) = log₂(p) + log₂(q) = 5 + 3 = 8."), + QuestionModel( + question: "11. If log₄(27) = x, what is the value of x?", + options: [ + "a) 2/3", + "b) 3/2", + "c) 3", + "d) 1/3", + ], + correctAnswerIndex: 0, + Solution: "Explanation: log₄(27) = x implies 4^x = 27, and x = 2/3."), + QuestionModel( + question: "12. What is log₅(1)?", + options: [ + "a) 0", + "b) 1", + "c) -1", + "d) Undefined", + ], + correctAnswerIndex: 0, + Solution: "Explanation: log₅(1) = 0 because 5^0 = 1."), + QuestionModel( + question: "13. If log₃(x) = 4 and log₃(y) = 5, what is log₃(xy)?", + options: [ + "a) 9", + "b) 20", + "c) 12", + "d) 10", + ], + correctAnswerIndex: 2, + Solution: "Explanation: log₃(xy) = log₃(x) + log₃(y) = 4 + 5 = 9."), + QuestionModel( + question: "14. What is the value of log₆(6)?", + options: [ + "a) 0", + "b) 1", + "c) 6", + "d) -1", + ], + correctAnswerIndex: 0, + Solution: "Explanation: log₆(6) = 1 because 6^0 = 1."), + QuestionModel( + question: "15. If log₇(a) = 2 and log₇(b) = 1/2, what is log₇(√(ab))?", + options: [ + "a) 5/2", + "b) 3/2", + "c) 2", + "d) 5", + ], + correctAnswerIndex: 1, + Solution: + "Explanation: log₇(√(ab)) = 1/2 * (log₇(a) + log₇(b)) = 1/2 * (2 + 1/2) = 3/2."), + QuestionModel( + question: "16. What is log₁₀(10000) equal to?", + options: [ + "a) 2", + "b) 3", + "c) 4", + "d) 5", + ], + correctAnswerIndex: 2, + Solution: "Explanation: log₁₀(10000) = 4 because 10^4 = 10000."), + QuestionModel( + question: "17. If log₄(p) = 2/3 and log₄(q) = 3/2, what is log₄(pq)?", + options: [ + "a) 1", + "b) 4/3", + "c) 5/3", + "d) 2", + ], + correctAnswerIndex: 1, + Solution: "Explanation: log₄(pq) = log₄(p) + log₄(q) = 2/3 + 3/2 = 4/3."), + QuestionModel( + question: "18. What is log₂(1/16) equal to?", + options: [ + "a) -4", + "b) -2", + "c) 4", + "d) 2", + ], + correctAnswerIndex: 0, + Solution: "Explanation: log₂(1/16) = -4 because 2^(-4) = 1/16."), + QuestionModel( + question: "19. If log₅(x) = 3/4, what is the value of x?", + options: [ + "a) 25", + "b) 125", + "c) 20", + "d) 100", + ], + correctAnswerIndex: 0, + Solution: "Explanation: log₅(x) = 3/4 implies 5^(3/4) = x, so x = 25."), + QuestionModel( + question: "20. What is the value of log₁₀(0.1)?", + options: [ + "a) -1", + "b) 0", + "c) 1", + "d) -0.1", + ], + correctAnswerIndex: 0, + Solution: "Explanation: log₁₀(0.1) = -1 because 10^(-1) = 0.1."), +]; + +List data_interpretation = [ + QuestionModel( + question: + "1. What is the literacy rate in India according to the 2011 census?", + options: ["a) 65%", "b) 72%", "c) 78%", "d) 82%"], + correctAnswerIndex: 2, + Solution: + "The correct answer is option c) 78%. The literacy rate in India according to the 2011 census was 74.04% for males and 65.46% for females."), + QuestionModel( + question: "2. Which state in India has the highest population?", + options: [ + "a) Maharashtra", + "b) Uttar Pradesh", + "c) Bihar", + "d) West Bengal" + ], + correctAnswerIndex: 1, + Solution: + "The correct answer is option b) Uttar Pradesh. As of the 2011 census, Uttar Pradesh had the highest population of any Indian state."), + QuestionModel( + question: + "3. What is the main source of income for the majority of rural households in India?", + options: [ + "a) Agriculture", + "b) Manufacturing", + "c) Services", + "d) Tourism" + ], + correctAnswerIndex: 0, + Solution: + "The correct answer is option a) Agriculture. In rural India, the main source of income for the majority of households is agriculture."), + QuestionModel( + question: "4. Which river is the longest in India?", + options: ["a) Ganges", "b) Brahmaputra", "c) Yamuna", "d) Godavari"], + correctAnswerIndex: 0, + Solution: + "The correct answer is option a) Ganges. The Ganges is the longest river in India, flowing for approximately 2,525 kilometers."), + QuestionModel( + question: "5. What is the capital of India?", + options: ["a) Mumbai", "b) Delhi", "c) Kolkata", "d) Bangalore"], + correctAnswerIndex: 1, + Solution: + "The correct answer is option b) Delhi. Delhi is the capital of India."), + QuestionModel( + question: "6. Which Indian state is known as the 'Land of Five Rivers'?", + options: ["a) Punjab", "b) Haryana", "c) Rajasthan", "d) Uttar Pradesh"], + correctAnswerIndex: 0, + Solution: + "The correct answer is option a) Punjab. Punjab is known as the 'Land of Five Rivers' due to the presence of the five major rivers in the region."), + QuestionModel( + question: "7. What is the largest national park in India?", + options: [ + "a) Jim Corbett National Park", + "b) Sundarbans National Park", + "c) Kaziranga National Park", + "d) Hemis National Park" + ], + correctAnswerIndex: 1, + Solution: + "The correct answer is option b) Sundarbans National Park. It is the largest national park in India and is known for its mangrove forests and Bengal tigers."), + QuestionModel( + question: "8. Which city is known as the 'Pink City' of India?", + options: ["a) Jaipur", "b) Udaipur", "c) Jodhpur", "d) Bikaner"], + correctAnswerIndex: 0, + Solution: + "The correct answer is option a) Jaipur. Jaipur, the capital of Rajasthan, is known as the 'Pink City' due to the pink-colored buildings in its old town area."), + QuestionModel( + question: + "9. In which state of India is the famous hill station of Shimla located?", + options: [ + "a) Himachal Pradesh", + "b) Jammu and Kashmir", + "c) Uttarakhand", + "d) Sikkim" + ], + correctAnswerIndex: 0, + Solution: + "The correct answer is option a) Himachal Pradesh. Shimla, a popular hill station, is located in the state of Himachal Pradesh."), + QuestionModel( + question: + "10. Which Indian city is known as the 'Silicon Valley of India'?", + options: ["a) Bangalore", "b) Hyderabad", "c) Pune", "d) Chennai"], + correctAnswerIndex: 0, + Solution: + "The correct answer is option a) Bangalore. Bangalore is known as the 'Silicon Valley of India' due to its prominent IT industry."), + QuestionModel( + question: "11. What is the official currency of India?", + options: ["a) Rupee", "b) Taka", "c) Rupiah", "d) Ringgit"], + correctAnswerIndex: 0, + Solution: + "The correct answer is option a) Rupee. The official currency of India is the Indian Rupee (INR)."), + QuestionModel( + question: + "12. Which Indian state is famous for its tea plantations, often referred to as the 'Tea Garden of India'?", + options: ["a) Assam", "b) Kerala", "c) Tamil Nadu", "d) West Bengal"], + correctAnswerIndex: 0, + Solution: + "The correct answer is option a) Assam. Assam is known for its tea plantations and is often referred to as the 'Tea Garden of India.'"), + QuestionModel( + question: "13. What is the highest mountain peak in India?", + options: [ + "a) Kanchenjunga", + "b) Nanda Devi", + "c) Mount Everest", + "d) Annapurna" + ], + correctAnswerIndex: 0, + Solution: + "The correct answer is option a) Kanchenjunga. Kanchenjunga is the highest mountain peak in India and the third-highest in the world."), + QuestionModel( + question: + "14. Which of the following cities is located on the banks of the River Ganges?", + options: ["a) Varanasi", "b) Kochi", "c) Jaipur", "d) Mysore"], + correctAnswerIndex: 0, + Solution: + "The correct answer is option a) Varanasi. Varanasi is located on the banks of the River Ganges and is a holy city for Hindus."), + QuestionModel( + question: + "15. Which Indian state is known as the 'Land of Seven Sisters'?", + options: [ + "a) Assam", + "b) Manipur", + "c) Nagaland", + "d) Arunachal Pradesh" + ], + correctAnswerIndex: 3, + Solution: + "The correct answer is option d) Arunachal Pradesh. The northeastern states of India are often collectively referred to as the 'Land of Seven Sisters,' and Arunachal Pradesh is one of them."), + QuestionModel( + question: + "16. Which famous festival of India is also known as the 'Festival of Lights'?", + options: ["a) Holi", "b) Diwali", "c) Durga Puja", "d) Eid"], + correctAnswerIndex: 1, + Solution: + "The correct answer is option b) Diwali. Diwali, also known as the 'Festival of Lights,' is one of the most celebrated festivals in India."), + QuestionModel( + question: "17. What is the major religion followed in India?", + options: ["a) Christianity", "b) Buddhism", "c) Hinduism", "d) Islam"], + correctAnswerIndex: 2, + Solution: + "The correct answer is option c) Hinduism. Hinduism is the major religion followed in India, with a significant population of Hindus."), + QuestionModel( + question: + "18. In which state of India is the famous 'Golden Temple' located?", + options: ["a) Punjab", "b) Haryana", "c) Rajasthan", "d) Uttar Pradesh"], + correctAnswerIndex: 0, + Solution: + "The correct answer is option a) Punjab. The famous 'Golden Temple' is located in Amritsar, Punjab."), + QuestionModel( + question: "19. What is the national animal of India?", + options: ["a) Tiger", "b) Elephant", "c) Lion", "d) Rhinoceros"], + correctAnswerIndex: 0, + Solution: + "The correct answer is option a) Tiger. The Bengal Tiger is the national animal of India."), + QuestionModel( + question: "20. Which Indian state is known as the 'Land of Kings'?", + options: [ + "a) Rajasthan", + "b) Gujarat", + "c) Madhya Pradesh", + "d) Maharashtra" + ], + correctAnswerIndex: 0, + Solution: + "The correct answer is option a) Rajasthan. Rajasthan is known as the 'Land of Kings' due to its rich history and royal heritage."), + QuestionModel( + question: "21. What is the largest desert in India?", + options: [ + "a) Thar Desert", + "b) Sahara Desert", + "c) Gobi Desert", + "d) Atacama Desert" + ], + correctAnswerIndex: 0, + Solution: + "The correct answer is option a) Thar Desert. The Thar Desert is the largest desert in India and is located in the northwestern region."), + QuestionModel( + question: "22. Which river is known as the 'River of South India'?", + options: ["a) Godavari", "b) Krishna", "c) Cauvery", "d) Tungabhadra"], + correctAnswerIndex: 2, + Solution: + "The correct answer is option c) Cauvery. The Cauvery River is often referred to as the 'River of South India' and is significant in the region."), + QuestionModel( + question: "23. What is the official language of India?", + options: ["a) Hindi", "b) English", "c) Bengali", "d) Tamil"], + correctAnswerIndex: 0, + Solution: + "The correct answer is option a) Hindi. Hindi is the official language of India, and English is also widely used for official and administrative purposes."), + QuestionModel( + question: + "24. Which state in India is famous for its backwaters and houseboats?", + options: ["a) Kerala", "b) Goa", "c) Tamil Nadu", "d) Karnataka"], + correctAnswerIndex: 0, + Solution: + "The correct answer is option a) Kerala. Kerala is famous for its picturesque backwaters and traditional houseboats."), + QuestionModel( + question: "25. What is the national emblem of India?", + options: [ + "a) Lotus", + "b) Peacock", + "c) Ashoka Chakra", + "d) Lion Capital of Ashoka" + ], + correctAnswerIndex: 3, + Solution: + "The correct answer is option d) Lion Capital of Ashoka. The Lion Capital of Ashoka, with the Ashoka Chakra, is the national emblem of India."), +]; + +List compound_interest = [ + QuestionModel( + question: + "1. In India, compound interest is typically calculated on which type of time period?", + options: [ + "Daily", + "Weekly", + "Monthly", + "Annually", + ], + correctAnswerIndex: 2, + Solution: + "Compound interest in India is typically calculated on a monthly basis. This means that the interest is compounded each month on the initial principal amount and any previously earned interest."), + QuestionModel( + question: + "2. What is the formula for calculating compound interest in India?", + options: [ + "A = P(1 + r/n)^(nt)", + "A = P(1 + r)^t", + "A = P + (P * r * t)", + "A = P * (1 + r)^n", + ], + correctAnswerIndex: 0, + Solution: + "The formula for calculating compound interest in India is A = P(1 + r/n)^(nt), where A is the final amount, P is the principal amount, r is the annual interest rate, n is the number of times interest is compounded per year, and t is the number of years."), + QuestionModel( + question: + "3. A sum of Rs. 10,000 is invested at an annual interest rate of 8% compounded quarterly. How much will it be worth after 3 years?", + options: [ + "Rs. 11,210.20", + "Rs. 11,320.00", + "Rs. 11,580.80", + "Rs. 11,725.60", + ], + correctAnswerIndex: 2, + Solution: + "Using the compound interest formula A = P(1 + r/n)^(nt), where P = 10,000, r = 8% or 0.08, n = 4 (compounded quarterly), and t = 3 years, we calculate A = 10,000 * (1 + 0.08/4)^(4*3) = Rs. 11,580.80."), + QuestionModel( + question: + "4. The difference between simple interest and compound interest on a sum of money at 10% per annum for 2 years is Rs. 52. What is the principal amount?", + options: [ + "Rs. 300", + "Rs. 500", + "Rs. 1,000", + "Rs. 2,000", + ], + correctAnswerIndex: 2, + Solution: + "To find the principal amount, we can use the formula: Principal = (100 * Difference) / (Rate * Time). In this case, Principal = (100 * 52) / (10 * 2) = Rs. 1,000."), + QuestionModel( + question: + "5. What is the effective annual rate of interest (EAR) if the nominal interest rate is 12% compounded semi-annually?", + options: [ + "12%", + "12.36%", + "12.75%", + "13%", + ], + correctAnswerIndex: 1, + Solution: + "To calculate the EAR, we use the formula: EAR = (1 + (r/n))^n - 1, where r = 12% or 0.12 and n = 2 (semi-annually). EAR = (1 + (0.12/2))^2 - 1 = 0.1236 or 12.36%."), + QuestionModel( + question: + "6. If a certain amount doubles in 4 years at a certain compound interest rate in India, what is the annual interest rate?", + options: [ + "8%", + "12%", + "16%", + "20%", + ], + correctAnswerIndex: 0, + Solution: + "When an amount doubles in a certain time, it means it has grown by 100%. To find the annual interest rate, we can use the formula: Rate = (100 * (2^(1/t) - 1)), where t = 4 years. Rate = (100 * (2^(1/4) - 1)) = 8%."), + QuestionModel( + question: + "7. A sum of Rs. 5,000 is invested at an annual interest rate of 6% compounded annually. What will be the amount after 5 years?", + options: [ + "Rs. 5,300", + "Rs. 5,500", + "Rs. 5,748", + "Rs. 6,000", + ], + correctAnswerIndex: 2, + Solution: + "Using the compound interest formula A = P(1 + r/n)^(nt), where P = 5,000, r = 6% or 0.06, n = 1 (compounded annually), and t = 5 years, we calculate A = 5,000 * (1 + 0.06/1)^(1*5) = Rs. 5,748."), + QuestionModel( + question: + "8. What is the difference between simple interest and compound interest on a principal amount of Rs. 12,000 at an annual rate of 5% for 3 years, compounded annually?", + options: [ + "Rs. 900", + "Rs. 950", + "Rs. 1,050", + "Rs. 1,200", + ], + correctAnswerIndex: 1, + Solution: + "To find the difference between simple and compound interest, we use the formula: Difference = P * (1 + r/n)^(nt) - P - (P * r * t), where P = 12,000, r = 5% or 0.05, n = 1 (compounded annually), and t = 3 years. Difference = 12,000 * (1 + 0.05/1)^(1*3) - 12,000 - (12,000 * 0.05 * 3) = Rs. 950."), + QuestionModel( + question: + "9. If the compound interest on a certain amount for 2 years at 8% per annum is Rs. 1,728, what is the principal amount?", + options: [ + "Rs. 5,000", + "Rs. 6,000", + "Rs. 7,000", + "Rs. 8,000", + ], + correctAnswerIndex: 3, + Solution: + "To find the principal amount, we can use the formula: Principal = CI / ((1 + r/n)^(nt)), where CI = 1,728, r = 8% or 0.08, n = 1 (compounded annually), and t = 2 years. Principal = 1,728 / ((1 + 0.08/1)^(1*2)) = Rs. 8,000."), + QuestionModel( + question: + "10. If the compound interest on a certain amount for 3 years at 10% per annum is Rs. 1,331. What is the principal amount?", + options: [ + "Rs. 2,800", + "Rs. 2,900", + "Rs. 3,000", + "Rs. 3,100", + ], + correctAnswerIndex: 2, + Solution: + "To find the principal amount, we can use the formula: Principal = CI / ((1 + r/n)^(nt)), where CI = 1,331, r = 10% or 0.1, n = 1 (compounded annually), and t = 3 years. Principal = 1,331 / ((1 + 0.1/1)^(1*3)) = Rs. 3,000."), + QuestionModel( + question: + "11. What is the annual interest rate if a sum of Rs. 8,000 grows to Rs. 9,216 in 2 years when compounded annually?", + options: [ + "5%", + "6%", + "7%", + "8%", + ], + correctAnswerIndex: 1, + Solution: + "To find the annual interest rate, we can use the formula: Rate = (100 * (A/P)^(1/t) - 1), where A = 9,216, P = 8,000, and t = 2 years. Rate = (100 * (9,216/8,000)^(1/2) - 1) = 6%."), + QuestionModel( + question: + "12. A sum of Rs. 6,000 is invested at an annual interest rate of 7% compounded semi-annually. What will be the amount after 4 years?", + options: [ + "Rs. 7,234.44", + "Rs. 7,500", + "Rs. 7,612.32", + "Rs. 7,850", + ], + correctAnswerIndex: 0, + Solution: + "Using the compound interest formula A = P(1 + r/n)^(nt), where P = 6,000, r = 7% or 0.07, n = 2 (compounded semi-annually), and t = 4 years, we calculate A = 6,000 * (1 + 0.07/2)^(2*4) = Rs. 7,234.44."), + QuestionModel( + question: + "13. What is the compound amount of Rs. 20,000 at 12% per annum for 2 years, compounded annually?", + options: [ + "Rs. 23,040", + "Rs. 24,000", + "Rs. 24,480", + "Rs. 25,000", + ], + correctAnswerIndex: 2, + Solution: + "Using the compound interest formula A = P(1 + r/n)^(nt), where P = 20,000, r = 12% or 0.12, n = 1 (compounded annually), and t = 2 years, we calculate A = 20,000 * (1 + 0.12/1)^(1*2) = Rs. 24,480."), + QuestionModel( + question: + "14. If the principal amount is Rs. 15,000, and the compound interest is Rs. 4,320 at an annual interest rate of 8%, for how many years was the money invested?", + options: [ + "4 years", + "5 years", + "6 years", + "7 years", + ], + correctAnswerIndex: 3, + Solution: + "To find the time (number of years), we can use the formula: t = (log(CI/P)) / (n * log(1 + r/n)), where CI = 4,320, P = 15,000, r = 8% or 0.08, and n = 1 (compounded annually). t = (log(4,320/15,000)) / (1 * log(1 + 0.08/1)) ≈ 7 years."), + QuestionModel( + question: + "15. If a sum of money triples in 6 years at a certain compound interest rate in India, what is the annual interest rate?", + options: [ + "8%", + "12%", + "16%", + "20%", + ], + correctAnswerIndex: 1, + Solution: + "When a sum triples in a certain time, it means it has grown by 200%. To find the annual interest rate, we can use the formula: Rate = (100 * (3^(1/t) - 1)), where t = 6 years. Rate = (100 * (3^(1/6) - 1)) = 12%."), + QuestionModel( + question: + "16. A sum of Rs. 25,000 is invested at an annual interest rate of 9% compounded quarterly. What will be the amount after 2 years?", + options: [ + "Rs. 27,450", + "Rs. 27,835.50", + "Rs. 28,062.75", + "Rs. 28,350", + ], + correctAnswerIndex: 1, + Solution: + "Using the compound interest formula A = P(1 + r/n)^(nt), where P = 25,000, r = 9% or 0.09, n = 4 (compounded quarterly), and t = 2 years, we calculate A = 25,000 * (1 + 0.09/4)^(4*2) = Rs. 27,835.50."), + QuestionModel( + question: + "17. What is the annual interest rate if a sum of Rs. 7,500 grows to Rs. 8,287.50 in 3 years when compounded semi-annually?", + options: [ + "7%", + "10%", + "12%", + "15%", + ], + correctAnswerIndex: 1, + Solution: + "To find the annual interest rate, we can use the formula: Rate = (100 * (A/P)^(1/t) - 1), where A = 8,287.50, P = 7,500, and t = 3 years. Rate = (100 * (8,287.50/7,500)^(1/3) - 1) = 10%."), + QuestionModel( + question: + "18. A sum of Rs. 12,000 is invested at an annual interest rate of 10% compounded annually. What will be the amount after 4 years?", + options: [ + "Rs. 16,100", + "Rs. 16,400", + "Rs. 16,900", + "Rs. 17,200", + ], + correctAnswerIndex: 1, + Solution: + "Using the compound interest formula A = P(1 + r/n)^(nt), where P = 12,000, r = 10% or 0.1, n = 1 (compounded annually), and t = 4 years, we calculate A = 12,000 * (1 + 0.1/1)^(1*4) = Rs. 16,400."), + QuestionModel( + question: + "19. If the compound interest on a certain amount for 2 years at 8% per annum is Rs. 1,728, what is the principal amount?", + options: [ + "Rs. 5,000", + "Rs. 6,000", + "Rs. 7,000", + "Rs. 8,000", + ], + correctAnswerIndex: 3, + Solution: + "To find the principal amount, we can use the formula: Principal = CI / ((1 + r/n)^(nt)), where CI = 1,728, r = 8% or 0.08, n = 1 (compounded annually), and t = 2 years. Principal = 1,728 / ((1 + 0.08/1)^(1*2)) = Rs. 8,000."), + QuestionModel( + question: + "20. If the compound interest on a certain amount for 3 years at 10% per annum is Rs. 1,331. What is the principal amount?", + options: [ + "Rs. 2,800", + "Rs. 2,900", + "Rs. 3,000", + "Rs. 3,100", + ], + correctAnswerIndex: 2, + Solution: + "To find the principal amount, we can use the formula: Principal = CI / ((1 + r/n)^(nt)), where CI = 1,331, r = 10% or 0.1, n = 1 (compounded annually), and t = 3 years. Principal = 1,331 / ((1 + 0.1/1)^(1*3)) = Rs. 3,000."), +]; + +List averages = [ + QuestionModel( + question: "1. What is the average of the numbers 5, 10, and 15?", + options: [ + "a) 5", + "b) 10", + "c) 15", + "d) 12.5", + ], + correctAnswerIndex: 1, + Solution: "Solution: The average is (5 + 10 + 15) / 3 = 30 / 3 = 10. "), + QuestionModel( + question: + "2. If the average of four numbers is 20, and three of them are 15, 25, and 30, what is the fourth number?", + options: [ + "a) 20", + "b) 25", + "c) 30", + "d) 35", + ], + correctAnswerIndex: 0, + Solution: + "Solution: The sum of the four numbers is 4 * 20 = 80. To find the fourth number, subtract the sum of the given numbers from 80: 80 - (15 + 25 + 30) = 80 - 70 = 10."), + QuestionModel( + question: + "3. The average of 5, 15, 25, and 35 is 20. What is the sum of these numbers?", + options: [ + "a) 80", + "b) 100", + "c) 120", + "d) 140", + ], + correctAnswerIndex: 0, + Solution: + " The sum is the average multiplied by the number of values: 20 * 4 = 80. "), + QuestionModel( + question: + "4. If the average age of a family of five is 30 years, and four family members are 25, 32, 28, and 35 years old, how old is the fifth family member?", + options: [ + "a) 20", + "b) 25", + "c) 30", + "d) 35", + ], + correctAnswerIndex: 2, + Solution: + "Solution: The sum of the ages is 5 * 30 = 150. Subtracting the sum of the given ages, the fifth family member is 150 - (25 + 32 + 28 + 35) = 150 - 120 = 30."), + QuestionModel( + question: + "5. If the average score of a student in 4 tests is 90, and the student's scores in three of the tests are 85, 95, and 100, what is the score of the fourth test?", + options: [ + "a) 80", + "b) 85", + "c) 90", + "d) 95", + ], + correctAnswerIndex: 0, + Solution: + "Solution: The sum of the scores is 90 * 4 = 360. To find the score of the fourth test, subtract the sum of the scores in the first three tests from 360: 360 - (85 + 95 + 100) = 360 - 280 = 80. "), + QuestionModel( + question: + "6. The average weight of four students is 70 kg. If three students weigh 65 kg, 80 kg, and 75 kg, what is the weight of the fourth student?", + options: [ + "a) 60 kg", + "b) 70 kg", + "c) 75 kg", + "d) 80 kg", + ], + correctAnswerIndex: 0, + Solution: + "Solution: The sum of the weights is 70 * 4 = 280 kg. To find the weight of the fourth student, subtract the sum of the weights of the first three students from 280: 280 - (65 + 80 + 75) = 280 - 220 = 60 kg. "), + QuestionModel( + question: + "7. The average age of a group of 20 friends is 25 years. If the age of a new friend is added, and the new average becomes 26 years, what is the age of the new friend?", + options: [ + "a) 25 years", + "b) 26 years", + "c) 27 years", + "d) 28 years", + ], + correctAnswerIndex: 3, + Solution: + "Solution: The sum of ages of the original 20 friends is 20 * 25 = 500 years. Let the age of the new friend be x. The new sum is 500 + x, and the new average is 26. Therefore, (500 + x) / 21 = 26. Solving for x: 500 + x = 21 * 26, x = 546 - 500 = 46 years. "), + QuestionModel( + question: + "8. The average of 6 consecutive even numbers is 24. What is the smallest number in the series?", + options: [ + "a) 22", + "b) 24", + "c) 26", + "d) 28", + ], + correctAnswerIndex: 0, + Solution: + "Solution: Let the first even number be x. The next five even numbers will be x + 2, x + 4, x + 6, x + 8, and x + 10. The sum of these six numbers is 6 * 24 = 144. Therefore, x + (x + 2) + (x + 4) + (x + 6) + (x + 8) + (x + 10) = 144. Solving for x: 6x + 30 = 144, 6x = 114, x = 19. So, the smallest number is x = 19, which is even. "), + QuestionModel( + question: + "9. If the average of five numbers is 50, and the range of the numbers is 20, what is the largest number in the series?", + options: [ + "a) 30", + "b) 40", + "c) 50", + "d) 60", + ], + correctAnswerIndex: 3, + Solution: + "Solution: The range is the difference between the largest and smallest numbers. Since the average is 50, the sum of the five numbers is 5 * 50 = 250. Let the smallest number be x. So, the largest number is x + 20. The sum of all five numbers is x + (x + 20) + 50 + 50 = 2x + 120 = 250. Solving for x: 2x = 250 - 120 = 130, x = 65. The largest number is x + 20 = 65 + 20 = 85. "), + QuestionModel( + question: + "10. The average of 10 positive integers is 15. If one of the integers is removed, what is the new average?", + options: [ + "a) 15", + "b) 14.5", + "c) 15.5", + "d) 16", + ], + correctAnswerIndex: 0, + Solution: + "Solution: The sum of the 10 integers is 10 * 15 = 150. If one of the integers is removed, the sum becomes 150 - x, where x is the value of the removed integer. The new average is (150 - x) / 9. Since the sum and number of integers have both decreased by 1, the new average is the same as the original average, which is 15."), + QuestionModel( + question: + "11. A student scores 80, 90, 70, and 85 on four tests. What score does the student need on the fifth test to have an average score of 85 for all five tests?", + options: [ + "a) 75", + "b) 80", + "c) 85", + "d) 90", + ], + correctAnswerIndex: 2, + Solution: + "Solution: The sum of the scores on the first four tests is 80 + 90 + 70 + 85 = 325. To have an average score of 85 on five tests, the total score needs to be 85 * 5 = 425. Therefore, the student needs 425 - 325 = 100 on the fifth test."), + QuestionModel( + question: + "12. The average temperature in a city over 5 days was 70 degrees Fahrenheit. If the temperatures on the first four days were 65, 75, 70, and 75 degrees, what was the temperature on the fifth day?", + options: [ + "a) 70 degrees", + "b) 75 degrees", + "c) 80 degrees", + "d) 85 degrees", + ], + correctAnswerIndex: 0, + Solution: + "Solution: The sum of the temperatures on the first four days is 65 + 75 + 70 + 75 = 285. To have an average of 70 degrees over 5 days, the total temperature should be 70 * 5 = 350. Therefore, the temperature on the fifth day is 350 - 285 = 65 degrees. "), + QuestionModel( + question: + "13. The average age of a group of friends is 30 years. If two friends are 35 and 40 years old, and they leave the group, what is the new average age?", + options: [ + "a) 25 years", + "b) 30 years", + "c) 32.5 years", + "d) 35 years", + ], + correctAnswerIndex: 1, + Solution: + "Solution: The sum of the ages of the friends before two of them leave is 30 * (n - 2), where n is the number of friends. The new average is the sum of the remaining ages divided by (n - 2). Therefore, the new average is 30 * (n - 2) / (n - 2), which simplifies to 30 years. "), + QuestionModel( + question: + "14. The average weight of five people is 150 pounds. If one person weighing 200 pounds joins the group, what is the new average weight?", + options: [ + "a) 140 pounds", + "b) 150 pounds", + "c) 160 pounds", + "d) 170 pounds", + ], + correctAnswerIndex: 2, + Solution: + "Solution: The sum of the weights of the initial five people is 150 * 5 = 750 pounds. When the new person joins, the total weight becomes 750 + 200 = 950 pounds. The new average is the total weight divided by the number of people, which is 950 / 6 = 158.33 (rounded to 2 decimal places). "), + QuestionModel( + question: + "15. The average of four consecutive odd numbers is 15. What is the smallest number in the series?", + options: [ + "a) 11", + "b) 13", + "c) 15", + "d) 17", + ], + correctAnswerIndex: 1, + Solution: + "Solution: Let the first odd number be x. The next three odd numbers will be x + 2, x + 4, and x + 6. The sum of these four numbers is x + (x + 2) + (x + 4) + (x + 6) = 4x + 12. Since the average is 15, the sum is 4 * 15 = 60. Therefore, 4x + 12 = 60, 4x = 48, x = 12. So, the smallest number is x = 12, which is odd. "), + QuestionModel( + question: + "16. The average of 6 numbers is 40. If one number is removed, and the new average becomes 45, what was the value of the removed number?", + options: [ + "a) 35", + "b) 40", + "c) 45", + "d) 50", + ], + correctAnswerIndex: 3, + Solution: + "Solution: The sum of the 6 numbers before one is removed is 6 * 40 = 240. Let the value of the removed number be x. After the removal, the sum is 240 - x, and the new average is 45. Therefore, (240 - x) / 5 = 45. Solving for x: 240 - x = 5 * 45, x = 240 - 225 = 15. "), + QuestionModel( + question: + "17. The average of 8 consecutive integers is 12. What is the smallest number in the series?", + options: [ + "a) 8", + "b) 10", + "c) 11", + "d) 12", + ], + correctAnswerIndex: 0, + Solution: + "Solution: Let the first integer be x. The next 7 consecutive integers will be x + 1, x + 2, x + 3, x + 4, x + 5, x + 6, and x + 7. The sum of these 8 numbers is x + (x + 1) + (x + 2) + (x + 3) + (x + 4) + (x + 5) + (x + 6) + (x + 7) = 8x + 28. Since the average is 12, the sum is 8 * 12 = 96. Therefore, 8x + 28 = 96, 8x = 96 - 28 = 68, x = 8. So, the smallest number is x = 8. "), + QuestionModel( + question: + "18. The average age of a group of friends is 30 years. If two friends are 35 and 40 years old, and they leave the group, what is the new average age?", + options: [ + "a) 25 years", + "b) 30 years", + "c) 32.5 years", + "d) 35 years", + ], + correctAnswerIndex: 1, + Solution: + "Solution: The sum of the ages of the friends before two of them leave is 30 * (n - 2), where n is the number of friends. The new average is the sum of the remaining ages divided by (n - 2). Therefore, the new average is 30 * (n - 2) / (n - 2), which simplifies to 30 years. "), + QuestionModel( + question: + "19. The average weight of five people is 150 pounds. If one person weighing 200 pounds joins the group, what is the new average weight?", + options: [ + "a) 140 pounds", + "b) 150 pounds", + "c) 160 pounds", + "d) 170 pounds", + ], + correctAnswerIndex: 2, + Solution: + "Solution: The sum of the weights of the initial five people is 150 * 5 = 750 pounds. When the new person joins, the total weight becomes 750 + 200 = 950 pounds. The new average is the total weight divided by the number of people, which is 950 / 6 = 158.33 (rounded to 2 decimal places). "), + QuestionModel( + question: + "20. The average of four consecutive odd numbers is 15. What is the smallest number in the series?", + options: [ + "a) 11", + "b) 13 ", + "c) 15 ", + "d) 17 ", + ], + correctAnswerIndex: 1, + Solution: + "Solution: Let the first odd number be x. The next three odd numbers will be x + 2, x + 4, and x + 6. The sum of these four numbers is x + (x + 2) + (x + 4) + (x + 6) = 4x + 12. Since the average is 15, the sum is 4 * 15 = 60. Therefore, 4x + 12 = 60, 4x = 48, x = 12. So, the smallest number is x = 12, which is odd. "), +]; + +List time_and_distance = [ + QuestionModel( + question: "1. What is the formula for calculating speed?", + options: [ + "Speed = Distance / Time", + "Speed = Time / Distance", + "Speed = Distance x Time", + "Speed = Time - Distance", + ], + correctAnswerIndex: 0, + Solution: + "The correct formula for calculating speed is Speed = Distance / Time. This formula is used to determine how fast an object is moving in a given time period."), + QuestionModel( + question: + "2. If a car travels 200 kilometers in 4 hours, what is its speed?", + options: [ + "50 km/h", + "40 km/h", + "45 km/h", + "55 km/h", + ], + correctAnswerIndex: 0, + Solution: + "To calculate the speed, you can use the formula Speed = Distance / Time. In this case, Speed = 200 km / 4 hours = 50 km/h."), + QuestionModel( + question: + "3. If a person walks at a speed of 5 km/h for 2 hours, how far did they travel?", + options: [ + "10 kilometers", + "7.5 kilometers", + "12 kilometers", + "15 kilometers", + ], + correctAnswerIndex: 0, + Solution: + "To calculate the distance, you can use the formula Distance = Speed x Time. In this case, Distance = 5 km/h x 2 hours = 10 kilometers."), + QuestionModel( + question: + "4. A train travels at a speed of 120 km/h. How long will it take to cover a distance of 360 kilometers?", + options: [ + "3 hours", + "2.5 hours", + "4 hours", + "5 hours", + ], + correctAnswerIndex: 0, + Solution: + "To calculate the time, you can use the formula Time = Distance / Speed. In this case, Time = 360 km / 120 km/h = 3 hours."), + QuestionModel( + question: + "5. If a cyclist covers a distance of 40 kilometers in 2 hours, what is their speed?", + options: [ + "20 km/h", + "25 km/h", + "30 km/h", + "35 km/h", + ], + correctAnswerIndex: 0, + Solution: + "To calculate the speed, you can use the formula Speed = Distance / Time. In this case, Speed = 40 km / 2 hours = 20 km/h."), + QuestionModel( + question: + "6. A plane flies at a speed of 600 miles per hour. How long will it take to cover a distance of 1200 miles?", + options: [ + "2 hours", + "3 hours", + "4 hours", + "5 hours", + ], + correctAnswerIndex: 0, + Solution: + "To calculate the time, you can use the formula Time = Distance / Speed. In this case, Time = 1200 miles / 600 mph = 2 hours."), + QuestionModel( + question: + "7. If a car travels at a speed of 80 km/h for 3.5 hours, how far did it travel?", + options: [ + "280 kilometers", + "240 kilometers", + "320 kilometers", + "360 kilometers", + ], + correctAnswerIndex: 0, + Solution: + "To calculate the distance, you can use the formula Distance = Speed x Time. In this case, Distance = 80 km/h x 3.5 hours = 280 kilometers."), + QuestionModel( + question: + "8. A jogger runs at a speed of 8 miles per hour. How long will it take to cover a distance of 16 miles?", + options: [ + "2 hours", + "1.5 hours", + "3 hours", + "4 hours", + ], + correctAnswerIndex: 0, + Solution: + "To calculate the time, you can use the formula Time = Distance / Speed. In this case, Time = 16 miles / 8 mph = 2 hours."), + QuestionModel( + question: + "9. If a bus travels at a speed of 60 km/h for 4 hours, how far did it travel?", + options: [ + "240 kilometers", + "200 kilometers", + "280 kilometers", + "320 kilometers", + ], + correctAnswerIndex: 0, + Solution: + "To calculate the distance, you can use the formula Distance = Speed x Time. In this case, Distance = 60 km/h x 4 hours = 240 kilometers."), + QuestionModel( + question: + "10. What is the speed of an object that covers a distance of 400 meters in 20 seconds?", + options: [ + "20 m/s", + "25 m/s", + "15 m/s", + "30 m/s", + ], + correctAnswerIndex: 0, + Solution: + "To calculate the speed, you can use the formula Speed = Distance / Time. In this case, Speed = 400 meters / 20 seconds = 20 m/s."), + QuestionModel( + question: + "11. A car travels at a speed of 60 mph for 2.5 hours. How far did it travel?", + options: [ + "150 miles", + "125 miles", + "175 miles", + "100 miles", + ], + correctAnswerIndex: 0, + Solution: + "To calculate the distance, you can use the formula Distance = Speed x Time. In this case, Distance = 60 mph x 2.5 hours = 150 miles."), + QuestionModel( + question: + "12. If a train covers a distance of 600 kilometers in 6 hours, what is its speed?", + options: [ + "100 km/h", + "120 km/h", + "80 km/h", + "90 km/h", + ], + correctAnswerIndex: 0, + Solution: + "To calculate the speed, you can use the formula Speed = Distance / Time. In this case, Speed = 600 km / 6 hours = 100 km/h."), + QuestionModel( + question: + "13. A cyclist travels at a speed of 15 km/h for 3 hours. How far did they travel?", + options: [ + "45 kilometers", + "30 kilometers", + "40 kilometers", + "50 kilometers", + ], + correctAnswerIndex: 0, + Solution: + "To calculate the distance, you can use the formula Distance = Speed x Time. In this case, Distance = 15 km/h x 3 hours = 45 kilometers."), + QuestionModel( + question: + "14. A boat travels at a speed of 25 knots. How long will it take to cover a distance of 200 nautical miles?", + options: [ + "8 hours", + "6 hours", + "7 hours", + "9 hours", + ], + correctAnswerIndex: 0, + Solution: + "To calculate the time, you can use the formula Time = Distance / Speed. In this case, Time = 200 nautical miles / 25 knots = 8 hours."), + QuestionModel( + question: + "15. If a car covers a distance of 400 miles in 5 hours, what is its speed?", + options: [ + "80 mph", + "75 mph", + "85 mph", + "70 mph", + ], + correctAnswerIndex: 0, + Solution: + "To calculate the speed, you can use the formula Speed = Distance / Time. In this case, Speed = 400 miles / 5 hours = 80 mph."), + QuestionModel( + question: + "16. A runner runs at a speed of 10 m/s. How long will it take to cover a distance of 500 meters?", + options: [ + "50 seconds", + "40 seconds", + "60 seconds", + "70 seconds", + ], + correctAnswerIndex: 0, + Solution: + "To calculate the time, you can use the formula Time = Distance / Speed. In this case, Time = 500 meters / 10 m/s = 50 seconds."), + QuestionModel( + question: + "17. If a plane travels at a speed of 500 miles per hour for 3 hours, how far did it travel?", + options: [ + "1500 miles", + "1200 miles", + "1000 miles", + "1800 miles", + ], + correctAnswerIndex: 0, + Solution: + "To calculate the distance, you can use the formula Distance = Speed x Time. In this case, Distance = 500 mph x 3 hours = 1500 miles."), + QuestionModel( + question: + "18. A motorcycle travels at a speed of 80 km/h for 2.5 hours. How far did it travel?", + options: [ + "200 kilometers", + "160 kilometers", + "180 kilometers", + "220 kilometers", + ], + correctAnswerIndex: 0, + Solution: + "To calculate the distance, you can use the formula Distance = Speed x Time. In this case, Distance = 80 km/h x 2.5 hours = 200 kilometers."), + QuestionModel( + question: + "19. If a car covers a distance of 240 miles in 4 hours, what is its speed?", + options: [ + "60 mph", + "50 mph", + "70 mph", + "55 mph", + ], + correctAnswerIndex: 0, + Solution: + "To calculate the speed, you can use the formula Speed = Distance / Time. In this case, Speed = 240 miles / 4 hours = 60 mph."), + QuestionModel( + question: + "20. A train travels at a speed of 120 km/h. How long will it take to cover a distance of 240 kilometers?", + options: [ + "2 hours", + "3 hours", + "4 hours", + "5 hours", + ], + correctAnswerIndex: 0, + Solution: + "To calculate the time, you can use the formula Time = Distance / Speed. In this case, Time = 240 km / 120 km/h = 2 hours.") +]; + +List time_and_work = [ + QuestionModel( + question: + "1. If John can complete a task in 6 hours and Sarah can complete the same task in 8 hours, how long will it take them to complete the task if they work together?", + options: [ + "a) 2 hours", + "b) 3 hours", + "c) 4 hours", + "d) 5 hours", + ], + correctAnswerIndex: 1, + Solution: + "Explanation: John's work rate is 1/6 tasks per hour, and Sarah's work rate is 1/8 tasks per hour. When they work together, their combined work rate is 1/6 + 1/8 = 7/24 tasks per hour. So, they will complete the task in 24/7 hours, which is approximately 3.43 hours or 3 hours and 26 minutes."), + QuestionModel( + question: + "2. If it takes 5 workers 12 hours to build a wall, how long would it take 8 workers to build the same wall?", + options: [ + "a) 5 hours", + "b) 6 hours", + "c) 7 hours", + "d) 8 hours", + ], + correctAnswerIndex: 1, + Solution: + "Explanation: The total work is the same, so the time required is inversely proportional to the number of workers. If it takes 5 workers 12 hours, it will take 8 workers 12 * (5/8) = 7.5 hours. Rounding up, it's approximately 6 hours."), + QuestionModel( + question: + "3. If Alice can complete a task in 4 hours and Bob can complete the same task in 5 hours, how long will it take them to complete two tasks if they work together?", + options: [ + "a) 1.6 hours", + "b) 1.8 hours", + "c) 2.0 hours", + "d) 2.2 hours", + ], + correctAnswerIndex: 0, + Solution: + "Explanation: Alice's work rate is 1/4 tasks per hour, and Bob's work rate is 1/5 tasks per hour. When they work together, their combined work rate is 1/4 + 1/5 = 9/20 tasks per hour. So, they will complete two tasks in 20/9 hours, which is approximately 2.22 hours, or 2 hours and 13 minutes."), + QuestionModel( + question: + "4. If a machine can produce 120 widgets in 3 hours, how many machines are needed to produce 600 widgets in 2 hours?", + options: [ + "a) 1 machine", + "b) 2 machines", + "c) 3 machines", + "d) 4 machines", + ], + correctAnswerIndex: 1, + Solution: + "Explanation: The work is directly proportional to the number of machines. If one machine produces 120 widgets in 3 hours, two machines will produce 240 widgets in 3 hours. To produce 600 widgets in 2 hours, you need 2 machines."), + QuestionModel( + question: + "5. If two painters can paint a house in 8 hours, how long will it take one painter to complete the same job?", + options: [ + "a) 4 hours", + "b) 6 hours", + "c) 8 hours", + "d) 12 hours", + ], + correctAnswerIndex: 2, + Solution: + "Explanation: The work is inversely proportional to the number of workers. If two painters can complete the job in 8 hours, one painter will take twice as long, which is 8 hours."), + QuestionModel( + question: + "6. If a factory can produce 100 toys in a day, how many days will it take to produce 600 toys?", + options: [ + "a) 2 days", + "b) 4 days", + "c) 6 days", + "d) 8 days", + ], + correctAnswerIndex: 1, + Solution: + "Explanation: In a day, the factory produces 100 toys. In a week (7 days), it will produce 600 toys."), + QuestionModel( + question: + "7. If two plumbers can fix a leak in 2 hours, how long will it take three plumbers to fix the same leak?", + options: [ + "a) 1 hour", + "b) 1.5 hours", + "c) 2 hours", + "d) 3 hours", + ], + correctAnswerIndex: 2, + Solution: + "Explanation: The work is directly proportional to the number of workers. If two plumbers can fix the leak in 2 hours, three plumbers will still take 2 hours to complete the same job."), + QuestionModel( + question: + "8. If a gardener can mow a lawn in 5 hours, how long will it take the gardener to mow three lawns?", + options: [ + "a) 5 hours", + "b) 10 hours", + "c) 15 hours", + "d) 20 hours", + ], + correctAnswerIndex: 1, + Solution: + "Explanation: Mowing one lawn takes 5 hours. Mowing three lawns will take 5 hours/lawn * 3 lawns = 15 hours."), + QuestionModel( + question: + "9. If a baker can bake 120 bread loaves in 2 hours, how many loaves can the baker bake in 5 hours?", + options: [ + "a) 150 loaves", + "b) 200 loaves", + "c) 250 loaves", + "d) 300 loaves", + ], + correctAnswerIndex: 3, + Solution: + "Explanation: The baker's work rate is 120 loaves/2 hours = 60 loaves per hour. In 5 hours, the baker can bake 60 loaves/hour * 5 hours = 300 loaves."), + QuestionModel( + question: + "10. If a construction team can build a house in 8 weeks, how long will it take two teams, working simultaneously, to build the same house?", + options: [ + "a) 4 weeks", + "b) 5 weeks", + "c) 6 weeks", + "d) 7 weeks", + ], + correctAnswerIndex: 0, + Solution: + "Explanation: If one team can build the house in 8 weeks, two teams working together can complete the house in half the time, which is 4 weeks."), + QuestionModel( + question: + "11. If a car travels 240 miles in 4 hours, what is its average speed in miles per hour (mph)?", + options: [ + "a) 60 mph", + "b) 120 mph", + "c) 40 mph", + "d) 30 mph", + ], + correctAnswerIndex: 0, + Solution: + "Explanation: Average speed is calculated as total distance divided by total time. In this case, 240 miles divided by 4 hours equals an average speed of 60 mph."), + QuestionModel( + question: + "12. If a machine can fill 60 bottles in 10 minutes, how many bottles can it fill in 1 hour?", + options: [ + "a) 6 bottles", + "b) 120 bottles", + "c) 360 bottles", + "d) 600 bottles", + ], + correctAnswerIndex: 1, + Solution: + "Explanation: In 1 minute, the machine can fill 60 bottles / 10 minutes = 6 bottles. In 1 hour (60 minutes), it can fill 6 bottles/minute * 60 minutes = 360 bottles."), + QuestionModel( + question: + "13. If a train travels 300 miles in 4 hours, what is its average speed in miles per hour (mph)?", + options: [ + "a) 75 mph", + "b) 100 mph", + "c) 150 mph", + "d) 200 mph", + ], + correctAnswerIndex: 0, + Solution: + "Explanation: Average speed is calculated as total distance divided by total time. In this case, 300 miles divided by 4 hours equals an average speed of 75 mph."), + QuestionModel( + question: + "14. If it takes 3 painters 5 hours to paint a house, how long would it take 4 painters to paint the same house?", + options: [ + "a) 6 hours", + "b) 7.5 hours", + "c) 10 hours", + "d) 12 hours", + ], + correctAnswerIndex: 1, + Solution: + "Explanation: The time required is inversely proportional to the number of painters. If it takes 3 painters 5 hours, 4 painters will take (3 painters * 5 hours) / 4 painters = 15 hours / 4 painters = 7.5 hours."), + QuestionModel( + question: + "15. If a factory can produce 240 units of a product in a day, how many days will it take to produce 1,200 units?", + options: [ + "a) 3 days", + "b) 4 days", + "c) 5 days", + "d) 6 days", + ], + correctAnswerIndex: 1, + Solution: + "Explanation: If the factory produces 240 units in a day, it will take 1,200 units / 240 units per day = 5 days to produce 1,200 units."), + QuestionModel( + question: + "16. If a computer can perform 400 calculations per second, how many calculations can it perform in 5 seconds?", + options: [ + "a) 200 calculations", + "b) 1,000 calculations", + "c) 2,000 calculations", + "d) 2,500 calculations", + ], + correctAnswerIndex: 2, + Solution: + "Explanation: If the computer can perform 400 calculations per second, it can perform 400 calculations/second * 5 seconds = 2,000 calculations in 5 seconds."), + QuestionModel( + question: + "17. If a construction crew can build 6 houses in 9 months, how many houses can they build in 3 months?", + options: [ + "a) 2 houses", + "b) 3 houses", + "c) 4 houses", + "d) 6 houses", + ], + correctAnswerIndex: 0, + Solution: + "Explanation: The number of houses built is inversely proportional to the time taken. If they can build 6 houses in 9 months, they can build (6 houses * 3 months) / 9 months = 2 houses in 3 months."), + QuestionModel( + question: + "18. If a printer can print 60 pages in 6 minutes, how many pages can it print in 1 hour?", + options: [ + "a) 60 pages", + "b) 120 pages", + "c) 360 pages", + "d) 600 pages", + ], + correctAnswerIndex: 3, + Solution: + "Explanation: In 1 minute, the printer can print 60 pages / 6 minutes = 10 pages. In 1 hour (60 minutes), it can print 10 pages/minute * 60 minutes = 600 pages."), + QuestionModel( + question: + "19. If a factory produces 300 widgets in 2 hours, how long will it take to produce 1,800 widgets?", + options: [ + "a) 4 hours", + "b) 6 hours", + "c) 8 hours", + "d) 10 hours", + ], + correctAnswerIndex: 1, + Solution: + "Explanation: If the factory produces 300 widgets in 2 hours, it will take 1,800 widgets / 300 widgets per 2 hours = 6 hours to produce 1,800 widgets."), + QuestionModel( + question: + "20. If a chef can bake 36 cupcakes in 30 minutes, how many cupcakes can the chef bake in 1 hour?", + options: [ + "a) 36 cupcakes", + "b) 72 cupcakes", + "c) 108 cupcakes", + "d) 144 cupcakes", + ], + correctAnswerIndex: 3, + Solution: + "Explanation: In 1 minute, the chef can bake 36 cupcakes / 30 minutes = 1.2 cupcakes. In 1 hour (60 minutes), the chef can bake 1.2 cupcakes/minute * 60 minutes = 72 cupcakes.") +]; + +List lcm_and_hcf = [ + QuestionModel( + question: "1. What is the LCM of 12 and 18?", + options: ["A. 24", "B. 36", "C. 48", "D. 60"], + correctAnswerIndex: 1, + Solution: + "The LCM of 12 and 18 is the smallest multiple that is divisible by both numbers. LCM(12, 18) = 36."), + QuestionModel( + question: "2. What is the HCF of 24 and 36?", + options: ["A. 2", "B. 4", "C. 6", "D. 12"], + correctAnswerIndex: 0, + Solution: + "The HCF of 24 and 36 is the largest common factor of both numbers. HCF(24, 36) = 2."), + QuestionModel( + question: "3. Find the LCM of 8, 12, and 15.", + options: ["A. 24", "B. 40", "C. 60", "D. 120"], + correctAnswerIndex: 2, + Solution: + "To find the LCM of multiple numbers, first find the LCM of pairs. LCM(8, 12) = 24 and LCM(24, 15) = 120. So, LCM(8, 12, 15) = 120."), + QuestionModel( + question: "4. Calculate the HCF of 42 and 56.", + options: ["A. 2", "B. 6", "C. 14", "D. 28"], + correctAnswerIndex: 0, + Solution: + "The HCF of 42 and 56 is 2, as it is the largest common factor of both numbers."), + QuestionModel( + question: "5. What is the LCM of 20 and 30?", + options: ["A. 20", "B. 30", "C. 60", "D. 150"], + correctAnswerIndex: 2, + Solution: + "The LCM of 20 and 30 is the smallest multiple that is divisible by both numbers. LCM(20, 30) = 60."), + QuestionModel( + question: "6. Find the HCF of 64 and 96.", + options: ["A. 8", "B. 16", "C. 32", "D. 64"], + correctAnswerIndex: 0, + Solution: + "The HCF of 64 and 96 is 8, as it is the largest common factor of both numbers."), + QuestionModel( + question: "7. What is the LCM of 5, 6, and 8?", + options: ["A. 12", "B. 24", "C. 30", "D. 40"], + correctAnswerIndex: 2, + Solution: + "To find the LCM of multiple numbers, first find the LCM of pairs. LCM(5, 6) = 30 and LCM(30, 8) = 120. So, LCM(5, 6, 8) = 120."), + QuestionModel( + question: "8. Calculate the HCF of 36 and 48.", + options: ["A. 6", "B. 12", "C. 18", "D. 24"], + correctAnswerIndex: 0, + Solution: + "The HCF of 36 and 48 is 6, as it is the largest common factor of both numbers."), + QuestionModel( + question: "9. Find the LCM of 14, 21, and 35.", + options: ["A. 70", "B. 105", "C. 140", "D. 210"], + correctAnswerIndex: 1, + Solution: + "To find the LCM of multiple numbers, first find the LCM of pairs. LCM(14, 21) = 42 and LCM(42, 35) = 210. So, LCM(14, 21, 35) = 210."), + QuestionModel( + question: "10. Determine the HCF of 60 and 75.", + options: ["A. 5", "B. 10", "C. 15", "D. 20"], + correctAnswerIndex: 2, + Solution: + "The HCF of 60 and 75 is 15, as it is the largest common factor of both numbers."), + QuestionModel( + question: "11. What is the LCM of 3 and 9?", + options: ["A. 3", "B. 6", "C. 9", "D. 18"], + correctAnswerIndex: 2, + Solution: + "The LCM of 3 and 9 is the smallest multiple that is divisible by both numbers. LCM(3, 9) = 9."), + QuestionModel( + question: "12. Calculate the HCF of 55 and 77.", + options: ["A. 5", "B. 11", "C. 15", "D. 22"], + correctAnswerIndex: 1, + Solution: + "The HCF of 55 and 77 is 11, as it is the largest common factor of both numbers."), + QuestionModel( + question: "13. Find the LCM of 7 and 14.", + options: ["A. 7", "B. 14", "C. 21", "D. 28"], + correctAnswerIndex: 1, + Solution: + "The LCM of 7 and 14 is the smallest multiple that is divisible by both numbers. LCM(7, 14) = 14."), + QuestionModel( + question: "14. Determine the HCF of 36 and 54.", + options: ["A. 6", "B. 9", "C. 12", "D. 18"], + correctAnswerIndex: 0, + Solution: + "The HCF of 36 and 54 is 6, as it is the largest common factor of both numbers."), + QuestionModel( + question: "15. What is the LCM of 16 and 24?", + options: ["A. 8", "B. 16", "C. 32", "D. 48"], + correctAnswerIndex: 3, + Solution: + "The LCM of 16 and 24 is the smallest multiple that is divisible by both numbers. LCM(16, 24) = 48."), + QuestionModel( + question: "16. Calculate the HCF of 48 and 72.", + options: ["A. 6", "B. 12", "C. 24", "D. 36"], + correctAnswerIndex: 1, + Solution: + "The HCF of 48 and 72 is 12, as it is the largest common factor of both numbers."), + QuestionModel( + question: "17. Find the LCM of 10, 15, and 20.", + options: ["A. 10", "B. 15", "C. 30", "D. 60"], + correctAnswerIndex: 3, + Solution: + "To find the LCM of multiple numbers, first find the LCM of pairs. LCM(10, 15) = 30 and LCM(30, 20) = 60. So, LCM(10, 15, 20) = 60."), + QuestionModel( + question: "18. Determine the HCF of 40 and 64.", + options: ["A. 8", "B. 16", "C. 24", "D. 32"], + correctAnswerIndex: 0, + Solution: + "The HCF of 40 and 64 is 8, as it is the largest common factor of both numbers."), + QuestionModel( + question: "19. What is the LCM of 9 and 12?", + options: ["A. 9", "B. 12", "C. 18", "D. 36"], + correctAnswerIndex: 2, + Solution: + "The LCM of 9 and 12 is the smallest multiple that is divisible by both numbers. LCM(9, 12) = 18."), + QuestionModel( + question: "20. Calculate the HCF of 84 and 120.", + options: ["A. 12", "B. 24", "C. 36", "D. 48"], + correctAnswerIndex: 0, + Solution: + "The HCF of 84 and 120 is 12, as it is the largest common factor of both numbers."), +]; diff --git a/lib/data/electrical/electricalList.dart b/lib/data/electrical/electricalList.dart new file mode 100644 index 0000000..9c345cc --- /dev/null +++ b/lib/data/electrical/electricalList.dart @@ -0,0 +1,4733 @@ +class QuestionModel { + final String question; + final List options; + final correctAnswerIndex; + final String Solution; + + const QuestionModel({ + required this.question, + required this.options, + required this.correctAnswerIndex, + required this.Solution, + }); +} + +class bits { + final List a; + bits({required this.a}); +} + +List e = [ + bits(a: acdc), + bits(a: electricVehical), + bits(a: smartGrid), + bits(a: insulation), + bits(a: highvoltage), + bits(a: lightning), + bits(a: Robotic), + bits(a: transforms), + bits(a: circuit), + bits(a: control), + bits(a: digitalelec), + bits(a: electricpower), + bits(a: electricalmechines), + bits(a: electromagneticfields), + bits(a: basicsofelectrical), + bits(a: microcontrollersandmicroprocessor), + bits(a: powerdisturbution), + bits(a: powersystem), + bits(a: powerelectronics), + bits(a: semiconductordevices), +]; + +List acdc = [ + QuestionModel( + question: + "1. In which type of circuit does the current flow continuously in one direction?", + options: [ + "a) AC circuits", + "b) DC circuits", + "c) Both AC and DC circuits", + "d) Neither AC nor DC circuits", + ], + correctAnswerIndex: 1, + Solution: + 'n a DC circuit, the current flows continuously in one direction.'), + QuestionModel( + question: + "2. What is the frequency of standard household AC power in the United States?", + options: [ + "a) 50 Hz", + "b) 60 Hz", + "c) 120 Hz", + "d) 240 Hz", + ], + correctAnswerIndex: 1, + Solution: + 'Standard household AC power in the United States has a frequency of 60 Hz.'), + QuestionModel( + question: + "3. Which of the following components is used to convert AC to DC in electronic devices?", + options: [ + "a) Transformer", + "b) Capacitor", + "c) Diode", + "d) Inductor", + ], + correctAnswerIndex: 2, + Solution: 'Diodes are used to rectify AC to DC in electronic devices.'), + QuestionModel( + question: + "4. What is the peak voltage of a sinusoidal AC waveform with a root mean square (RMS) voltage of 120 V?", + options: [ + "a) 120 V", + "b) 169.7 V", + "c) 240 V", + "d) 340.5 V", + ], + correctAnswerIndex: 1, + Solution: + "The peak voltage of a sinusoidal AC waveform is √2 times the RMS voltage, so it's approximately 120 V * √2 ≈ 169.7 V."), + QuestionModel( + question: + "5. In an AC circuit with a purely resistive load, what is the phase relationship between current and voltage?", + options: [ + "a) In-phase (0° phase difference)", + "b) 90 degrees out of phase", + "c) 180 degrees out of phase", + "d) 270 degrees out of phase", + ], + correctAnswerIndex: 0, + Solution: + ' In a purely resistive AC circuit, the current and voltage are in-phase, meaning they have a 0° phase difference.'), + QuestionModel( + question: + "6. Which type of circuit element stores energy in a magnetic field and resists changes in current?", + options: [ + "a) Resistor", + "b) Capacitor", + "c) Diode", + "d) Inductor", + ], + correctAnswerIndex: 3, + Solution: + 'An inductor stores energy in a magnetic field and resists changes in current.'), + QuestionModel( + question: + "7. What is the electrical symbol for a diode in a circuit diagram?", + options: [ + "a) R", + "b) C", + "c) D", + "d) L", + ], + correctAnswerIndex: 3, + Solution: + ' The electrical symbol for a diode in a circuit diagram is represented by the letter "D."'), + QuestionModel( + question: + "8. In a DC circuit, a 10-ohm resistor has a current of 5 amperes passing through it. What is the power dissipated in the resistor?", + options: [ + "a) 25 W", + "b) 50 W", + "c) 100 W", + "d) 250 W", + ], + correctAnswerIndex: 0, + Solution: + 'The power dissipated in a resistor can be calculated using the formula P = I²R.'), + QuestionModel( + question: + "9. In an AC circuit, a capacitor has a capacitance of 0.02 F. If the frequency is 50 Hz, what is the capacitive reactance?", + options: [ + "a) 15 ohms", + "b) 20 ohms", + "c) 25 ohms", + "d) 30 ohms", + ], + correctAnswerIndex: 2, + Solution: + 'Capacitive reactance (Xc) is calculated using the formula Xc = 1 / (2πfC).'), + QuestionModel( + question: + "10. In a DC circuit, three resistors with values of 10 ohms, 20 ohms, and 30 ohms are connected in series. If a current of 2 amperes flows through the circuit, what is the total voltage drop across the resistors?", + options: [ + "a) 20 V", + "b) 40 V", + "c) 60 V", + "d) 120 V", + ], + correctAnswerIndex: 3, + Solution: + 'In a series circuit, the total voltage drop is the sum of the voltage drops across each resistor.'), + QuestionModel( + question: + "11. In an AC circuit, the real power is 400 W, and the apparent power is 500 VA. Calculate the power factor of the circuit.", + options: [ + "a) 0.4", + "b) 0.5", + "c) 0.6", + "d) 0.8", + ], + correctAnswerIndex: 1, + Solution: + 'Power factor (PF) is calculated as the ratio of real power (P) to apparent power (S), i.e., PF = P / S.'), + QuestionModel( + question: + "12. In a DC circuit, two resistors with values of 40 ohms and 60 ohms are connected in parallel. What is the total resistance of the parallel combination?", + options: [ + "a) 24 ohms", + "b) 40 ohms", + "c) 60 ohms", + "d) 100 ohms", + ], + correctAnswerIndex: 0, + Solution: + ' In a parallel circuit, the total resistance (Rp) is calculated as 1 / Rp = 1 / R1 + 1 / R2.'), + QuestionModel( + question: + "13. In an AC circuit, a coil with an inductance of 0.1 H has a frequency of 60 Hz. What is the inductive reactance?", + options: [ + "a) 3.77 ohms", + "b) 7.54 ohms", + "c) 15.08 ohms", + "d) 30.16 ohms", + ], + correctAnswerIndex: 2, + Solution: + 'Inductive reactance (Xl) is calculated using the formula Xl = 2πfL.'), + QuestionModel( + question: + "14. In a DC circuit with two resistors in series (R1 = 20 ohms and R2 = 30 ohms), if the total voltage is 60 V, what is the voltage drop across R2?", + options: [ + "a) 10 V", + "b) 20 V", + "c) 30 V", + "d) 40 V", + ], + correctAnswerIndex: 1, + Solution: + 'In a series circuit, the voltage across each resistor depends on the ratio of its resistance to the total resistance.'), + QuestionModel( + question: + "15. Which of the following statements is true about AC voltage and DC voltage?", + options: [ + "a) AC voltage has a constant magnitude.", + "b) DC voltage periodically changes direction.", + "c) AC voltage periodically changes magnitude and direction.", + "d) DC voltage is generated by a dynamo.", + ], + correctAnswerIndex: 2, + Solution: + 'AC voltage periodically changes both magnitude and direction, while DC voltage remains constant.'), + QuestionModel( + question: + "16. What is the power factor of a purely resistive AC circuit?", + options: [ + "a) 0", + "b) 1", + "c) 0.5", + "d) 0.707", + ], + correctAnswerIndex: 1, + Solution: + 'A purely resistive AC circuit has a power factor of 1, indicating that the current and voltage are in-phase.'), + QuestionModel( + question: + "17. In an ideal diode, what is the voltage drop across it when it is conducting?", + options: [ + "a) 0 V", + "b) 1 V", + "c) 5 V", + "d) 10 V", + ], + correctAnswerIndex: 0, + Solution: + ' In an ideal diode, when it is conducting (forward-biased), it has a voltage drop of 0 V.'), + QuestionModel( + question: + "18. Which of the following components is used to smooth out voltage fluctuations in a DC power supply?", + options: [ + "a) Resistor", + "b) Capacitor", + "c) Diode", + "d) Inductor", + ], + correctAnswerIndex: 1, + Solution: + 'Capacitors are used to smooth out voltage fluctuations in a DC power supply.'), + QuestionModel( + question: + "19. What type of circuit is commonly used in homes to control the intensity of light from lamps?", + options: [ + "a) AC circuit", + "b) DC circuit", + "c) Series circuit", + "d) Parallel circuit", + ], + correctAnswerIndex: 0, + Solution: + 'AC circuits are commonly used in homes for controlling the intensity of light from lamps.'), + QuestionModel( + question: + "20. In an AC circuit with a purely capacitive load, what is the phase relationship between current and voltage?", + options: [ + "a) In-phase (0° phase difference)", + "b) 90 degrees out of phase", + "c) 180 degrees out of phase", + "d) 270 degrees out of phase", + ], + correctAnswerIndex: 2, + Solution: + ' In a purely capacitive AC circuit, the current and voltage are 180 degrees out of phase.'), +]; + +List electricVehical = [ + QuestionModel( + question: + "1. What is the primary source of power for electric vehicles (EVs)?", + options: [ + "Gasoline", + "Diesel", + "Electricity", + "Hydrogen", + ], + correctAnswerIndex: 2, + Solution: + "Electric vehicles are powered by electricity stored in batteries or supercapacitors."), + QuestionModel( + question: + "2. Which component of an electric vehicle is responsible for storing electrical energy?", + options: [ + "Alternator", + "Radiator", + "Battery", + "Exhaust system", + ], + correctAnswerIndex: 2, + Solution: "Batteries in EVs store electrical energy for propulsion."), + QuestionModel( + question: + "3. What is the term for the process of recharging an electric vehicle by plugging it into an electrical outlet?", + options: [ + "Fast fueling", + "Supercharging", + "Regeneration", + "Plugging in", + ], + correctAnswerIndex: 3, + Solution: "Plugging in an EV is a common method for recharging."), + QuestionModel( + question: + "4. What type of electric vehicle uses both an internal combustion engine and an electric motor for propulsion?", + options: [ + "Battery Electric Vehicle (BEV)", + "Hybrid Electric Vehicle (HEV)", + "Plug-in Hybrid Electric Vehicle (PHEV)", + "Fuel Cell Electric Vehicle (FCEV)", + ], + correctAnswerIndex: 1, + Solution: "HEVs combine both internal combustion and electric power."), + QuestionModel( + question: + "5. Which electric vehicle type relies on a hydrogen fuel cell to generate electricity for propulsion?", + options: [ + "Battery Electric Vehicle (BEV)", + "Hybrid Electric Vehicle (HEV)", + "Plug-in Hybrid Electric Vehicle (PHEV)", + "Fuel Cell Electric Vehicle (FCEV)", + ], + correctAnswerIndex: 3, + Solution: "FCEVs use hydrogen fuel cells to generate electricity."), + QuestionModel( + question: + "6. What is the term for the process of converting kinetic energy into electrical energy during braking in an EV?", + options: [ + "Supercharging", + "Regenerative braking", + "Battery swapping", + "Quick charging", + ], + correctAnswerIndex: 1, + Solution: + "Regenerative braking helps recharge the battery during deceleration."), + QuestionModel( + question: + "7. In an electric vehicle, what is the primary advantage of regenerative braking?", + options: [ + "Increases energy consumption", + "Reduces brake wear and extends battery life", + "Generates excessive heat", + "Decreases energy efficiency", + ], + correctAnswerIndex: 1, + Solution: + "Regenerative braking reduces wear on traditional brakes and extends the life of the battery."), + QuestionModel( + question: + "8. Which factor affects the range of an electric vehicle the most?", + options: [ + "Tire size", + "Battery capacity", + "Exterior color", + "Transmission type", + ], + correctAnswerIndex: 1, + Solution: + "The battery's capacity is a critical factor in determining the range of an EV."), + QuestionModel( + question: + "9. What is the primary benefit of Level 2 electric vehicle chargers compared to Level 1 chargers?", + options: [ + "Faster charging speed", + "More portability", + "Lower cost", + "Reduced environmental impact", + ], + correctAnswerIndex: 0, + Solution: + "Level 2 chargers provide faster charging than Level 1 chargers."), + QuestionModel( + question: + "10. Which organization developed the Combined Charging System (CCS) standard for electric vehicle fast charging?", + options: [ + "Tesla", + "SAE International", + "CHAdeMO Association", + "Nissan", + ], + correctAnswerIndex: 1, + Solution: + "SAE International developed the CCS standard for fast charging."), + QuestionModel( + question: + "11. What is the typical voltage level for Level 1 electric vehicle chargers?", + options: [ + "12V", + "120V", + "240V", + "480V", + ], + correctAnswerIndex: 1, + Solution: "Level 1 chargers typically use standard household voltage."), + QuestionModel( + question: + "12. Which type of electric vehicle charging station provides direct current (DC) fast charging?", + options: [ + "Level 1", + "Level 2", + "CHAdeMO", + "Type 2", + ], + correctAnswerIndex: 2, + Solution: "CHAdeMO is a DC fast charging standard."), + QuestionModel( + question: + "13. What is the term for the process of swapping a depleted EV battery with a fully charged one at a service station?", + options: [ + "Supercharging", + "Regeneration", + "Battery swapping", + "Quick charging", + ], + correctAnswerIndex: 2, + Solution: "Battery swapping allows for faster recharging of EVs."), + QuestionModel( + question: + "14. Which type of electric vehicle charging connector is commonly used in North America and is also known as J1772?", + options: [ + "CHAdeMO", + "Type 1", + "Type 2", + "CCS", + ], + correctAnswerIndex: 1, + Solution: "Type 1 connectors are commonly used in North America."), + QuestionModel( + question: + "15. What is the primary environmental advantage of electric vehicles compared to traditional internal combustion engine vehicles?", + options: [ + "Increased greenhouse gas emissions", + "Higher noise pollution", + "Improved air quality and reduced emissions", + "Greater fuel consumption", + ], + correctAnswerIndex: 2, + Solution: "EVs contribute to better air quality and reduced emissions."), + QuestionModel( + question: + "16. Which factor contributes to the silent operation of electric vehicles?", + options: [ + "Louder engines", + "Regenerative braking", + "Electric motors", + "Higher emissions", + ], + correctAnswerIndex: 2, + Solution: + "Electric motors are quieter than internal combustion engines."), + QuestionModel( + question: + "17. In electric vehicle terminology, what does 'kWh' represent?", + options: [ + "Kilometer per hour", + "Kilowatt-hour", + "Kilogram per watt", + "Kelvin wavelength", + ], + correctAnswerIndex: 1, + Solution: + "kWh is a unit of energy used in EVs to measure battery capacity."), + QuestionModel( + question: + "18. What is the term for the process of preheating or cooling an electric vehicle's cabin while it is still connected to a charger?", + options: [ + "Fast fueling", + "Battery swapping", + "Preconditioning", + "Regeneration", + ], + correctAnswerIndex: 2, + Solution: + "Preconditioning optimizes cabin temperature while the vehicle is charging."), + QuestionModel( + question: + "19. What is the primary reason for electric vehicles being considered more energy-efficient than internal combustion engine vehicles?", + options: [ + "Higher emissions", + "Lower efficiency of electric motors", + "Less energy lost to heat during operation", + "Increased noise pollution", + ], + correctAnswerIndex: 2, + Solution: + "Electric motors are more energy-efficient as they generate less heat."), + QuestionModel( + question: + "20. What technology is used to allow electric vehicles to communicate with the electric grid and adjust charging times for optimal efficiency?", + options: [ + "V2V communication", + "Vehicle-to-Grid (V2G)", + "GPS navigation", + "Bluetooth connectivity", + ], + correctAnswerIndex: 1, + Solution: + "V2G technology enables EVs to interact with the grid for optimized charging."), +]; + +List smartGrid = [ + QuestionModel( + question: "1. What is the main purpose of an electrical grid?", + options: [ + "Generate electricity", + "Distribute electricity", + "Store electricity", + "Control electricity", + ], + correctAnswerIndex: 1, + Solution: + "The electrical grid is designed to distribute electricity from power generation sources to end-users efficiently."), + QuestionModel( + question: + "2. What is the term for the point where electricity from various power sources comes together before entering the distribution network?", + options: [ + "Substation", + "Transformer", + "Generator", + "Grid hub", + ], + correctAnswerIndex: 0, + Solution: + "Substations collect and distribute electricity from multiple sources in the grid."), + QuestionModel( + question: + "3. In a traditional electrical grid, what is the standard frequency of alternating current (AC) power?", + options: [ + "50 Hz", + "60 Hz", + "100 Hz", + "120 Hz", + ], + correctAnswerIndex: 0, + Solution: + "In many parts of the world, the standard frequency for AC power in traditional grids is 50 Hz."), + QuestionModel( + question: + "4. What is the primary benefit of a smart grid over a traditional electrical grid?", + options: [ + "Increased power generation", + "Reduced energy consumption", + "Enhanced monitoring and control", + "Lower voltage levels", + ], + correctAnswerIndex: 2, + Solution: + "Smart grids offer improved monitoring and control capabilities, leading to better efficiency and reliability."), + QuestionModel( + question: + "5. Which technology enables two-way communication between the utility and end-users in a smart grid?", + options: [ + "RFID", + "Zigbee", + "GPS", + "AM/FM radio", + ], + correctAnswerIndex: 1, + Solution: + "Zigbee technology is often used for two-way communication in smart grids, enabling data exchange between utilities and end-users."), + QuestionModel( + question: + "6. What is the primary goal of demand response in a smart grid?", + options: [ + "Increase power generation", + "Reduce energy consumption during peak periods", + "Store excess energy", + "Control voltage levels", + ], + correctAnswerIndex: 1, + Solution: + "Demand response programs aim to reduce electricity usage during peak demand to maintain grid stability."), + QuestionModel( + question: + "7. Which component in a smart grid enables distributed generation, such as rooftop solar panels, to feed excess power back into the grid?", + options: [ + "Microgrid", + "Smart meter", + "Energy storage system", + "Voltage regulator", + ], + correctAnswerIndex: 0, + Solution: + "Microgrids allow for distributed generation and can feed excess power back into the main grid when needed."), + QuestionModel( + question: + "8. What technology allows for the integration of electric vehicles (EVs) into the smart grid, enabling vehicle-to-grid (V2G) capabilities?", + options: [ + "Vehicle control unit", + "Charging station", + "Smart inverter", + "V2G communication module", + ], + correctAnswerIndex: 3, + Solution: + "V2G communication modules enable EVs to interact with the grid, providing benefits like grid support during peak demand."), + QuestionModel( + question: + "9. What is the primary function of an energy storage system (ESS) in a smart grid?", + options: [ + "Generate electricity", + "Control voltage", + "Store excess energy", + "Distribute electricity", + ], + correctAnswerIndex: 2, + Solution: + "ESSs store surplus energy and release it when demand is high or during grid disruptions."), + QuestionModel( + question: + "10. Which communication technology is commonly used for remote meter reading and control in a smart grid?", + options: [ + "5G", + "Wi-Fi", + "PLC (Power Line Communication)", + "Satellite", + ], + correctAnswerIndex: 2, + Solution: + "PLC technology allows for data exchange over existing power lines, making it suitable for smart meter communication."), + QuestionModel( + question: + "11. In a smart grid, what is the purpose of a Phasor Measurement Unit (PMU)?", + options: [ + "Generate power", + "Measure power quality", + "Monitor voltage and current phasors in real-time", + "Control grid frequency", + ], + correctAnswerIndex: 2, + Solution: + "PMUs provide real-time measurements of voltage and current phasors, aiding in grid stability analysis."), + QuestionModel( + question: + "12. What is the primary benefit of a self-healing grid in a smart grid system?", + options: [ + "Increased energy generation", + "Enhanced grid security", + "Improved grid reliability", + "Higher energy efficiency", + ], + correctAnswerIndex: 2, + Solution: + "Self-healing grids can automatically detect and respond to faults, improving reliability."), + QuestionModel( + question: + "13. What technology is used for the integration of renewable energy sources like solar and wind into a smart grid?", + options: [ + "Diesel generators", + "Smart inverters", + "Coal-fired power plants", + "Geothermal power", + ], + correctAnswerIndex: 1, + Solution: + "Smart inverters enable the efficient integration of variable renewable energy sources into the grid."), + QuestionModel( + question: + "14. What is the term for a small-scale, localized grid that can operate independently or connect to the main grid in a smart grid system?", + options: [ + "Microgrid", + "Supergrid", + "NanoGrid", + "Hypergrid", + ], + correctAnswerIndex: 0, + Solution: + "Microgrids are small-scale grids that can operate independently or connect to the main grid as needed."), + QuestionModel( + question: + "15. What is the primary purpose of grid automation in a smart grid?", + options: [ + "Increase energy consumption", + "Decrease grid reliability", + "Automate grid operations and maintenance", + "Store excess energy", + ], + correctAnswerIndex: 2, + Solution: + "Grid automation enhances efficiency and reduces the need for manual interventions in grid management."), + QuestionModel( + question: + "16. Which technology enables dynamic pricing of electricity based on real-time demand and supply in a smart grid?", + options: [ + "Time-of-Use (TOU) rates", + "Fixed pricing", + "Peak pricing", + "Off-peak pricing", + ], + correctAnswerIndex: 0, + Solution: + "TOU rates allow for dynamic pricing, encouraging energy use during off-peak hours."), + QuestionModel( + question: + "17. What is the primary function of a distribution management system (DMS) in a smart grid?", + options: [ + "Generate electricity", + "Control voltage", + "Monitor energy consumption", + "Manage and optimize the distribution of electricity", + ], + correctAnswerIndex: 3, + Solution: + "DMS systems help utilities manage and optimize the distribution of electricity in real-time."), + QuestionModel( + question: + "18. What technology is used to protect critical grid infrastructure from cyber threats in a smart grid?", + options: [ + "Firewall", + "Smart meters", + "Energy storage", + "Solar panels", + ], + correctAnswerIndex: 0, + Solution: + "Firewalls are used to protect the smart grid from cyber threats and unauthorized access."), + QuestionModel( + question: + "19. In a smart grid, what is the primary purpose of grid resilience?", + options: [ + "Increase grid vulnerabilities", + "Maintain grid stability during adverse events", + "Control energy efficiency", + "Store excess energy", + ], + correctAnswerIndex: 1, + Solution: + "Grid resilience aims to ensure grid stability during adverse events such as storms or cyberattacks."), + QuestionModel( + question: + "20. What is the main advantage of a dynamic line rating system in a smart grid?", + options: [ + "Static power transmission", + "Increased grid congestion", + "Enhanced grid capacity utilization", + "Decreased energy generation", + ], + correctAnswerIndex: 2, + Solution: + "Dynamic line rating systems allow for better utilization of grid capacity by adjusting power transmission based on real-time conditions."), +]; + +List insulation = [ + QuestionModel( + question: + "1. What is the primary purpose of electrical insulation in electrical systems?", + options: [ + "To increase electrical conductivity", + "To reduce electrical resistance", + "To prevent the flow of electric current", + "To enhance electrical efficiency", + ], + correctAnswerIndex: 2, + Solution: + "Electrical insulation is used to block the flow of electric current and ensure safety."), + QuestionModel( + question: + "2. Which material is commonly used as an electrical insulator in power cables?", + options: [ + "Copper", + "Aluminum", + "PVC (Polyvinyl Chloride)", + "Silver", + ], + correctAnswerIndex: 2, + Solution: "PVC is a common insulating material in power cables."), + QuestionModel( + question: + "3. Dielectric materials are often used in capacitors. What is their primary function in a capacitor?", + options: [ + "To conduct electricity", + "To store electrical energy", + "To generate heat", + "To amplify electrical signals", + ], + correctAnswerIndex: 1, + Solution: "Dielectric materials store electrical energy in capacitors."), + QuestionModel( + question: + "4. In electrical systems, what does the dielectric strength of a material refer to?", + options: [ + "Its ability to conduct electricity", + "Its ability to resist heat", + "Its ability to store electrical charge", + "Its ability to withstand electrical stress before breakdown", + ], + correctAnswerIndex: 3, + Solution: + "Dielectric strength indicates a material's ability to resist electrical breakdown."), + QuestionModel( + question: + "5. What is the primary role of insulating bushings in high-voltage electrical equipment?", + options: [ + "To increase electrical resistance", + "To provide mechanical support", + "To reduce dielectric strength", + "To enhance electrical conductivity", + ], + correctAnswerIndex: 1, + Solution: + "Insulating bushings support high-voltage components and prevent electrical discharge."), + QuestionModel( + question: + "6. Which property of dielectric materials determines their ability to store electrical energy in capacitors?", + options: [ + "Permittivity", + "Resistance", + "Conductivity", + "Elasticity", + ], + correctAnswerIndex: 0, + Solution: + "Permittivity is a measure of a material's ability to store electrical energy."), + QuestionModel( + question: + "7. In electrical insulation, what is the primary function of corona rings or corona shields?", + options: [ + "To promote electrical discharge", + "To reduce capacitance", + "To prevent corona discharge", + "To increase electrical resistance", + ], + correctAnswerIndex: 2, + Solution: + "Corona rings or shields are used to prevent corona discharge in high-voltage equipment."), + QuestionModel( + question: + "8. Which of the following materials is an example of a polar dielectric?", + options: [ + "Polyethylene", + "Mica", + "Glass", + "Air", + ], + correctAnswerIndex: 2, + Solution: + "Glass is an example of a polar dielectric material with permanent dipoles."), + QuestionModel( + question: + "9. What is the primary factor that affects the breakdown voltage of a dielectric material?", + options: [ + "Temperature", + "Color", + "Humidity", + "Weight", + ], + correctAnswerIndex: 0, + Solution: + "Temperature significantly affects the breakdown voltage of dielectric materials."), + QuestionModel( + question: + "10. What is the primary benefit of epoxy resin in electrical insulation?", + options: [ + "To conduct electricity", + "To increase electrical resistance", + "To improve mechanical strength and electrical insulation", + "To reduce insulation resistance", + ], + correctAnswerIndex: 2, + Solution: "Epoxy resin enhances mechanical strength and insulation."), + QuestionModel( + question: + "11. What is the main application of epoxy resin in electrical insulation?", + options: [ + "To conduct electricity", + "To increase electrical resistance", + "To improve mechanical strength and electrical insulation", + "To reduce insulation resistance", + ], + correctAnswerIndex: 2, + Solution: "Epoxy resin enhances mechanical strength and insulation."), + QuestionModel( + question: + "12. What is the primary function of an insulator on overhead power lines?", + options: [ + "To increase electrical conductivity", + "To store electrical energy", + "To support and separate conductors", + "To reduce dielectric strength", + ], + correctAnswerIndex: 2, + Solution: "Insulators on power lines support and separate conductors."), + QuestionModel( + question: + "13. In electrical engineering, what is the dielectric constant of a material also referred to as?", + options: [ + "Relative humidity", + "Permittivity", + "Electrical resistance", + "Thermal conductivity", + ], + correctAnswerIndex: 1, + Solution: "The dielectric constant is also known as permittivity."), + QuestionModel( + question: + "14. What is the primary reason for using porcelain insulators in high-voltage applications?", + options: [ + "Low cost", + "High electrical conductivity", + "Excellent mechanical strength and electrical insulation", + "Easy recyclability", + ], + correctAnswerIndex: 2, + Solution: + "Porcelain insulators provide strong mechanical support and high insulation."), + QuestionModel( + question: + "15. In electrical engineering, what does the term 'creepage distance' refer to in insulators?", + options: [ + "The flow of electric current", + "The distance between conductors", + "The electrical resistance", + "The surface leakage distance along the insulator", + ], + correctAnswerIndex: 3, + Solution: + "Creepage distance is the distance along the insulator surface."), + QuestionModel( + question: + "16. What is the primary reason for using insulating gloves in high-voltage electrical work?", + options: [ + "To enhance electrical conductivity", + "To reduce dielectric strength", + "To provide electrical insulation and protection to workers", + "To increase electrical resistance", + ], + correctAnswerIndex: 2, + Solution: "Insulating gloves protect workers from electrical hazards."), + QuestionModel( + question: + "17. What is the primary function of a dielectric material in a capacitor?", + options: [ + "To conduct electric current", + "To store electrical energy", + "To generate heat", + "To reduce electrical resistance", + ], + correctAnswerIndex: 1, + Solution: "Dielectric materials in capacitors store electrical energy."), + QuestionModel( + question: + "18. What is the primary purpose of surge arresters or lightning arresters?", + options: [ + "To increase electrical conductivity", + "To prevent electrical insulation", + "To dissipate lightning strikes and voltage surges", + "To reduce electrical resistance", + ], + correctAnswerIndex: 2, + Solution: + "Surge arresters protect equipment from lightning and voltage surges."), + QuestionModel( + question: + "19. What is the main application of epoxy resin in electrical insulation?", + options: [ + "To conduct electricity", + "To increase electrical resistance", + "To improve mechanical strength and electrical insulation", + "To reduce insulation resistance", + ], + correctAnswerIndex: 2, + Solution: "Epoxy resin enhances mechanical strength and insulation."), + QuestionModel( + question: + "20. What is the primary function of an insulator on overhead power lines?", + options: [ + "To increase electrical conductivity", + "To store electrical energy", + "To support and separate conductors", + "To reduce dielectric strength", + ], + correctAnswerIndex: 2, + Solution: "Insulators on power lines support and separate conductors."), +]; + +List highvoltage = [ + QuestionModel( + question: + "1. What is considered a typical voltage level for high-voltage engineering applications?", + options: [ + "A) 50 volts", + "B) 120 volts", + "C) 1000 volts", + "D) 10,000 volts", + ], + correctAnswerIndex: 2, + Solution: + "High-voltage engineering deals with voltages above 1000 volts."), + QuestionModel( + question: + "2. In high-voltage engineering, what is the primary purpose of an insulator?", + options: [ + "A) To conduct electricity", + "B) To store electrical energy", + "C) To support and separate conductors", + "D) To increase voltage", + ], + correctAnswerIndex: 2, + Solution: + "Insulators are used to support and separate conductors to prevent electrical leakage."), + QuestionModel( + question: + "3. Which gas is commonly used as an insulating medium in high-voltage equipment like transformers and circuit breakers?", + options: [ + "A) Oxygen", + "B) Carbon dioxide", + "C) Nitrogen", + "D) Sulfur hexafluoride (SF6)", + ], + correctAnswerIndex: 3, + Solution: + "SF6 is a widely used insulating gas in high-voltage equipment."), + QuestionModel( + question: + "4. What is the primary function of a corona ring or grading ring in high-voltage applications?", + options: [ + "A) To create sparks and discharges", + "B) To reduce corona and radio interference", + "C) To increase voltage levels", + "D) To conduct electricity", + ], + correctAnswerIndex: 1, + Solution: + "Corona rings help reduce corona discharge and associated radio interference."), + QuestionModel( + question: + "5. What is the primary objective of a high-voltage withstand test?", + options: [ + "A) To determine the cable length", + "B) To assess the energy storage capacity", + "C) To verify the insulation integrity", + "D) To measure the current flow", + ], + correctAnswerIndex: 2, + Solution: + "High-voltage withstand tests are conducted to ensure the insulation can withstand high voltage without breakdown."), + QuestionModel( + question: + "6. What is the primary purpose of a surge arrester in high-voltage systems?", + options: [ + "A) To increase voltage", + "B) To amplify current", + "C) To protect against voltage surges", + "D) To create sparks", + ], + correctAnswerIndex: 2, + Solution: + "Surge arresters safeguard against voltage surges and overvoltages."), + QuestionModel( + question: + "7. In high-voltage transmission lines, what is the function of corona rings?", + options: [ + "A) To create ozone", + "B) To increase electrical losses", + "C) To minimize corona discharge", + "D) To enhance energy efficiency", + ], + correctAnswerIndex: 2, + Solution: + "Corona rings are used to minimize corona discharge and associated power losses."), + QuestionModel( + question: + "8. What is the primary purpose of a high-voltage cable sheath or jacket?", + options: [ + "A) To carry electrical current", + "B) To insulate conductors", + "C) To protect against environmental factors", + "D) To increase capacitance", + ], + correctAnswerIndex: 2, + Solution: + "Cable sheaths provide protection against environmental conditions."), + QuestionModel( + question: + "9. What is the primary reason for using high-voltage testing and diagnostic equipment?", + options: [ + "A) To reduce voltage levels", + "B) To increase electrical resistance", + "C) To assess the condition of high-voltage equipment", + "D) To create electrical sparks", + ], + correctAnswerIndex: 2, + Solution: + "High-voltage testing and diagnostic equipment are used to evaluate the condition of high-voltage systems."), + QuestionModel( + question: + "10. In high-voltage engineering, what is the primary function of a surge arrester?", + options: [ + "A) To create voltage surges", + "B) To amplify voltage levels", + "C) To protect against overvoltages", + "D) To conduct electrical current", + ], + correctAnswerIndex: 2, + Solution: + "Surge arresters protect against overvoltages and voltage surges."), + QuestionModel( + question: + "11. Which factor determines the breakdown voltage of insulating materials?", + options: [ + "A) Material density", + "B) Material color", + "C) Material thickness", + "D) Material dielectric strength", + ], + correctAnswerIndex: 3, + Solution: + "Dielectric strength determines the breakdown voltage of insulating materials."), + QuestionModel( + question: + "12. What is the primary function of a high-voltage switchgear?", + options: [ + "A) To increase voltage", + "B) To generate electrical sparks", + "C) To control and isolate electrical circuits", + "D) To reduce voltage", + ], + correctAnswerIndex: 2, + Solution: + "High-voltage switchgear is used to control and isolate electrical circuits at high voltage levels."), + QuestionModel( + question: + "13. What is the primary purpose of a bushing in high-voltage equipment?", + options: [ + "A) To create voltage surges", + "B) To amplify electrical losses", + "C) To provide a high resistance path", + "D) To insulate and connect conductors", + ], + correctAnswerIndex: 3, + Solution: + "Bushings insulate and connect conductors in high-voltage equipment."), + QuestionModel( + question: "14. In high-voltage engineering, what is a corona discharge?", + options: [ + "A) A type of high-voltage surge", + "B) An intentional electrical spark", + "C) A partial discharge in the air", + "D) A surge in current flow", + ], + correctAnswerIndex: 2, + Solution: + "Corona discharge is a partial discharge in the air that can occur in high-voltage systems."), + QuestionModel( + question: + "15. What is the primary purpose of a high-voltage testing laboratory?", + options: [ + "A) To create electrical sparks", + "B) To increase voltage levels", + "C) To conduct experiments with low voltage", + "D) To perform high-voltage tests and research", + ], + correctAnswerIndex: 3, + Solution: + "High-voltage testing laboratories are used for conducting high-voltage tests and research."), + QuestionModel( + question: + "16. What is the main objective of a partial discharge test in high-voltage equipment?", + options: [ + "A) To assess the energy storage capacity", + "B) To increase voltage levels", + "C) To detect and evaluate insulation defects", + "D) To measure electrical resistance", + ], + correctAnswerIndex: 2, + Solution: + "Partial discharge tests are used to detect and assess insulation defects in high-voltage equipment."), + QuestionModel( + question: + "17. In high-voltage engineering, what is the function of a surge diverter?", + options: [ + "A) To create voltage surges", + "B) To protect against voltage surges", + "C) To amplify current flow", + "D) To insulate conductors", + ], + correctAnswerIndex: 1, + Solution: + "Surge diverters protect against voltage surges and overvoltages."), + QuestionModel( + question: + "18. What is the primary purpose of a high-voltage circuit breaker?", + options: [ + "A) To conduct electrical current", + "B) To protect against voltage surges", + "C) To amplify voltage levels", + "D) To increase capacitance", + ], + correctAnswerIndex: 1, + Solution: + "High-voltage circuit breakers protect against voltage surges and overcurrent."), + QuestionModel( + question: + "19. In high-voltage engineering, what is the primary function of a surge impedance loading (SIL) test?", + options: [ + "A) To increase voltage levels", + "B) To measure voltage surges", + "C) To assess the transmission line's capability", + "D) To create electrical sparks", + ], + correctAnswerIndex: 2, + Solution: + "SIL tests assess the transmission line's capability to handle voltage surges and loads."), + QuestionModel( + question: + "20. In high-voltage engineering, what is the primary function of a surge impedance loading (SIL) test?", + options: [ + "A) To increase voltage levels", + "B) To measure voltage surges", + "C) To assess the transmission line's capability", + "D) To create electrical sparks", + ], + correctAnswerIndex: 2, + Solution: + "SIL tests assess the transmission line's capability to handle voltage surges and loads."), +]; + +List lightning = [ + QuestionModel( + question: + "1. What is the primary purpose of a lightning protection system?", + options: [ + "To attract lightning strikes", + "To prevent lightning strikes", + "To conduct lightning safely to the ground", + "To create lightning indoors", + ], + correctAnswerIndex: 2, + Solution: + "The primary purpose of a lightning protection system is to conduct lightning safely to the ground, reducing the risk of damage."), + QuestionModel( + question: + "2. Which component of a lightning protection system is responsible for intercepting lightning strikes?", + options: [ + "Grounding electrode", + "Lightning rod or air terminal", + "Surge protector", + "Grounding conductor", + ], + correctAnswerIndex: 1, + Solution: + "The lightning rod or air terminal is responsible for intercepting lightning strikes and providing a safe path for current to the ground."), + QuestionModel( + question: + "3. What is the purpose of a surge protector in a lightning protection system?", + options: [ + "To attract lightning strikes", + "To increase electrical resistance", + "To divert excess voltage to the ground", + "To amplify lightning strikes", + ], + correctAnswerIndex: 2, + Solution: + "The purpose of a surge protector in a lightning protection system is to divert excess voltage from lightning strikes to the ground."), + QuestionModel( + question: + "4. What is the function of the grounding electrode in a lightning protection system?", + options: [ + "To attract lightning strikes", + "To create a lightning-safe zone", + "To conduct lightning to the sky", + "To establish a connection to the earth", + ], + correctAnswerIndex: 3, + Solution: + "The grounding electrode's function is to establish a connection to the earth, providing a safe path for lightning to dissipate."), + QuestionModel( + question: + "5. What type of grounding is typically used in lightning protection systems for buildings?", + options: [ + "Grounding through metal pipes", + "Grounding through trees", + "Grounding through concrete structures", + "Grounding with metal rods or plates", + ], + correctAnswerIndex: 3, + Solution: + "Metal rods or plates are commonly used for grounding in lightning protection systems for buildings."), + QuestionModel( + question: + "6. In a lightning protection system, what is the purpose of a down conductor?", + options: [ + "To increase electrical resistance", + "To provide a connection to the sky", + "To conduct lightning current to the ground", + "To attract lightning strikes", + ], + correctAnswerIndex: 2, + Solution: + "The purpose of a down conductor is to safely route lightning current to the ground."), + QuestionModel( + question: + "7. What is the primary function of a ground ring or ground grid in a grounding system?", + options: [ + "To attract lightning strikes", + "To create a lightning-safe zone", + "To disperse lightning energy over a wide area", + "To store electrical energy", + ], + correctAnswerIndex: 2, + Solution: + "A ground ring or ground grid's primary function is to disperse lightning energy over a wide area, reducing the risk of damage."), + QuestionModel( + question: + "8. What is the role of a surge arrester in a lightning protection system?", + options: [ + "To create lightning indoors", + "To increase electrical resistance", + "To provide a path for lightning strikes", + "To protect against voltage surges caused by lightning", + ], + correctAnswerIndex: 3, + Solution: + "A surge arrester's role is to protect against voltage surges caused by lightning strikes."), + QuestionModel( + question: + "9. Which type of grounding system is typically used for substations and power plants to protect against lightning?", + options: [ + "Grounding through water pipes", + "Grounding through tall trees", + "Grounding through metal fences", + "Grounding with ground rods and conductors", + ], + correctAnswerIndex: 3, + Solution: + "Ground rods and conductors are commonly used in substations for lightning protection."), + QuestionModel( + question: + "10. What is the purpose of a lightning protection air terminal on a building?", + options: [ + "To create a lightning-safe zone indoors", + "To conduct lightning current to the ground", + "To divert lightning away from the building", + "To attract lightning strikes", + ], + correctAnswerIndex: 3, + Solution: + "A lightning protection air terminal's purpose is to attract lightning strikes and protect the building."), + QuestionModel( + question: + "11. Which type of grounding is typically used for electronic equipment and data centers to protect against lightning-induced surges?", + options: [ + "Grounding through wooden posts", + "Grounding through metal pipes", + "Grounding through ground rods and conductors", + "Grounding through plastic conduits", + ], + correctAnswerIndex: 2, + Solution: + "Ground rods and conductors are essential for protecting electronic equipment from lightning surges."), + QuestionModel( + question: + "12. What is the primary purpose of surge protection devices (SPDs) in a lightning protection system?", + options: [ + "To enhance electrical resistance", + "To amplify lightning strikes", + "To provide a direct path to the sky", + "To protect against voltage surges caused by lightning", + ], + correctAnswerIndex: 3, + Solution: + "Surge protection devices (SPDs) protect against voltage surges resulting from lightning strikes."), + QuestionModel( + question: + "13. In a lightning protection system, what is the role of the equipotential bonding system?", + options: [ + "To increase electrical resistance", + "To connect all metallic parts to the ground", + "To attract lightning strikes", + "To isolate all electrical equipment", + ], + correctAnswerIndex: 1, + Solution: + "The equipotential bonding system connects all metallic parts to the ground, ensuring they are at the same electrical potential."), + QuestionModel( + question: + "14. What is the purpose of a rolling sphere method analysis in lightning protection design?", + options: [ + "To simulate the motion of lightning rods", + "To determine the height of lightning rods", + "To calculate the radius of protection for lightning rods", + "To create lightning indoors", + ], + correctAnswerIndex: 2, + Solution: + "The rolling sphere method is used to calculate the radius of protection for lightning rods."), + QuestionModel( + question: + "15. What is the primary function of a mesh or grid system in lightning protection design?", + options: [ + "To store electrical energy", + "To create a lightning-safe zone indoors", + "To disperse lightning energy over a wide area", + "To amplify lightning strikes", + ], + correctAnswerIndex: 2, + Solution: + "Mesh or grid systems help disperse lightning energy over a broader surface, reducing the risk of damage."), + QuestionModel( + question: + "16. In a lightning protection system, what is the function of a surge current conductor?", + options: [ + "To store electrical energy", + "To provide a connection to the sky", + "To conduct lightning current to the ground", + "To create lightning indoors", + ], + correctAnswerIndex: 2, + Solution: + "The function of a surge current conductor is to conduct lightning current safely to the ground."), + QuestionModel( + question: + "17. What is the primary purpose of surge suppressors in a lightning protection system?", + options: [ + "To reduce electrical resistance", + "To increase the risk of lightning strikes", + "To provide protection against voltage surges", + "To amplify lightning strikes", + ], + correctAnswerIndex: 2, + Solution: + "Surge suppressors provide protection against voltage surges, including those caused by lightning."), + QuestionModel( + question: + "18. What is the primary purpose of a lightning protection risk assessment?", + options: [ + "To attract lightning strikes", + "To assess the risk of lightning damage to a structure", + "To increase the height of lightning rods", + "To determine the color of lightning rods", + ], + correctAnswerIndex: 1, + Solution: + "The primary purpose of a lightning protection risk assessment is to evaluate the risk of lightning damage to a structure."), + QuestionModel( + question: + "19. In a lightning protection system, what is the primary role of a strike termination device?", + options: [ + "To attract lightning strikes", + "To create lightning indoors", + "To prevent lightning strikes", + "To provide a safe path for lightning current", + ], + correctAnswerIndex: 3, + Solution: + "A strike termination device's primary role is to provide a safe path for lightning current to reach the ground."), + QuestionModel( + question: + "20. What is the primary function of a grounding test system in a lightning protection system?", + options: [ + "To store electrical energy", + "To assess the effectiveness of grounding", + "To create lightning indoors", + "To amplify lightning strikes", + ], + correctAnswerIndex: 1, + Solution: + "A grounding test system is used to assess the effectiveness of the grounding system in a lightning protection setup."), +]; + +List Robotic = [ + QuestionModel( + question: + "1. What is the primary objective of using robotics in electrical engineering?", + options: [ + "Automate control systems", + "Enhance human creativity", + "Achieve energy conservation", + "Facilitate communication networks", + ], + correctAnswerIndex: 0, + Solution: + "Robotics in electrical engineering is primarily used to automate and control various processes and systems."), + QuestionModel( + question: + "2. In the context of electrical engineering, what is a 'pick and place' robot commonly used for?", + options: [ + "Welding", + "Assembling components", + "Data analysis", + "Energy generation", + ], + correctAnswerIndex: 1, + Solution: + "'Pick and place' robots are often used for assembling electrical components and products."), + QuestionModel( + question: + "3. What does the term 'PLC' stand for in the field of automation in electrical engineering?", + options: [ + "Programmable Logic Controller", + "Power Line Communication", + "Personal Locomotion Crawler", + "Processing Level Controller", + ], + correctAnswerIndex: 0, + Solution: + "PLCs are essential for controlling and automating industrial processes in electrical engineering."), + QuestionModel( + question: + "4. In automation, what is the primary function of a PID controller?", + options: [ + "Process digitalization", + "Power distribution", + "Process optimization", + "Power generation", + ], + correctAnswerIndex: 2, + Solution: + "PID controllers are used to regulate and optimize processes in automation."), + QuestionModel( + question: + "5. What is the primary advantage of using robotic arms in electrical engineering applications?", + options: [ + "Human-like decision-making", + "Improved energy efficiency", + "High precision and repeatability", + "Real-time communication networks", + ], + correctAnswerIndex: 2, + Solution: + "Robotic arms provide precise and repeatable movements, crucial for various electrical engineering tasks."), + QuestionModel( + question: + "6. Which type of robot is designed to operate in hazardous environments, such as nuclear power plants or chemical facilities?", + options: [ + "Industrial robot", + "Autonomous vehicle", + "Teleoperated robot", + "Robotic manipulator", + ], + correctAnswerIndex: 2, + Solution: + "Teleoperated robots are controlled by humans from a safe distance and are used in hazardous environments."), + QuestionModel( + question: + "7. In automation, what is the primary purpose of a SCADA system?", + options: [ + "Robot vision", + "Remote monitoring and control", + "Material handling", + "Human-robot interaction", + ], + correctAnswerIndex: 1, + Solution: + "SCADA systems are used to remotely monitor and control industrial processes and electrical systems."), + QuestionModel( + question: + "8. What does 'AI' stand for in the context of robotics and automation?", + options: [ + "Advanced Integration", + "Automated Information", + "Artificial Intelligence", + "Automated Innovation", + ], + correctAnswerIndex: 2, + Solution: + "AI plays a significant role in enhancing the decision-making and autonomy of robots in automation."), + QuestionModel( + question: + "9. Which type of robot is typically used for tasks such as vacuum cleaning, lawn mowing, and warehouse inventory management?", + options: [ + "Industrial robot", + "Service robot", + "Autonomous vehicle", + "Robotic manipulator", + ], + correctAnswerIndex: 1, + Solution: + "Service robots perform various tasks to assist humans in non-industrial settings."), + QuestionModel( + question: + "10. What is the primary benefit of collaborative robots (cobots) in electrical engineering applications?", + options: [ + "Reduced automation costs", + "Enhanced data analysis", + "Increased energy consumption", + "Improved human-robot interaction", + ], + correctAnswerIndex: 3, + Solution: + "Cobots are designed to work alongside humans, improving collaboration and safety."), + QuestionModel( + question: + "11. In electrical engineering, what is the main function of a vision system in a robot?", + options: [ + "Providing real-time vision to operators", + "Controlling robot movements", + "Analyzing visual data from the environment", + "Transmitting data wirelessly", + ], + correctAnswerIndex: 2, + Solution: + "Vision systems help robots perceive and interpret their surroundings."), + QuestionModel( + question: + "12. Which term describes the practice of using robots to perform tasks in an environment without human intervention?", + options: [ + "Teleoperation", + "Telecommunication", + "Automation", + "Autonomy", + ], + correctAnswerIndex: 3, + Solution: + "Autonomy refers to robots performing tasks without direct human intervention."), + QuestionModel( + question: + "13. What is the primary advantage of using a robotic welding system in electrical engineering and manufacturing?", + options: [ + "Enhanced human creativity", + "Improved energy conservation", + "Precise and consistent welds", + "Remote communication networks", + ], + correctAnswerIndex: 2, + Solution: + "Robotic welding systems provide consistent and high-quality welds."), + QuestionModel( + question: + "14. What is the primary role of haptic feedback in robotic systems?", + options: [ + "Data analysis", + "Human-robot interaction", + "Enhancing communication networks", + "Providing touch sensations to the user", + ], + correctAnswerIndex: 3, + Solution: + "Haptic feedback enables users to feel tactile sensations through the robot's interface."), + QuestionModel( + question: + "15. What is the primary purpose of a safety interlock system in robotic automation?", + options: [ + "Human-robot interaction", + "Enhanced vision systems", + "Ensuring safe robot operation", + "Data analysis", + ], + correctAnswerIndex: 2, + Solution: + "Safety interlock systems are essential for maintaining a safe working environment when robots are in use."), + QuestionModel( + question: + "16. What is the primary role of ROS (Robot Operating System) in robotic applications?", + options: [ + "Monitoring power distribution", + "Enhancing robot mobility", + "Controlling voltage levels", + "Providing a software framework for robot development", + ], + correctAnswerIndex: 3, + Solution: + "ROS is a framework that simplifies robot software development and control."), + QuestionModel( + question: + "17. What is the term for a robot that is capable of learning from its interactions and improving its performance over time?", + options: [ + "Automated robot", + "Machine learning robot", + "Human-robot interface", + "Robot manipulator", + ], + correctAnswerIndex: 1, + Solution: + "Machine learning robots can adapt and improve their performance based on experience."), + QuestionModel( + question: + "18. In electrical engineering, what is the primary role of a collaborative robot in human-robot collaboration?", + options: [ + "Minimizing human involvement", + "Enhancing automation efficiency", + "Ensuring complete automation", + "Working alongside and assisting humans", + ], + correctAnswerIndex: 3, + Solution: + "Collaborative robots are designed to collaborate with and assist humans in various tasks."), + QuestionModel( + question: + "19. What technology is used to enable wireless communication between robots in a networked environment?", + options: [ + "Artificial Intelligence", + "5G technology", + "Power distribution systems", + "SCADA systems", + ], + correctAnswerIndex: 1, + Solution: + "5G technology enables high-speed wireless communication, which is beneficial for networked robots."), + QuestionModel( + question: + "20. What does 'ROS-Industrial' refer to in the context of robotic automation in electrical engineering?", + options: [ + "A popular robotic cleaning system", + "A standard robot safety certification", + "An open-source project for integrating robots in industrial applications", + "A specialized robot manipulator", + ], + correctAnswerIndex: 2, + Solution: + "ROS-Industrial is an open-source project aimed at integrating robots into industrial settings."), +]; + +List transforms = [ + QuestionModel( + question: + "1. What is the primary function of a transformer in an electrical system?", + options: [ + "A) To generate electrical energy", + "B) To store electrical energy", + "C) To convert high voltage to low voltage", + "D) To increase electrical resistance", + ], + correctAnswerIndex: 2, + Solution: + "Transformers are primarily used to change the voltage level from high to low or vice versa, enabling efficient electrical power transmission."), + QuestionModel( + question: + "2. What type of transformer core is most commonly used in power distribution applications?", + options: [ + "A) Iron core", + "B) Copper core", + "C) Aluminum core", + "D) Air core", + ], + correctAnswerIndex: 0, + Solution: + "Iron cores are commonly used in power distribution transformers due to their high magnetic permeability."), + QuestionModel( + question: + "3. In a step-up transformer, which of the following statements is true?", + options: [ + "A) Primary voltage is higher than secondary voltage", + "B) Primary voltage is lower than secondary voltage", + "C) Primary and secondary voltages are equal", + "D) There is no voltage change", + ], + correctAnswerIndex: 0, + Solution: + "In a step-up transformer, the primary voltage is lower than the secondary voltage."), + QuestionModel( + question: + "4. What is the primary purpose of the oil or liquid in an oil-immersed transformer?", + options: [ + "A) To cool the transformer", + "B) To insulate the windings", + "C) To conduct electricity", + "D) To generate electrical energy", + ], + correctAnswerIndex: 0, + Solution: + "The oil or liquid in an oil-immersed transformer is primarily used for cooling."), + QuestionModel( + question: "5. What is the core material of a ferrite core transformer?", + options: [ + "A) Iron", + "B) Copper", + "C) Ferrite", + "D) Aluminum", + ], + correctAnswerIndex: 2, + Solution: + "Ferrite core transformers use ferrite material in their cores."), + QuestionModel( + question: + "6. Which type of transformer is typically used to step down high voltage to a safer level for domestic use?", + options: [ + "A) Step-up transformer", + "B) Distribution transformer", + "C) Isolation transformer", + "D) Autotransformer", + ], + correctAnswerIndex: 1, + Solution: + "Distribution transformers are used to reduce high voltage to lower levels for household consumption."), + QuestionModel( + question: + "7. What is the main purpose of an isolation transformer in electrical systems?", + options: [ + "A) To increase voltage", + "B) To eliminate electrical noise", + "C) To step down voltage", + "D) To generate electrical power", + ], + correctAnswerIndex: 1, + Solution: + "Isolation transformers are used to eliminate electrical noise and provide electrical isolation."), + QuestionModel( + question: + "8. Which type of transformer is used to connect two circuits without any electrical connection between them?", + options: [ + "A) Step-up transformer", + "B) Distribution transformer", + "C) Isolation transformer", + "D) Autotransformer", + ], + correctAnswerIndex: 2, + Solution: + "Isolation transformers provide electrical isolation between circuits."), + QuestionModel( + question: + "9. In a three-phase transformer, how many primary and secondary windings are typically present?", + options: [ + "A) 1 primary and 1 secondary winding", + "B) 1 primary and 3 secondary windings", + "C) 3 primary and 1 secondary winding", + "D) 3 primary and 3 secondary windings", + ], + correctAnswerIndex: 3, + Solution: + "A three-phase transformer usually has 3 primary and 3 secondary windings."), + QuestionModel( + question: + "10. What is the primary function of a tap changer in a transformer?", + options: [ + "A) To change the core material", + "B) To regulate the oil temperature", + "C) To adjust the turns ratio", + "D) To control the cooling system", + ], + correctAnswerIndex: 2, + Solution: + "Tap changers are used to adjust the turns ratio of a transformer and control the output voltage."), + QuestionModel( + question: + "11. Which type of transformer is used to step up or step down voltage continuously within a certain range?", + options: [ + "A) Step-up transformer", + "B) Distribution transformer", + "C) Variable transformer (Variac)", + "D) Isolation transformer", + ], + correctAnswerIndex: 2, + Solution: + "Variable transformers, such as Variacs, allow continuous adjustment of voltage within a specified range."), + QuestionModel( + question: + "12. What is the main application of a current transformer (CT)?", + options: [ + "A) Voltage transformation", + "B) Power factor correction", + "C) Current measurement and protection", + "D) Voltage regulation", + ], + correctAnswerIndex: 2, + Solution: + "Current transformers are primarily used for current measurement and protection."), + QuestionModel( + question: + "13. Which type of transformer is used to provide electrical isolation and protect sensitive equipment from electrical noise and surges?", + options: [ + "A) Step-up transformer", + "B) Distribution transformer", + "C) Isolation transformer", + "D) Autotransformer", + ], + correctAnswerIndex: 2, + Solution: + "Isolation transformers provide electrical isolation and protect equipment from electrical noise and surges."), + QuestionModel( + question: + "14. What is the primary application of a power transformer in electrical systems?", + options: [ + "A) To amplify electrical noise", + "B) To reduce electrical resistance", + "C) To supply power to the grid", + "D) To store electrical energy", + ], + correctAnswerIndex: 2, + Solution: + "Power transformers supply electrical power to the grid for distribution."), + QuestionModel( + question: + "15. In a step-down transformer, which of the following statements is true?", + options: [ + "A) Primary voltage is higher than secondary voltage", + "B) Primary voltage is lower than secondary voltage", + "C) Primary and secondary voltages are equal", + "D) There is no voltage change", + ], + correctAnswerIndex: 1, + Solution: + "In a step-down transformer, the primary voltage is higher than the secondary voltage."), + QuestionModel( + question: + "16. Which type of transformer is commonly used to match impedance in audio equipment and antennas?", + options: [ + "A) Step-up transformer", + "B) Distribution transformer", + "C) Matching transformer", + "D) Isolation transformer", + ], + correctAnswerIndex: 2, + Solution: + "Matching transformers are used to match impedance in audio equipment and antennas."), + QuestionModel( + question: + "17. What is the purpose of a conservator tank in an oil-immersed transformer?", + options: [ + "A) To store extra oil", + "B) To insulate the windings", + "C) To generate electrical power", + "D) To regulate oil pressure", + ], + correctAnswerIndex: 3, + Solution: + "Conservator tanks regulate the oil pressure in oil-immersed transformers."), + QuestionModel( + question: + "18. What is the primary material used for the winding of high-voltage power transformers?", + options: [ + "A) Copper", + "B) Aluminum", + "C) Silver", + "D) Superconductors", + ], + correctAnswerIndex: 0, + Solution: + "Copper is the primary material used for the windings of high-voltage power transformers."), + QuestionModel( + question: + "19. Which type of transformer is used to connect different voltage levels in an electrical network?", + options: [ + "A) Step-up transformer", + "B) Distribution transformer", + "C) Phase-shifting transformer", + "D) Variable transformer", + ], + correctAnswerIndex: 2, + Solution: + "Phase-shifting transformers are used to connect different voltage levels in an electrical network."), + QuestionModel( + question: + "20. Which type of transformer is used to provide multiple taps for voltage adjustment without changing the turns ratio?", + options: [ + "A) Step-up transformer", + "B) Distribution transformer", + "C) Autotransformer", + "D) Variable transformer", + ], + correctAnswerIndex: 2, + Solution: + "Autotransformers provide multiple taps for voltage adjustment without altering the turns ratio.") +]; + +List circuit = [ + QuestionModel( + question: + "1. What is the voltage across a resistor with a resistance of 10 ohms and a current of 2 amperes flowing through it?", + options: [ + "A) 20 volts", + "B) 5 volts", + "C) 0.2 volts", + "D) 12 volts", + ], + correctAnswerIndex: 1, + Solution: + " According to Ohm's Law, V = I * R, where V is the voltage, I is the current, and R is the resistance. In this case, V = 2 A * 10 Ω = 20 V.", + ), + QuestionModel( + question: + "2. In a series circuit, how does the total resistance change as you add more resistors?", + options: [ + "A) Increases", + "B) Decreases", + "C) Stays the same", + "D) Depends on the resistor values", + ], + correctAnswerIndex: 0, + Solution: + " In a series circuit, the total resistance is the sum of the individual resistances. Adding more resistors increases the total resistance.", + ), + QuestionModel( + question: + "3. What is the equivalent resistance of two 4-ohm resistors in parallel?", + options: [ + "A) 2 ohms", + "B) 8 ohms", + "C) 16 ohms", + "D) 0.5 ohms", + ], + correctAnswerIndex: 0, + Solution: + " The formula for calculating the equivalent resistance in parallel is 1/R_eq = 1/R1 + 1/R2. In this case, 1/R_eq = 1/4 + 1/4 = 1/2, so R_eq = 2 ohms.", + ), + QuestionModel( + question: + "4. Which component in a circuit stores electrical energy and releases it when the circuit is disrupted?", + options: [ + "A) Resistor", + "B) Capacitor", + "C) Inductor", + "D) Diode", + ], + correctAnswerIndex: 1, + Solution: + " Capacitors store electrical energy in the form of an electric field and release it when the circuit is disrupted.", + ), + QuestionModel( + question: + "5. Kirchhoff's current law states that the sum of currents entering a node is:", + options: [ + "A) Zero", + "B) Positive", + "C) Negative", + "D) Equal to the voltage", + ], + correctAnswerIndex: 0, + Solution: + "Kirchhoff's current law states that the sum of currents entering a node is equal to zero, indicating the conservation of electric charge.", + ), + QuestionModel( + question: + "6. In an AC circuit, what is the phase difference between current and voltage in a purely resistive component?", + options: [ + "A) 0 degrees", + "B) 90 degrees", + "C) 180 degrees", + "D) 270 degrees", + ], + correctAnswerIndex: 0, + Solution: + "In a purely resistive component, the current and voltage are in phase, which means they have a phase difference of 0 degrees.", + ), + QuestionModel( + question: "7. What does a diode do in an electrical circuit?", + options: [ + "A) Amplifies signals", + "B) Regulates voltage", + "C) Allows current to flow in one direction", + "D) Stores energy", + ], + correctAnswerIndex: 2, + Solution: + " A diode allows current to flow in one direction while blocking it in the other direction.", + ), + QuestionModel( + question: + "8. The power dissipated in a resistor with a current of 2 A and a voltage of 10 V is:", + options: [ + "A) 5 W", + "B) 20 W", + "C) 2.5 W", + "D) 12.5 W", + ], + correctAnswerIndex: 1, + Solution: + " Power (P) = Voltage (V) * Current (I). In this case, P = 10 V * 2 A = 20 W.", + ), + QuestionModel( + question: + "9. Which component in a circuit stores electrical energy and releases it when the circuit is disrupted?", + options: [ + "A) Resistor", + "B) Capacitor", + "C) Inductor", + "D) Diode", + ], + correctAnswerIndex: 1, + Solution: + "Capacitors store electrical energy in the form of an electric field and release it when the circuit is disrupted.", + ), + QuestionModel( + question: "10. What is the function of a transformer in an AC circuit?", + options: [ + "A) Regulate voltage", + "B) Store energy", + "C) Convert AC to DC", + "D) Change the frequency of AC", + ], + correctAnswerIndex: 0, + Solution: + "Transformers are used to regulate voltage in AC circuits by changing the turns ratio.", + ), + QuestionModel( + question: + "11. When capacitors are connected in series, their total capacitance:", + options: [ + "A) Increases", + "B) Decreases", + "C) Stays the same", + "D) Depends on the individual capacitance values", + ], + correctAnswerIndex: 1, + Solution: + " When capacitors are connected in series, their total capacitance decreases, and the formula for the reciprocal of the total capacitance is 1/C_eq = 1/C1 + 1/C2.", + ), + QuestionModel( + question: + "12. What is the relationship between resistance, current, and voltage in a parallel circuit?", + options: [ + "A) Resistance decreases as current increases", + "B) Resistance increases as voltage increases", + "C) Resistance is independent of current and voltage", + "D) Resistance increases as current increases", + ], + correctAnswerIndex: 2, + Solution: + " In a parallel circuit, resistance is independent of current and voltage.", + ), + QuestionModel( + question: + "13. What is the phase difference between current and voltage in a purely capacitive component in an AC circuit?", + options: [ + "A) 0 degrees", + "B) 90 degrees", + "C) 180 degrees", + "D) 270 degrees", + ], + correctAnswerIndex: 1, + Solution: + "In a purely capacitive component, the current lags behind the voltage by 90 degrees.", + ), + QuestionModel( + question: + "14. Which law states that the electromotive force (EMF) in a closed circuit is equal to the voltage drop across the circuit's elements?", + options: [ + "A) Ohm's Law", + "B) Faraday's Law", + "C) Kirchhoff's Voltage Law", + "D) Ampere's Law", + ], + correctAnswerIndex: 2, + Solution: + " Kirchhoff's Voltage Law states that the sum of the EMF and the voltage drops in a closed circuit is zero.", + ), + QuestionModel( + question: + "15. What is the purpose of a rectifier in an electrical circuit?", + options: [ + "A) Regulate voltage", + "B) Store energy", + "C) Convert AC to DC", + "D) Change the frequency of AC", + ], + correctAnswerIndex: 2, + Solution: + " Rectifiers are used to convert alternating current (AC) into direct current (DC).", + ), +]; + +List control = [ + QuestionModel( + question: "1. What is the primary objective of a control system?", + options: [ + "a) To maximize errors", + "b) To minimize control effort", + "c) To ensure stability and desired performance", + "d) To introduce delays in the system", + ], + correctAnswerIndex: 2, + Solution: + ' The primary objective of a control system is to maintain system stability and achieve desired performance specifications.'), + QuestionModel( + question: "2. In a control system, what is feedback?", + options: [ + "a) A type of controller", + "b) A reference signal", + "c) The process of comparing the output with the input", + "d) The control signal to the actuator", + ], + correctAnswerIndex: 2, + Solution: + "Feedback in a control system involves comparing the system's output with the desired input or reference signal."), + QuestionModel( + question: + "3. Which type of control action is used to eliminate steady-state error in a control system?", + options: [ + "a) Proportional control", + "b) Integral control", + "c) Derivative control", + "d) Feedforward control", + ], + correctAnswerIndex: 1, + Solution: + ' Integral control is used to eliminate steady-state error by continuously adjusting the control signal based on the accumulated error over time.'), + QuestionModel( + question: "4. What is the Laplace transform used for in control systems?", + options: [ + "a) To convert differential equations into algebraic equations", + "b) To convert digital signals to analog signals", + "c) To analyze mechanical systems", + "d) To design compensators", + ], + correctAnswerIndex: 0, + Solution: + 'The Laplace transform is used to simplify the analysis of control systems by converting differential equations into algebraic equations.'), + QuestionModel( + question: + """5. In a control system, what does the term "open-loop control" refer to?""", + options: [ + "a) A system without any control components", + "b) A system that relies on feedback for control", + "c) A system where the control action depends on the system output", + "d) A system that does not use feedback for control", + ], + correctAnswerIndex: 3, + Solution: + " Open-loop control systems do not use feedback to adjust the control action based on the system's output."), + QuestionModel( + question: + "6. What is the main disadvantage of a high-gain proportional controller (P-controller)?", + options: [ + "a) Slow response time", + "b) Reduced stability", + "c) Increased sensitivity to noise", + "d) Excessive overshoot", + ], + correctAnswerIndex: 3, + Solution: + 'High-gain P-controllers can lead to excessive overshoot and oscillations in the system.'), + QuestionModel( + question: + "7. Which type of controller is best suited for applications with rapidly changing reference signals?", + options: [ + "a) Proportional-Integral (PI) controller", + "b) Proportional-Derivative (PD) controller", + "c) Proportional-Integral-Derivative (PID) controller", + "d) Proportional (P) controller", + ], + correctAnswerIndex: 2, + Solution: + ' A PID controller is well-suited for applications with rapidly changing reference signals as it combines proportional, integral, and derivative actions.'), + QuestionModel( + question: "8. In a control system, what does 'overshoot'refer to? ", + options: [ + "a) The time it takes for the system to stabilize", + "b) The error that persists after a long time", + "c) The maximum deviation of the system output from the desired value", + "d) The control effort required to maintain stability", + ], + correctAnswerIndex: 2, + Solution: + ' Overshoot in a control system is the maximum deviation of the system output from the desired value before it settles.'), + QuestionModel( + question: + "9. A first-order control system has a time constant (τ) of 2 seconds. What is the system's natural frequency (ω_n)?", + options: [ + "a) 0.5 rad/s", + "b) 1 rad/s", + "c) 2 rad/s", + "d) 4 rad/s", + ], + correctAnswerIndex: 1, + Solution: + 'For a first-order system, the natural frequency (ω_n) is given by ω_n = 1 / τ.'), + QuestionModel( + question: + "10. In a control system, the proportional gain (Kp) is set to 10. If the error is 5 units, what is the control output (U) in a proportional controller?", + options: [ + "a) 2.5", + "b) 5", + "c) 10", + "d) 50", + ], + correctAnswerIndex: 1, + Solution: + ' In a proportional controller, the control output is given by U = Kp * error.'), + QuestionModel( + question: + "11. Calculate the damping ratio (ζ) of a second-order control system with a natural frequency (ω_n) of 3 rad/s and an overshoot of 10%.", + options: [ + "a) 0.2" + "b) 0.3" + "c) 0.4" + "d) 0.5" + ], + correctAnswerIndex: 0, + Solution: + ' The damping ratio (ζ) can be calculated using the formula: ζ = -ln(overshoot) / (√(π^2 + ln^2(overshoot))).'), + QuestionModel( + question: + "12. You have a control system with a transfer function G(s) = (K) / (s^2 + 6s + 9). Calculate the value of K that results in a critically damped response.", + options: [ + "a) 9", + "b) 18", + "c) 36", + "d) 72", + ], + correctAnswerIndex: 2, + Solution: + ' For a critically damped response, the transfer function must have repeated roots, and K should be equal to the square of the natural frequency (K = ω_n^2).'), + QuestionModel( + question: + "13. Which type of control system component is responsible for measuring the system's output?", + options: [ + "a) Actuator", + "b) Sensor", + "c) Controller", + "d) Plant", + ], + correctAnswerIndex: 1, + Solution: + "Sensors are responsible for measuring the system's output and providing feedback to the controller."), + QuestionModel( + question: "14. In a control system, what is the role of the plant?", + options: [ + "a) To control the process", + "b) To convert the control signal into physical action", + "c) To provide feedback", + "d) To process the reference input", + ], + correctAnswerIndex: 0, + Solution: + "The plant is the part of the control system that receives the control signal and produces the system's output."), + QuestionModel( + question: + "15. In a control system, what is the primary purpose of the derivative control action? ", + options: [ + "a) To eliminate steady-state error", + "b) To reduce control effort", + "c) To improve transient response", + "d) To amplify the reference input", + ], + correctAnswerIndex: 2, + Solution: + ' The derivative control action in a control system is used to improve transient response by reducing overshoot and settling time.'), + QuestionModel( + question: + "16. In a control system, what does the time constant of a first-order system represent?", + options: [ + "a) The time it takes for the output to reach its final value", + "b) The rate at which the system responds to input changes", + "c) The gain of the system", + "d) The time it takes for the system to reach 63.2% of its final value", + ], + correctAnswerIndex: 3, + Solution: + 'The time constant of a first-order system is the time it takes for the system to reach 63.2% of its final value in response to a step input.'), + QuestionModel( + question: + "17. What is the main advantage of using a lead compensator in a control system? ", + options: [ + "a) It reduces overshoot", + "b) It increases system stability", + "c) It improves transient response", + "d) It eliminates steady-state error", + ], + correctAnswerIndex: 2, + Solution: + 'A lead compensator is used to improve transient response by introducing a phase lead in the system.'), + QuestionModel( + question: + "18. Which type of control system is best suited for tracking a sinusoidal reference signal? ", + options: [ + "a) P (Proportional) control", + "b) PI (Proportional-Integral) control", + "c) PD (Proportional-Derivative) control", + "d) PID (Proportional-Integral-Derivative) control", + ], + correctAnswerIndex: 3, + Solution: + 'A PID controller is best suited for tracking sinusoidal reference signals because it combines proportional, integral, and derivative actions.'), + QuestionModel( + question: "19.What is the steady-state error in a control system? ", + options: [ + "a) The error that persists after a long time" + "b) The initial error when the system starts" + "c) The error when the system is in transient state" + "d) The error during system design" + ], + correctAnswerIndex: 0, + Solution: + ' Steady-state error is the error that remains in the system after it has reached a stable operating condition.'), + QuestionModel( + question: + "20. A proportional controller (P-controller) in a control system:", + options: [ + "a) Introduces integral action", + "b) Reduces steady-state error", + "c) Adds derivative action", + "d) Multiplies the error by a constant gain", + ], + correctAnswerIndex: 3, + Solution: + ' A proportional controller multiplies the error by a constant gain to produce the control output.'), +]; + +List digitalelec = [ + QuestionModel( + question: + "1. What is the fundamental building block of digital electronics?", + options: [ + "a) Transistor", + "b) Capacitor", + "c) Resistor", + "d) Inductor", + ], + correctAnswerIndex: 0, + Solution: + 'Transistors are the basic building blocks of digital electronics, used for amplification and switching.'), + QuestionModel( + question: "2. In binary, what does the bit '1' represent? ", + options: [ + "a) Low voltage", + "b) High voltage", + "c) Ground", + "d) No voltage", + ], + correctAnswerIndex: 1, + Solution: "In binary, '1' represents a high voltage or 'on' state."), + QuestionModel( + question: "3. What is the smallest unit of data in digital electronics?", + options: [ + "a) Byte", + "b) Bit", + "c) Nibble", + "d) Word", + ], + correctAnswerIndex: 1, + Solution: + 'A bit is the smallest unit of data in digital electronics, representing either 0 or 1.'), + QuestionModel( + question: + "4. What is the primary function of a flip-flop in digital circuits?", + options: [ + "a) Amplification", + "b) Memory", + "c) Voltage regulation", + "d) Signal processing", + ], + correctAnswerIndex: 1, + Solution: + 'Flip-flops are used for storing binary information or creating memory elements in digital circuits.'), + QuestionModel( + question: "5. Which logic gate performs the NOT operation?", + options: [ + "a) AND gate", + "b) OR gate", + "c) XOR gate", + "d) NOT gate", + ], + correctAnswerIndex: 3, + Solution: + 'The NOT gate, also known as an inverter, inverts the input signal.'), + QuestionModel( + question: "6. How many states can a single D flip-flop store?", + options: [ + "a) 1" + "b) 2" + "c) 4" + "d) 8" + ], + correctAnswerIndex: 1, + Solution: ' A single D flip-flop can store two states, 0 and 1.'), + QuestionModel( + question: "7. What is the binary equivalent of the decimal number 13?", + options: [ + "a) 1101" + "b) 1011" + "c) 1001" + "d) 1110" + ], + correctAnswerIndex: 1, + Solution: ' The binary equivalent of decimal 13 is 1101.'), + QuestionModel( + question: + "8. In a 4-bit binary number, how many unique values can be represented?", + options: [ + "a) 4", + "b) 8", + "c) 16", + "d) 32", + ], + correctAnswerIndex: 2, + Solution: 'In a 4-bit binary number, there are 2^4 = 16 unique values.'), + QuestionModel( + question: + "9. What is the purpose of a multiplexer (MUX) in digital circuits?", + options: [ + "a) Amplify signals", + "b) Combine multiple inputs into a single output", + "c) Perform mathematical calculations", + "d) Control clock signals", + ], + correctAnswerIndex: 1, + Solution: + 'A multiplexer (MUX) is used to select one of several inputs and route it to a single output.'), + QuestionModel( + question: + "10. What is the primary function of a demultiplexer (DEMUX) in digital circuits?", + options: [ + "a) Amplify signals", + "b) Split a single input into multiple outputs", + "c) Perform arithmetic operations", + "d) Store data", + ], + correctAnswerIndex: 1, + Solution: + 'A demultiplexer (DEMUX) takes a single input and routes it to one of several outputs.'), + QuestionModel( + question: + "11. Convert the binary number 1101 to its decimal equivalent. ", + options: [ + "a) 5", + "b) 8", + "c) 10", + "d) 13", + ], + correctAnswerIndex: 3, + Solution: + 'To convert binary to decimal, multiply each bit by 2^n, where n is the position of the bit.'), + QuestionModel( + question: "12. Perform the binary addition: 1101 + 1010.", + options: [ + "a) 10101", + "b) 10011", + "c) 10111", + "d) 11111", + ], + correctAnswerIndex: 1, + Solution: + 'Perform binary addition, including carry, just like decimal addition.'), + QuestionModel( + question: + "13. In a 3-input AND gate, if A = 1, B = 0, and C = 1, what is the output?", + options: [ + "a) 0", + "b) 1", + "c) 3", + "d) 2", + ], + correctAnswerIndex: 0, + Solution: + 'In a 3-input AND gate, the output is 1 only when all inputs are 1.'), + QuestionModel( + question: + "14. Convert the decimal number 25 to an 8-bit binary representation.", + options: [ + "a) 11001", + "b) 11010", + "c) 11100", + "d) 11000", + ], + correctAnswerIndex: 3, + Solution: + 'Convert decimal to binary by dividing by 2 and recording the remainders.'), + QuestionModel( + question: + "15. How many flip-flops are needed to create a 3-bit binary counter?", + options: [ + "a) 1", + "b) 2", + "c) 3", + "d) 8", + ], + correctAnswerIndex: 2, + Solution: + 'A 3-bit binary counter requires 3 flip-flops, one for each bit.'), + QuestionModel( + question: + "16. What is the hexadecimal representation of the binary number 1101101?", + options: [ + "a) 6D", + "b) 1B", + "c) 13", + "d) D6", + ], + correctAnswerIndex: 0, + Solution: + 'Hexadecimal uses 4 bits for each digit, so group the binary digits into sets of 4 and convert.'), + QuestionModel( + question: + "17. What is the primary function of a decoder in digital circuits?", + options: [ + "a) Combining multiple inputs" + "b) Generating clock signals" + "c) Converting binary numbers to decimal" + "d) Selecting one of many outputs" + ], + correctAnswerIndex: 3, + Solution: + ' A decoder is used to select one of many outputs based on a binary input.'), + QuestionModel( + question: + "18. Which logic gate performs the exclusive OR (XOR) operation?", + options: [ + "a) AND gate", + "b) OR gate", + "c) NOT gate", + "d) XOR gate", + ], + correctAnswerIndex: 3, + Solution: + ' The XOR gate produces a high output when the number of high inputs is odd.'), + QuestionModel( + question: "19. In binary, what does the bit '0' represent?", + options: [ + "a) Low voltage", + "b) High voltage", + "c) Ground", + "d) No voltage", + ], + correctAnswerIndex: 0, + Solution: """In binary, '0' represents a low voltage or "off" state."""), + QuestionModel( + question: "20. How many states can a single T flip-flop store?", + options: [ + "a) 1", + "b) 2", + "c) 4", + "d) 8", + ], + correctAnswerIndex: 1, + Solution: + 'A single T flip-flop can store two states, toggling between 0 and 1.'), +]; + +List electricpower = [ + QuestionModel( + question: + "1. What is the primary source of energy for most electric power generation?", + options: [ + "a) Fossil fuels", + "b) Nuclear energy", + "c) Solar power", + "d) Wind energy", + ], + correctAnswerIndex: 0, + Solution: + 'Fossil fuels, such as coal, natural gas, and oil, are the primary sources of energy for most electric power generation worldwide.'), + QuestionModel( + question: + "2. Which of the following is not a renewable source of energy for power generation?", + options: [ + "a) Hydroelectric power", + "b) Geothermal power", + "c) Nuclear power", + "d) Solar power", + ], + correctAnswerIndex: 2, + Solution: + 'Nuclear power is not considered a renewable source of energy, as it relies on the fission of uranium or plutonium, which is finite. '), + QuestionModel( + question: + "3. What is the typical voltage level of electricity supplied to residential homes in the United states?", + options: [ + "a) 110 volts", + "b) 220 volts", + "c) 480 volts", + "d) 1200 volts", + ], + correctAnswerIndex: 0, + Solution: + 'The typical voltage supplied to residential homes in the United States is 110 volts.'), + QuestionModel( + question: + "4. Which component in a power distribution system is responsible for stepping up voltage for long-distance transmission?", + options: [ + "a) Substation", + "b) Transformer", + "c) Generator", + "d) Circuit breaker", + ], + correctAnswerIndex: 1, + Solution: + 'Transformers are used to step up voltage for long-distance transmission to reduce energy losses.'), + QuestionModel( + question: + "5. What is the function of a circuit breaker in an electrical distribution system?", + options: [ + "a) To generate electrical power", + "b) To distribute electricity", + "c) To control voltage", + "d) To protect against overcurrent and short circuits", + ], + correctAnswerIndex: 3, + Solution: + 'Circuit breakers are designed to interrupt the flow of electricity in case of overcurrent or short circuits to prevent damage and fires.'), + QuestionModel( + question: + "6. A power plant generates electricity at 10,000 volts. If the electricity needs to be transmitted over a long distance and the transmission voltage is raised to 500,000 volts, what is the voltage step-up ratio of the transformer?", + options: [ + "a) 5", + "b) 10", + "c) 50", + "d) 500", + ], + correctAnswerIndex: 2, + Solution: + 'Voltage step-up ratio = Transmission voltage / Generation voltage = 500,000 V / 10,000 V = 50.'), + QuestionModel( + question: + "7. A wind turbine generates 2 MW of power when the wind is blowing at its rated speed. If the wind speed decreases to half of the rated speed, what will be the power output of the turbine?", + options: [ + "a) 500 kW", + "b) 1 MW", + "c) 2 MW", + "d) 4 MW", + ], + correctAnswerIndex: 0, + Solution: + 'Power is proportional to the cube of the wind speed. When the wind speed is halved, the power output becomes (1/8) of the rated power, which is 2 MW, so it becomes 0.25 MW or 250 kW.'), + QuestionModel( + question: + "8. A hydroelectric power plant has a flow rate of 1,000 cubic meters of water per second and a head (waterfall height) of 50 meters. Calculate the potential energy available for power generation.", + options: [ + "a) 5,000 J/s", + "b) 5,000 kW", + "c) 5,000 MW", + "d) 50,000 MW", + ], + correctAnswerIndex: 1, + Solution: + 'Potential energy (PE) = Mass flow rate (m) * g * head (h), where g is the acceleration due to gravity. In this case, PE = 1,000 m^3/s * 9.81 m/s^2 * 50 m = 490,500 J/s = 490.5 kW.'), + QuestionModel( + question: + "9. A power plant with a fuel consumption rate of 100 tons of coal per hour produces 500 MW of electricity. Calculate the specific fuel consumption in g/kWh.", + options: [ + "a) 200 g/kWh", + "b) 400 g/kWh", + "c) 500 g/kWh", + "d) 1,000 g/kWh", + ], + correctAnswerIndex: 0, + Solution: + 'Specific fuel consumption = (Fuel consumption rate in g/s) / (Power output in kW). First, convert tons to grams: 100 tons/hour = 100,000,000 g/hour. Specific fuel consumption = (100,000,000 g/hour) / (500,000 kW) = 200 g/kWh.'), + QuestionModel( + question: + "10. A transformer has a primary voltage of 10,000 V and a secondary voltage of 240 V. If the primary current is 50 A, what is the secondary current?", + options: [ + "a) 0.5 A", + "b) 1.2 A", + "c) 20 A", + "d) 48 A", + ], + correctAnswerIndex: 2, + Solution: + 'According to the transformer equation, the ratio of primary and secondary currents is equal to the ratio of primary and secondary voltages. Therefore, secondary current = (Primary current * Primary voltage) / Secondary voltage = (50 A * 10,000 V) / 240 V = 2,083.33 A ≈ 20 A.'), + QuestionModel( + question: + "11. An electric utility company delivers 800 MWh of electricity to its customers in a month. If the average power demand is 1 MW, how many hours did customers receive electricity?", + options: [ + "a) 200 hours", + "b) 800 hours", + "c) 2,000 hours", + "d) 8,000 hours", + ], + correctAnswerIndex: 1, + Solution: + 'Energy (MWh) = Power (MW) * Time (hours). To find the time, rearrange the equation: Time (hours) = Energy (MWh) / Power (MW) = 800 MWh / 1 MW = 800 hours.'), + QuestionModel( + question: + "12. A power line has a resistance of 0.2 ohms per kilometer. If a load draws a current of 100 A through a 10 km long power line, what is the voltage drop across the line?", + options: [ + "a) 2 V", + "b) 20 V", + "c) 200 V", + "d) 2,000 V", + ], + correctAnswerIndex: 1, + Solution: + 'Voltage drop = (Resistance per km * Length in km) * Current = (0.2 ohms/km * 10 km) * 100 A = 20 V.'), + QuestionModel( + question: + "13. Which type of power plant relies on the Rankine cycle for energy conversion?", + options: [ + "a) Gas turbine", + "b) Nuclear", + "c) Geothermal", + "d) Coal-fired", + ], + correctAnswerIndex: 3, + Solution: + 'Coal-fired power plants use the Rankine cycle to convert heat into electricity.'), + QuestionModel( + question: + "14. Which renewable energy source utilizes the photovoltaic effect for electricity generation?", + options: [ + "a) Wind power", + "b) Biomass", + "c) Solar power", + "d) Hydroelectric power", + ], + correctAnswerIndex: 2, + Solution: + ' Solar power relies on the photovoltaic effect to convert sunlight into electricity through solar panels.'), + QuestionModel( + question: + "15. What is the primary function of a generator in a power plant?", + options: [ + "a) Step up voltage", + "b) Control power flow", + "c) Convert mechanical energy into electrical energy", + "d) Distribute electricity", + ], + correctAnswerIndex: 2, + Solution: + ' Generators convert mechanical energy, often from turbines, into electrical energy through electromagnetic induction.'), + QuestionModel( + question: + "16. Which component of the power distribution system is responsible for regulating voltage and controlling power flow?", + options: [ + "a) Substation", + "b) Transformer", + "c) Generator", + "d) Capacitor bank", + ], + correctAnswerIndex: 0, + Solution: + 'Substations regulate voltage and control power flow in the distribution system.'), + QuestionModel( + question: + "17. What is the typical frequency of electricity used in North America?", + options: [ + "a) 50 Hz", + "b) 60 Hz", + "c) 120 Hz", + "d) 240 Hz", + ], + correctAnswerIndex: 1, + Solution: + ' The standard frequency of electricity in North America is 60 Hz.'), + QuestionModel( + question: + "18. Which renewable energy source harnesses the kinetic energy of moving air for power generation?", + options: [ + "a) Tidal power", + "b) Solar power", + "c) Wind power", + "d) Biomass", + ], + correctAnswerIndex: 2, + Solution: + ' Wind power uses the kinetic energy of moving air to generate electricity through wind turbines.'), + QuestionModel( + question: + "19. In a power distribution system, what is the purpose of an insulator?", + options: [ + "a) To conduct electricity", + "b) To control voltage", + "c) To insulate and prevent electrical leakage", + "d) To store electrical energy", + ], + correctAnswerIndex: 2, + Solution: + ' Insulators are used to prevent electrical leakage and provide electrical insulation.'), + QuestionModel( + question: + "20. Which type of power plant does not produce greenhouse gas emissions during operation?", + options: [ + "a) Natural gas", + "b) Coal-fired", + "c) Nuclear", + "d) Oil", + ], + correctAnswerIndex: 2, + Solution: + 'Nuclear power plants do not produce greenhouse gas emissions during their operation.'), +]; + +List electricalmechines = [ + QuestionModel( + question: "1. What is the primary function of an electric generator?", + options: [ + "a) Convert mechanical energy into electrical energy", + "b) Convert electrical energy into mechanical energy", + "c) Store electrical energy", + "d) Measure resistance", + ], + correctAnswerIndex: 0, + Solution: + 'An electric generator converts mechanical energy, often from a rotating shaft, into electrical energy through electromagnetic induction.'), + QuestionModel( + question: + "2. In a synchronous generator, the rotor speed is synchronized with the grid frequency to maintain constant ____________.", + options: [ + "a) Voltage", + "b) Current", + "c) Frequency", + "d) Resistance", + ], + correctAnswerIndex: 2, + Solution: + 'In a synchronous generator, the rotor speed is synchronized with the grid frequency to maintain a constant frequency output.'), + QuestionModel( + question: + "3. Which type of electric machine is commonly used in electric vehicles (EVs) for propulsion?", + options: [ + "a) Induction motor", + "b) Synchronous generator", + "c) Transformer", + "d) Universal motor", + ], + correctAnswerIndex: 0, + Solution: + ' Induction motors are commonly used in electric vehicles for propulsion due to their simplicity and efficiency.'), + QuestionModel( + question: + "4. What is the main function of a transformer in an electrical system?", + options: [ + "a) Convert AC to DC", + "b) Convert mechanical energy to electrical energy", + "c) Change voltage levels in an AC system", + "d) Store energy" + ], + correctAnswerIndex: 2, + Solution: + 'A transformer is used to step up or step down voltage levels in an AC electrical system.'), + QuestionModel( + question: "5. What is the primary function of a DC motor?", + options: [ + "a) Generate electricity", + "b) Convert DC to AC", + "c) Convert electrical energy into mechanical energy", + "d) Measure power factor" + ], + correctAnswerIndex: 2, + Solution: + 'A DC motor converts electrical energy into mechanical energy, providing rotational motion.'), + QuestionModel( + question: + "6. Which electric machine type has a commutator and brushes for converting electrical energy into mechanical energy?", + options: [ + "a) Synchronous motor", + "b) Induction motor", + "c) Brushless DC motor", + "d) DC motor", + ], + correctAnswerIndex: 3, + Solution: + 'DC motors have a commutator and brushes for converting electrical energy into mechanical energy.'), + QuestionModel( + question: + "7. In an induction motor, the rotor speed is __________ the synchronous speed of the stator's rotating magnetic field.", + options: [ + "a) Equal to", + "b) Less than", + "c) Greater than", + "d) Unrelated to" + ], + correctAnswerIndex: 1, + Solution: + "In an induction motor, the rotor speed is always less than the synchronous speed of the stator's rotating magnetic field."), + QuestionModel( + question: + "8. What type of electric machine is used to convert high-speed mechanical rotation into electrical power in gas turbines and wind turbines?", + options: [ + "a) Generator", + "b) Synchronous motor", + "c) Induction motor", + "d) Transformer", + ], + correctAnswerIndex: 0, + Solution: + 'Generators are used to convert mechanical rotation into electrical power in gas turbines and wind turbines.'), + QuestionModel( + question: "9. What is the primary function of a universal motor?", + options: [ + "a) Convert AC to DC", + "b) Convert electrical energy into mechanical energy", + "c) Measure power factor", + "d) Store electrical energy", + ], + correctAnswerIndex: 1, + Solution: + 'Universal motors can run on both AC and DC power sources and are often used in portable tools and appliances.'), + QuestionModel( + question: + "10. What type of electric machine is used to step up or step down voltage levels in power transmission and distribution systems?", + options: [ + "a) Generator", + "b) Synchronous motor", + "c) Transformer", + "d) Universal motor", + ], + correctAnswerIndex: 2, + Solution: + 'Transformers are used to change voltage levels in power transmission and distribution systems.'), + QuestionModel( + question: + "11. In a single-phase induction motor, the direction of rotation can be reversed by __________.", + options: [ + "a) Changing the frequency", + "b) Reversing the rotor", + "c) Swapping the stator coils", + "d) Changing the voltage", + ], + correctAnswerIndex: 1, + Solution: + 'The direction of rotation in a single-phase induction motor can be reversed by reversing the rotor.'), + QuestionModel( + question: + "12. Which electric machine is commonly used in HVAC systems to circulate air and maintain indoor comfort?", + options: [ + "a) Transformer", + "b) Generator", + "c) Induction motor", + "d) Synchronous motor", + ], + correctAnswerIndex: 2, + Solution: + 'Induction motors are commonly used in HVAC systems for air circulation.'), + QuestionModel( + question: + "13. What is the main function of a capacitor-start induction motor?", + options: [ + "a) High-speed operation", + "b) High-torque starting", + "c) Energy storage", + "d) Power factor correction", + ], + correctAnswerIndex: 1, + Solution: + 'A capacitor-start induction motor is designed for high-torque starting applications.'), + QuestionModel( + question: + "14. In a permanent magnet synchronous motor (PMSM), the rotor is made of __________.", + options: [ + "a) Copper", + "b) Iron", + "c) Permanent magnets", + "d) Aluminum", + ], + correctAnswerIndex: 2, + Solution: + 'In a PMSM, the rotor contains permanent magnets, which provide synchronous operation.'), + QuestionModel( + question: + "15. Which electric machine type is commonly used in household appliances like blenders and mixers due to its compact size and portability?", + options: [ + "a) Synchronous motor", + "b) Universal motor", + "c) Generator", + "d) Transformer", + ], + correctAnswerIndex: 0, + Solution: + ' Universal motors are often used in small household appliances for their compact size and portability.'), + QuestionModel( + question: "16. What is the primary function of a reluctance motor?", + options: [ + "a) High-speed operation", + "b) High-torque starting", + "c) Energy storage", + "d) Power factor correction", + ], + correctAnswerIndex: 0, + Solution: + 'Reluctance motors are known for their high-speed operation and simple design.'), + QuestionModel( + question: + "17. Which electric machine is commonly used in electric trains and subways for propulsion due to its high efficiency and power density?", + options: [ + "a) Induction motor", + "b) Synchronous motor", + "c) Transformer", + "d) Universal motor", + ], + correctAnswerIndex: 0, + Solution: + ' Induction motors are often used in electric trains and subways for propulsion due to their efficiency and power density.'), + QuestionModel( + question: + "18. What is the primary function of a squirrel cage rotor in an induction motor?", + options: [ + "a) Generate electricity", + "b) Convert mechanical energy into electrical energy", + "c) Provide high starting torque", + "d) Measure power factor", + ], + correctAnswerIndex: 2, + Solution: + 'The squirrel cage rotor in an induction motor provides high starting torque and reliable operation.'), + QuestionModel( + question: + "19. In a wound-rotor induction motor, external resistors are connected to the rotor windings to __________.", + options: [ + "a) Increase efficiency", + "b) Reduce torque", + "c) Enhance speed control", + "d) Improve power factor", + ], + correctAnswerIndex: 2, + Solution: + ' External resistors on the rotor windings in a wound-rotor induction motor enhance speed control.'), + QuestionModel( + question: + "20. Which type of electric machine is used to convert high-voltage AC power to low-voltage DC power in power substations?", + options: [ + "a) Generator", + "b) Synchronous motor", + "c) Transformer", + "d) Universal motor", + ], + correctAnswerIndex: 2, + Solution: + 'Transformers are commonly used in power substations to convert voltage levels.'), +]; + +List electromagneticfields = [ + QuestionModel( + question: "1. Which electromagnetic wave has the longest wavelength?", + options: [ + "A) X-rays", + "B) Microwaves", + "C) Infrared", + "D) Radio waves", + ], + correctAnswerIndex: 3, + Solution: + 'Radio waves have the longest wavelength among the given options.'), + QuestionModel( + question: "2. What is the speed of light in a vacuum?", + options: [ + "A) 3 x 10^6 m/s", + "B) 3 x 10^8 m/s", + "C) 3 x 10^10 m/s", + "D) 3 x 10^12 m/s", + ], + correctAnswerIndex: 1, + Solution: + 'The speed of light in a vacuum is approximately 3 x 10^8 meters per second (m/s).'), + QuestionModel( + question: + "3. Which law states that the electric field induced in a closed loop is directly proportional to the rate of change of magnetic flux through the loop?", + options: [ + "A) Faraday's law of electromagnetic induction", + "B) Ohm's law", + "C) Ampere's law", + "D) Coulomb's law", + ], + correctAnswerIndex: 0, + Solution: + "Faraday's law of electromagnetic induction states that the electric field induced in a closed loop is directly proportional to the rate of change of magnetic flux through the loop."), + QuestionModel( + question: "4. What is the SI unit of magnetic field strength?", + options: [ + "A) Volts per meter (V/m)", + "B) Tesla (T)", + "C) Ohm (Ω)", + "D) Henry (H)", + ], + correctAnswerIndex: 1, + Solution: 'The SI unit of magnetic field strength is the Tesla (T).'), + QuestionModel( + question: + "5. Which of the following electromagnetic waves has the highest frequency?", + options: [ + "A) Ultraviolet", + "B) Infrared", + "C) Visible light", + "D) Radio waves", + ], + correctAnswerIndex: 0, + Solution: + ' Ultraviolet waves have a higher frequency than visible light, infrared, and radio waves.'), + QuestionModel( + question: + "6. What is the electromagnetic spectrum's range of wavelengths, from longest to shortest?", + options: [ + "A) Radio waves, microwaves, infrared, visible light, ultraviolet, X-rays, gamma rays", + "B) Gamma rays, X-rays, ultraviolet, visible light, infrared, microwaves, radio waves", + "C) Radio waves, infrared, visible light, X-rays, ultraviolet, microwaves, gamma rays", + "D) Ultraviolet, infrared, radio waves, visible light, gamma rays, microwaves, X-rays", + ], + correctAnswerIndex: 0, + Solution: + "The electromagnetic spectrum's range of wavelengths, from longest to shortest, is in that order."), + QuestionModel( + question: + "7. In which region of the electromagnetic spectrum do microwaves primarily operate?", + options: [ + "A) Ultraviolet", + "B) Infrared", + "C) Microwave", + "D) X-ray", + ], + correctAnswerIndex: 2, + Solution: + 'Microwaves primarily operate in the microwave region of the electromagnetic spectrum.'), + QuestionModel( + question: + "8. Which law relates the magnetic field around a closed loop to the current passing through it?", + options: [ + "A) Faraday's law of electromagnetic induction", + "B) Ohm's law", + "C) Ampere's law", + "D) Lenz's law", + ], + correctAnswerIndex: 2, + Solution: + "Ampere's law relates the magnetic field around a closed loop to the current passing through it."), + QuestionModel( + question: + "9. What does the Poynting vector describe in electromagnetics?", + options: [ + "A) Electric field intensity", + "B) Magnetic field strength", + "C) Energy flow in electromagnetic waves", + "D) Electric potential", + ], + correctAnswerIndex: 2, + Solution: + ' The Poynting vector describes the direction and magnitude of energy flow in electromagnetic waves.'), + QuestionModel( + question: + "10. In which region of the electromagnetic spectrum does the ozone layer absorb radiation, protecting the Earth from harmful rays?", + options: [ + "A) Ultraviolet", + "B) Infrared", + "C) Radio waves", + "D) Visible light", + ], + correctAnswerIndex: 0, + Solution: + 'The ozone layer absorbs ultraviolet radiation, protecting the Earth from harmful UV rays.'), + QuestionModel( + question: + "11. What is the electromagnetic wave that carries information for radio and television broadcasting?", + options: [ + "A) X-rays", + "B) Infrared", + "C) Gamma rays", + "D) AM and FM radio waves", + ], + correctAnswerIndex: 0, + Solution: ''), + QuestionModel( + question: + "12. Which electromagnetic wave is often used in medical imaging to visualize bones and tissues?", + options: [ + "A) Gamma rays", + "B) Microwaves", + "C) Infrared", + "D) X-rays", + ], + correctAnswerIndex: 3, + Solution: + 'X-rays are commonly used in medical imaging to visualize bones and tissues.'), + QuestionModel( + question: + "13. What phenomenon occurs when light changes its speed and direction as it passes from one medium to another, resulting in bending?", + options: [ + "A) Diffraction", + "B) Interference", + "C) Reflection", + "D) Refraction", + ], + correctAnswerIndex: 3, + Solution: + 'Refraction is the phenomenon where light changes its speed and direction as it passes from one medium to another, resulting in bending.'), + QuestionModel( + question: + "14. What is the name of the process where a material becomes magnetized in the presence of an external magnetic field and loses its magnetism when the field is removed?", + options: [ + "A) Induction", + "B) Polarization", + "C) Ferromagnetism", + "D) Hysteresis", + ], + correctAnswerIndex: 3, + Solution: + 'Hysteresis is the process where a material becomes magnetized in the presence of an external magnetic field and retains some magnetization after the field is removed.'), + QuestionModel( + question: + "15. Which of the following is not a primary color of light used in additive color mixing?", + options: [ + "A) Red", + "B) Green", + "C) Blue", + "D) Yellow", + ], + correctAnswerIndex: 0, + Solution: + 'In additive color mixing, the primary colors are red, green, and blue. Yellow is a secondary color.'), + QuestionModel( + question: + "16. What is the relationship between the direction of propagation, electric field, and magnetic field in an electromagnetic wave?", + options: [ + "A) All three are perpendicular to each other", + "B) All three are parallel to each other", + "C) Electric field and magnetic field are perpendicular, direction of propagation can be any", + "D) Electric field and direction of propagation are parallel, magnetic field is perpendicular", + ], + correctAnswerIndex: 2, + Solution: + 'In an electromagnetic wave, the electric field and magnetic field are perpendicular to each other, and the direction of propagation can be in any direction perpendicular to both fields.'), + QuestionModel( + question: + "17. Which material is commonly used as a dielectric in capacitors due to its high permittivity?", + options: [ + "A) Copper", + "B) Air", + "C) Glass", + "D) Teflon", + ], + correctAnswerIndex: 3, + Solution: + 'Teflon is commonly used as a dielectric in capacitors due to its high permittivity, which enhances the capacitance.'), + QuestionModel( + question: + "18. Calculate the time period of an electromagnetic wave with a frequency of 500 MHz.", + options: [ + "A) 2 ns", + "B) 0.5 µs", + "C) 5 ms", + "D) 50 ns", + ], + correctAnswerIndex: 0, + Solution: + 'The time period (T) is the reciprocal of the frequency (f),so t=(1/f)=(1/(500X10^6))=2ns.'), + QuestionModel( + question: + "19. Calculate the time period of an electromagnetic wave with a frequency of 300 MHz.", + options: [ + "A) 3 ns", + "B) 0.3 µs", + "C) 3 ms", + "D) 30 ns", + ], + correctAnswerIndex: 0, + Solution: + 'The time period (T) is the reciprocal of the frequency (f),so t=(1/f)=(1/(300X10^6))=3ns'), + QuestionModel( + question: + "20. If the frequency of an electromagnetic wave is 1.5 GHz, what is its period?", + options: [ + "A) 0.67 ns", + "B) 1.5 ns", + "C) 0.67 µs", + "D) 1.5 ms", + ], + correctAnswerIndex: 0, + Solution: + 'The time period (T) is the reciprocal of the frequency (f),so t=(1/f)=(1/(1.5X10^9))=0.67ns'), +]; + +List basicsofelectrical = [ + QuestionModel( + question: "1.What is the unit of electrical current?", + options: ['A. Volts', 'B. Watts', 'C. Ohms', 'D. Amperes'], + correctAnswerIndex: 3, + Solution: 'The unit of electrical current is the Ampere (A).'), + QuestionModel( + question: "2.Which component stores electrical energy in a circuit?", + options: [ + ' A. Resistor', + ' B. Capacitor', + ' C. Inductor', + ' D. Diode', + ], + correctAnswerIndex: 1, + Solution: + '''Capacitors store electrical energy in an electrical circuit'''), + QuestionModel( + question: "3.Ohm's law relates which three electrical quantities? ", + options: [ + "A. Voltage, Current, Resistance", + "B. Voltage, Power, Current", + "C. Resistance, Power, Voltage", + "D. Current, Capacitance, Inductance" + ], + correctAnswerIndex: 0, + Solution: "Ohm's law relates Voltage, Current, and Resistance."), + QuestionModel( + question: "4. in a series circuit,how does the current behave?", + options: [ + "A. Splits into different paths", + "B. Stays the same in all components", + "C. Adds up in all components", + "D. Decreases in all components" + ], + correctAnswerIndex: 1, + Solution: + 'In a series circuit, the current stays the same in all components.'), + QuestionModel( + question: "5. Which of the following is a passive component?", + options: ["A. Battery", "B. LED", "C. Resistor", "D. Transistor"], + correctAnswerIndex: 2, + Solution: + 'Resistors are passive components, while the others are active components.'), + QuestionModel( + question: "6. In a parallel circuit, how does the voltage behave?", + options: [ + "A. Splits into different paths", + "B. Stays the same in all components", + "C. Adds up in all components", + "D. Decreases in all components" + ], + correctAnswerIndex: 1, + Solution: + 'In a parallel circuit, the voltage stays the same in all components.'), + QuestionModel( + question: + "7. What is the total resistance of three 10-ohm resistors in parallel?", + options: ["A. 3.33 ohms", "B. 10 ohms", "C. 30 ohms", "D. 3.33 kohms"], + correctAnswerIndex: 0, + Solution: + ' The formula for total resistance in parallel is 1 / (1/R1 + 1/R2 + 1/R3). Substituting the values, we get 1 / (1/10 + 1/10 + 1/10) = 3.33 ohms.'), + QuestionModel( + question: + "8. What is the voltage across a 5-ohm resistor with a current of 2 amperes passing through it?", + options: ["A. 10 volts", "B. 2.5 volts", "C. 7.5 volts", "D. 0.4 volts"], + correctAnswerIndex: 0, + Solution: + "Using Ohm's law (V = I * R), we get 2 amperes * 5 ohms = 10 volts."), + QuestionModel( + question: + "9. Which component allows the flow of current in one direction only?", + options: ["A. Resistor", "B. Capacitor", "C. Diode", "D. Inductor"], + correctAnswerIndex: 2, + Solution: 'Diodes allow the flow of current in one direction only.'), + QuestionModel( + question: + "10. What is the power dissipated in a 20-ohm resistor with a current of 1 ampere passing through it? ", + options: ["A. 0.05 watts", "B. 20 watts", "C. 2 watts", "D. 1 watt"], + correctAnswerIndex: 3, + Solution: + 'The power can be calculated using P = I² * R, which results in 1 ampere² * 20 ohms = 1 watt.'), + QuestionModel( + question: + "11. What is the voltage drop across a closed switch in a circuit?", + options: [ + "A. 0 volts", + "B. Equal to the source voltage", + "C. Equal to the current", + "D. Equal to the resistance" + ], + correctAnswerIndex: 0, + Solution: + 'When a switch is closed, it ideally has no resistance, and the voltage drop across it is 0 volts.'), + QuestionModel( + question: + "12. Which type of circuit has only one path for current to flow?", + options: [ + "A. Parallel circuit", + "B. Series circuit", + "C. Complex circuit", + "D. Resonant circuit" + ], + correctAnswerIndex: 1, + Solution: + 'In a series circuit, there is only one path for current to flow.'), + QuestionModel( + question: + "13. What is the resistance of a wire if the voltage across it is 12 volts and the current passing through it is 3 amperes?", + options: ["A. 4 ohms", "B. 36 ohms", "C. 0.25 ohms", "D. 15 ohms"], + correctAnswerIndex: 0, + Solution: + "Using Ohm's law (V = I * R), we get 12 volts = 3 amperes * R. Solving for R, we get R = 12 volts / 3 amperes = 4 ohms."), + QuestionModel( + question: "14. What does a fuse in an electrical circuit do?", + options: [ + "A. Increases resistance", + "B. Regulates voltage", + "C. Protects against overcurrent", + "D. Amplifies current" + ], + correctAnswerIndex: 2, + Solution: + 'A fuse in an electrical circuit is used to protect against overcurrent by breaking the circuit when the current exceeds a specified value.'), + QuestionModel( + question: "15. Which material is a good conductor of electricity?", + options: ["A. Rubber", "B. Wood", "C. Copper", "D. Glass"], + correctAnswerIndex: 2, + Solution: 'Copper is a good conductor of electricity.'), + QuestionModel( + question: + "16. What happens to the brightness of a light bulb if the voltage across it is increased while keeping the resistance constant?", + options: [ + "A. It becomes dimmer", + "B. It remains the same", + "C. It turns off", + "D. It becomes brighter" + ], + correctAnswerIndex: 3, + Solution: + ' The brightness of a light bulb is directly proportional to the voltage across it. If the voltage is increased, the bulb becomes brighter.'), + QuestionModel( + question: + "17. What is the role of a transformer in an electrical circuit?", + options: [ + "A. To store electrical energy", + "B. To convert DC to AC", + "C. To amplify current", + "D. To change the voltage level" + ], + correctAnswerIndex: 3, + Solution: + 'A transformer is used to change the voltage level in an electrical circuit.'), + QuestionModel( + question: + "18. Which law states that the total current entering a junction is equal to the total current leaving the junction?", + options: [ + "A. Kirchhoff's voltage law", + "B. Ohm's law", + "C. Kirchhoff's current law", + "D. Faraday's law" + ], + correctAnswerIndex: 2, + Solution: + "Kirchhoff's current law states that the total current entering a junction is equal to the total current leaving the junction."), + QuestionModel( + question: "19. What is the unit of electrical resistance?", + options: [ + "A. Ohms", + "B. Amperes", + "C. Volts", + "D. Watts", + ], + correctAnswerIndex: 0, + Solution: 'The unit of electrical resistance is the Ohm (Ω).'), + QuestionModel( + question: + "20. What is the total capacitance of two 10µF capacitors connected in series?", + options: ["a) 5µF", "b) 10µF", "c) 20µF", "d) 40µF"], + correctAnswerIndex: 0, + Solution: + 'When capacitors are connected in series, the reciprocal of the total capacitance is equal to the sum of the reciprocals of individual capacitances. In this case, 1/C_total = 1/10µF + 1/10µF = 2/10µF = 1/5µF, so C_total = 5µF.'), +]; + +List microcontrollersandmicroprocessor = [ + QuestionModel( + question: + "1. What is the primary difference between a microcontroller and a microprocessor?", + options: [ + "a) Microcontrollers have a built-in memory, while microprocessors do not.", + "b) Microcontrollers are slower than microprocessors.", + "c) Microcontrollers are used in embedded systems, while microprocessors are used in PCs.", + "d) Microcontrollers can execute more complex instructions.", + ], + correctAnswerIndex: 2, + Solution: + 'Microcontrollers are designed for specific embedded systems, while microprocessors are general-purpose and typically used in personal computers.'), + QuestionModel( + question: + "2. Which of the following is a typical function of a microcontroller?", + options: [ + "a) Running a web server", + "b) Playing multimedia files", + "c) Controlling a washing machine", + "d) Handling complex calculations", + ], + correctAnswerIndex: 2, + Solution: + 'Microcontrollers are often used in appliances and devices for control and automation.'), + QuestionModel( + question: + "3. Which component of a microcontroller or microprocessor performs arithmetic and logic operations?", + options: [ + "a) ALU (Arithmetic Logic Unit)", + "b) Memory unit", + "c) Control unit", + "d) Input/Output ports", + ], + correctAnswerIndex: 0, + Solution: + ' The ALU is responsible for performing arithmetic and logical operations.'), + QuestionModel( + question: + "4. Which microcontroller architecture is commonly used in the Arduino platform?", + options: [ + "a) PIC", + "b) AVR", + "c) ARM", + "d) Intel x86", + ], + correctAnswerIndex: 1, + Solution: + 'The Arduino platform commonly uses the AVR microcontroller architecture.'), + QuestionModel( + question: + "5. Which microcontroller manufacturer is known for its 8051-based microcontrollers?", + options: [ + "a) Microchip", + "b) Intel", + "c) Atmel (now part of Microchip)", + "d) ARM", + ], + correctAnswerIndex: 1, + Solution: + 'Intel developed the 8051 microcontroller, which is widely used.'), + QuestionModel( + question: + "6. What is the primary function of the Control Unit in a microcontroller or microprocessor?", + options: [ + "a) Execute arithmetic and logic operations", + "b) Manage data storage", + "c) Control the flow of instructions", + "d) Handle input and output operations", + ], + correctAnswerIndex: 2, + Solution: + ' The Control Unit manages the execution of instructions and controls the flow of data in the processor.'), + QuestionModel( + question: + "7. What is the clock speed of a microcontroller that takes 10 nanoseconds for one machine cycle?", + options: [ + "a) 100 MHz" + "b) 1 MHz" + "c) 10 MHz" + "d) 1 KHz" + ], + correctAnswerIndex: 0, + Solution: + ' The clock speed is the reciprocal of the time taken for one machine cycle, so 1 / (10 ns) = 100 MHz.'), + QuestionModel( + question: + "8. A microcontroller has a clock speed of 12 MHz. How long does it take to execute an instruction that requires 4 clock cycles?", + options: [ + "a) 1 ms", + "b) 4 ms", + "c) 333.33 ns", + "d) 48 ns", + ], + correctAnswerIndex: 2, + Solution: + 'Time to execute the instruction = (4 clock cycles) / (12 MHz) = 333.33 ns.'), + QuestionModel( + question: + "9. If a microcontroller has 64 KB of program memory and each instruction is 12 bits long, how many instructions can it store?", + options: [ + "a) 8192 instructions" + "b) 4096 instructions" + "c) 5461 instructions" + "d) 16384 instructions" + ], + correctAnswerIndex: 1, + Solution: + 'The number of instructions = (64 KB) / (12 bits/instruction) = 4096 instructions.'), + QuestionModel( + question: + "10. What is the total time spent handling an interrupt if it takes 50 clock cycles to service the interrupt and 20 clock cycles to return to the main program, and the microcontroller runs at 8 MHz?", + options: [ + "a) 70 microseconds", + "b) 7 microseconds", + "c) 2.5 milliseconds", + "d) 0.5 milliseconds", + ], + correctAnswerIndex: 0, + Solution: + 'Total time = (50 clock cycles + 20 clock cycles) / (8,000,000 Hz) = 70 microseconds.'), + QuestionModel( + question: + "11. If a microcontroller has a 16-bit address bus, what is the maximum addressable memory size in bytes?", + options: [ + "a) 32 KB", + "b) 64 KB", + "c) 128 KB", + "d) 256 KB", + ], + correctAnswerIndex: 1, + Solution: + ' With a 16-bit address bus, you can address 2^16 = 64 KB of memory.'), + QuestionModel( + question: + "12. A microcontroller operates at a clock speed of 25 MHz. Calculate the time taken for one machine cycle in nanoseconds.", + options: [ + "a) 2 ns", + "b) 40 ns", + "c) 25 ns", + "d) 0.04 ns", + ], + correctAnswerIndex: 1, + Solution: + ' Time per machine cycle (T) = 1 / Clock speed = 1 / 25 MHz = 40 ns.'), + QuestionModel( + question: + "13. If a microcontroller has 256 bytes of RAM and 16-bit data bus, how many 16-bit words can it store in RAM?", + options: [ + "a) 128 word", + "b) 64 words", + "c) 256 words", + "d) 512 words", + ], + correctAnswerIndex: 1, + Solution: + ' The number of 16-bit words = (256 bytes) / (2 bytes/word) = 64 words.'), + QuestionModel( + question: + "14. A microcontroller with a clock speed of 10 MHz takes 8 clock cycles to execute an instruction. What is the time taken to execute one instruction in microseconds?", + options: [ + "a) 0.8 us", + "b) 80 us", + "c) 0.0008 us", + "d) 0.08 us", + ], + correctAnswerIndex: 1, + Solution: + 'Time per instruction = (8 clock cycles) / (10,000,000 Hz) = 80 microseconds.'), + QuestionModel( + question: + "15. If a microcontroller's instruction set consists of 16 different instructions, how many bits are required to represent each instruction uniquely?", + options: [ + "a) 2 bits", + "b) 4 bits", + "c) 8 bits", + "d) 16 bits", + ], + correctAnswerIndex: 1, + Solution: + 'To represent 16 different instructions, you need at least 4 bits (2^4 = 16).'), + QuestionModel( + question: + "16. Which type of memory is typically used for program storage in microcontrollers and microprocessors?", + options: [ + "a) RAM (Random Access Memory)", + "b) ROM (Read-Only Memory)", + "c) EEPROM (Electrically Erasable Programmable Read-Only Memory)", + "d) Flash memory", + ], + correctAnswerIndex: 3, + Solution: + ' Flash memory is commonly used for program storage because it is non-volatile and can be rewritten.'), + QuestionModel( + question: + "17. Which microcontroller or microprocessor component interfaces with external devices and sensors?", + options: [ + "a) ALU", + "b) Control unit", + "c) Input/Output ports", + "d) Cache memory", + ], + correctAnswerIndex: 2, + Solution: + 'Input/Output ports are used for interfacing with external devices and sensors.'), + QuestionModel( + question: + "18. In microcontroller programming, what is 'firmware' typically referred to?", + options: [ + "a) Software that controls the hardware of the microcontroller", + "b) Hardware components of the microcontroller", + "c) The physical enclosure of the microcontroller", + "d) Microcontroller's power supply unit", + ], + correctAnswerIndex: 0, + Solution: + 'Firmware is the software that controls the operation of the microcontroller.'), + QuestionModel( + question: + "19. Which microcontroller or microprocessor feature allows multiple instructions to be executed simultaneously?", + options: [ + "a) Hyper-threading" + "b) Parallel processing" + "c) Multi-core architecture" + "d) Clock speed" + ], + correctAnswerIndex: 2, + Solution: + ' Multi-core processors have multiple cores that can execute instructions simultaneously.'), + QuestionModel( + question: + "20. Which microcontroller or microprocessor register holds the memory address of the next instruction to be executed?", + options: [ + "a) Program Counter (PC)" + "b) Stack Pointer (SP)" + "c) Accumulator (ACC)" + "d) Status Register (SR)" + ], + correctAnswerIndex: 0, + Solution: + 'The Program Counter (PC) stores the memory address of the next instruction to be executed.'), +]; + +List powerdisturbution = [ + QuestionModel( + question: + "1. What is the primary purpose of power distribution and transmission systems?", + options: [ + "a) To generate electricity", + "b) To store electrical energy", + "c) To transmit electricity from power plants to consumers", + "d) To convert electricity into other forms of energy", + ], + correctAnswerIndex: 2, + Solution: + ' Power distribution and transmission systems are designed to transport electricity from power generation facilities to homes, businesses, and industries.'), + QuestionModel( + question: + "2. Power distribution and transmission systems are designed to transport electricity from power generation facilities to homes, businesses, and industries.", + options: [ + "a) 120V", + "b) 230V", + "c) 480V", + "d) 765kV", + ], + correctAnswerIndex: 0, + Solution: + ' High-voltage transmission lines typically operate at voltages such as 765kV for long-distance power transmission to minimize energy losses.'), + QuestionModel( + question: + "3. What is the purpose of step-up transformers in a power transmission system?", + options: [ + "a) To decrease voltage for distribution", + "b) To increase voltage for transmission", + "c) To generate electricity", + "d) To regulate grid frequency", + ], + correctAnswerIndex: 1, + Solution: + ' Step-up transformers are used to increase voltage for efficient long-distance transmission and reduce energy losses.'), + QuestionModel( + question: + "4. Which of the following materials is commonly used for overhead power transmission lines?", + options: [ + "a) Copper", + "b) Aluminum", + "c) Steel", + "d) Plastic", + ], + correctAnswerIndex: 1, + Solution: + ' Aluminum is often used for overhead power transmission lines due to its lightweight and conductive properties.'), + QuestionModel( + question: + "5. What is the purpose of substations in the power distribution system?", + options: [ + "a) To generate electricity", + "b) To store electricity", + "c) To step down voltage for distribution", + "d) To convert DC to AC power", + ], + correctAnswerIndex: 2, + Solution: + 'Substations reduce voltage levels to make electricity suitable for local distribution.'), + QuestionModel( + question: + "6. Which component of a power transmission system is responsible for maintaining grid stability and frequency control?", + options: [ + "a) Transformers", + "b) Generators", + "c) Capacitors", + "d) Synchronous condensers", + ], + correctAnswerIndex: 3, + Solution: + 'Synchronous condensers help maintain grid stability and control grid frequency.'), + QuestionModel( + question: + "7. Which type of current is commonly used for long-distance power transmission?", + options: [ + "a) Direct current (DC)", + "b) Alternating current (AC)", + "c) Pulsed current (PC)", + "d) Variable current (VC)", + ], + correctAnswerIndex: 1, + Solution: + 'AC is the standard for long-distance power transmission due to its ability to be easily transformed and its lower energy losses.'), + QuestionModel( + question: + "8. What is the purpose of transmission towers and pylons in power distribution?", + options: [ + "a) To support power lines", + "b) To generate electricity", + "c) To store energy", + "d) To cool transformers", + ], + correctAnswerIndex: 0, + Solution: + ' Transmission towers and pylons provide structural support for power lines.'), + QuestionModel( + question: + "9. Which of the following is a disadvantage of underground power distribution systems compared to overhead systems?", + options: [ + "a) Lower maintenance costs", + "b) Reduced environmental impact", + "c) Higher installation costs", + "d) Easier access for maintenance and repairs", + ], + correctAnswerIndex: 2, + Solution: + ' Underground distribution systems are more costly to install than overhead systems due to excavation and trenching requirements.'), + QuestionModel( + question: + "10. What is the typical frequency of electricity used in most countries for AC power distribution?", + options: [ + "a) 60 Hz" + "b) 50 Hz" + "c) 120 Hz" + "d) 10 Hz" + ], + correctAnswerIndex: 1, + Solution: + ' Most countries use a frequency of 50 Hz for AC power distribution.'), + QuestionModel( + question: + "11. Which type of insulator is commonly used in power transmission lines to prevent electrical arcing?", + options: [ + "a) Glass", + "b) Rubber", + "c) Plastic", + "d) Wood", + ], + correctAnswerIndex: 0, + Solution: + 'Glass insulators are often used to prevent electrical arcing and maintain the integrity of power transmission lines.'), + QuestionModel( + question: + "12. What is the primary function of a power transformer in a substation?", + options: [ + "a) To generate electricity", + "b) To convert AC to DC power", + "c) To step up voltage for distribution", + "d) To step down voltage for distribution", + ], + correctAnswerIndex: 1, + Solution: + ' Power transformers in substations reduce voltage levels for local distribution.'), + QuestionModel( + question: + "13. Which organization is responsible for regulating and overseeing power distribution and transmission in the United States?", + options: [ + "a) EPA (Environmental Protection Agency)", + "b) FCC (Federal Communications Commission)", + "c) FERC (Federal Energy Regulatory Commission)", + "d) NREL (National Renewable Energy Laboratory)", + ], + correctAnswerIndex: 2, + Solution: + ' FERC is responsible for regulating and overseeing the transmission and wholesale sale of electricity in the United States.'), + QuestionModel( + question: + "14. What is the term for the sudden and momentary drop in voltage or current in a power distribution system?", + options: [ + "a) Blackout", + "b) Brownout", + "c) Surge", + "d) Short circuit", + ], + correctAnswerIndex: 1, + Solution: + ' A brownout is a temporary drop in voltage or current, while a blackout is a complete loss of power.'), + QuestionModel( + question: + "15. Which renewable energy source is often integrated into power distribution systems to reduce environmental impact?", + options: [ + "a) Natural gas", + "b) Solar power", + "c) Coal", + "d) Nuclear power", + ], + correctAnswerIndex: 1, + Solution: + 'Solar power is a common renewable energy source integrated into power distribution systems to reduce environmental impact.'), + QuestionModel( + question: + "16. What is the typical height of transmission towers used for long-distance power transmission?", + options: [ + "a) 10 feet", + "b) 50 feet", + "c) 100 feet", + "d) 300 feet", + ], + correctAnswerIndex: 3, + Solution: + 'Transmission towers can vary in height, but they are often quite tall to support long-distance power lines.'), + QuestionModel( + question: + "17. Which law describes the relationship between current, voltage, and resistance in an electrical circuit?", + options: [ + "a) Ohm's Law", + "b) Newton's Law", + "c) Boyle's Law", + "d) Hooke's Law", + ], + correctAnswerIndex: 0, + Solution: + " Ohm's Law states that the current in a circuit is directly proportional to the voltage and inversely proportional to the resistance."), + QuestionModel( + question: + "18. What is the purpose of a circuit breaker in a power distribution system?", + options: [ + "a) To generate electricity", + "b) To store electricity", + "c) To interrupt electrical circuits in case of overcurrent or short circuit", + "d) To step up voltage for transmission", + ], + correctAnswerIndex: 2, + Solution: + ' Circuit breakers are safety devices that protect the system by interrupting circuits when there is an overcurrent or short circuit.'), + QuestionModel( + question: + "19. Which type of power transmission line is typically used to transfer electricity across bodies of water, such as rivers or lakes?", + options: [ + "a) Underground cables", + "b) Overhead lines", + "c) Submarine cables", + "d) Fiber optic cables", + ], + correctAnswerIndex: 2, + Solution: + ' Submarine cables are designed for power transmission across bodies of water.'), + QuestionModel( + question: + "20. What is the primary advantage of a three-phase power system compared to a single-phase system for high-power transmission?", + options: [ + "a) Lower voltage" + "b) Simplicity" + "c) Higher efficiency" + "d) Slower transmission speed" + ], + correctAnswerIndex: 2, + Solution: + 'Three-phase power systems are more efficient for high-power transmission due to the balanced loading and reduced voltage drop.'), +]; + +List powersystem = [ + QuestionModel( + question: + "1. Which type of power generation relies on the combustion of fossil fuels like coal, oil, and natural gas?", + options: [ + "Hydroelectric power", + "Nuclear power", + "Renewable energy", + "Thermal power", + ], + correctAnswerIndex: 3, + Solution: + "Thermal power generation involves the combustion of fossil fuels to produce steam and drive turbines for electricity generation."), + QuestionModel( + question: + "2. What is the standard voltage level for residential power distribution in most countries?", + options: [ + "110V", + "220V", + "230V", + "240V", + ], + correctAnswerIndex: 1, + Solution: + "Residential power distribution typically operates at 220V in many countries, although it can vary."), + QuestionModel( + question: + "3. Which component of a power system is responsible for converting AC to DC and vice versa?", + options: [ + "Generator", + "Transformer", + "Rectifier", + "Inverter", + ], + correctAnswerIndex: 3, + Solution: + "An inverter is used to convert DC to AC or vice versa in power systems, allowing for compatibility between different loads."), + QuestionModel( + question: + "4. In a power system, what is the purpose of a step-up transformer?", + options: [ + "Increase voltage", + "Decrease voltage", + "Control frequency", + "Distribute power", + ], + correctAnswerIndex: 0, + Solution: + "Step-up transformers are used to increase the voltage level for efficient long-distance transmission of power."), + QuestionModel( + question: + "5. Which renewable energy source harnesses the kinetic energy of wind to generate electricity?", + options: [ + "Solar power", + "Hydroelectric power", + "Wind power", + "Geothermal power", + ], + correctAnswerIndex: 2, + Solution: + "Wind turbines convert the kinetic energy of wind into electrical energy, making wind power a renewable energy source."), + QuestionModel( + question: + "6. What is the primary function of a circuit breaker in a power system?", + options: [ + "Generate power", + "Control voltage", + "Protect against overcurrent", + "Regulate frequency", + ], + correctAnswerIndex: 2, + Solution: + "Circuit breakers are designed to open when there is an overcurrent, preventing damage to the electrical system."), + QuestionModel( + question: + "7. Which type of power transmission line is known for its ability to carry high-voltage power over long distances with minimal loss?", + options: [ + "Overhead lines", + "Underground lines", + "Submarine cables", + "Transmission towers", + ], + correctAnswerIndex: 0, + Solution: + "Overhead transmission lines are preferred for long-distance power transmission due to lower resistance and lower cost."), + QuestionModel( + question: + "8. What is the standard frequency of AC power in most parts of the world?", + options: [ + "50 Hz", + "60 Hz", + "100 Hz", + "120 Hz", + ], + correctAnswerIndex: 0, + Solution: + "The standard frequency for AC power in most parts of the world is 50 Hz, although some regions use 60 Hz."), + QuestionModel( + question: + "9. Which device is used to measure electrical energy consumption in residential and industrial settings?", + options: [ + "Voltmeter", + "Ammeter", + "Wattmeter", + "Ohmmeter", + ], + correctAnswerIndex: 2, + Solution: + "Wattmeters are used to measure electrical energy consumption, providing information about power usage."), + QuestionModel( + question: + "10. What is the main purpose of a substation in a power system?", + options: [ + "Generate electricity", + "Store electrical energy", + "Transmit power over long distances", + "Control voltage and distribute power", + ], + correctAnswerIndex: 3, + Solution: + "Substations are essential for controlling voltage levels and distributing power to different areas of the grid."), + QuestionModel( + question: + "11. In a power system, what is the purpose of a step-down transformer?", + options: [ + "Increase voltage", + "Decrease voltage", + "Control frequency", + "Convert DC to AC", + ], + correctAnswerIndex: 1, + Solution: + "Step-down transformers reduce voltage levels for safe distribution to end-users."), + QuestionModel( + question: + "12. What type of power generation relies on the heat from the Earth's interior to produce electricity?", + options: [ + "Solar power", + "Hydroelectric power", + "Wind power", + "Geothermal power", + ], + correctAnswerIndex: 3, + Solution: + "Geothermal power plants use heat from the Earth's interior to generate electricity, making it a renewable energy source."), + QuestionModel( + question: + "13. What is the main purpose of an insulator in power transmission lines?", + options: [ + "Control voltage", + "Increase current flow", + "Prevent electrical leakage", + "Regulate frequency", + ], + correctAnswerIndex: 2, + Solution: + "Insulators are used to prevent electrical leakage and maintain safe power transmission."), + QuestionModel( + question: + "14. Which type of power generation captures sunlight using photovoltaic cells to produce electricity?", + options: [ + "Solar power", + "Hydroelectric power", + "Wind power", + "Geothermal power", + ], + correctAnswerIndex: 0, + Solution: + "Solar power systems use photovoltaic cells to convert sunlight into electricity."), + QuestionModel( + question: + "15. What is the primary function of a capacitor in a power system?", + options: [ + "Generate power", + "Store electrical energy", + "Control voltage", + "Convert AC to DC", + ], + correctAnswerIndex: 1, + Solution: + "Capacitors store electrical energy and can release it when needed, providing short-term power backup."), + QuestionModel( + question: + "16. What component in a power system is responsible for monitoring voltage and frequency and making adjustments to maintain stability?", + options: [ + "Generator", + "Circuit breaker", + "Load balancer", + "Voltage regulator", + ], + correctAnswerIndex: 3, + Solution: + "Voltage regulators monitor and adjust voltage and frequency to maintain a stable power supply."), + QuestionModel( + question: + "17. What is the primary function of a surge protector in a power system?", + options: [ + "Generate power", + "Store electrical energy", + "Protect against voltage spikes", + "Convert DC to AC", + ], + correctAnswerIndex: 2, + Solution: + "Surge protectors are designed to safeguard devices and circuits from voltage spikes and transient surges."), + QuestionModel( + question: + "18. What is the term for the process of distributing power from high-voltage transmission lines to end-users?", + options: [ + "Generation", + "Transmission", + "Distribution", + "Conversion", + ], + correctAnswerIndex: 2, + Solution: + "Distribution involves delivering power to homes and businesses from transmission lines."), + QuestionModel( + question: "19. In a power system, what does 'load shedding' refer to?", + options: [ + "Increasing power generation", + "Reducing power consumption", + "Controlling voltage", + "Converting AC to DC", + ], + correctAnswerIndex: 1, + Solution: + "Load shedding is the deliberate reduction of power consumption to prevent blackouts during periods of high demand or supply shortages."), + QuestionModel( + question: "20. ", options: [], correctAnswerIndex: 0, Solution: ''), + QuestionModel( + question: + "20. What is the primary purpose of a transformer in a power system?", + options: [ + "Generate electricity", + "Store electrical energy", + "Control voltage", + "Convert AC to DC", + ], + correctAnswerIndex: 2, + Solution: + "Transformers are primarily used to control voltage levels in a power system, allowing for efficient transmission and distribution of electrical energy."), +]; + +List powerelectronics = [ + QuestionModel( + question: + "1. What is the primary function of a rectifier in power electronics?", + options: [ + "a) Convert DC to AC", + "b) Convert AC to DC", + "c) Amplify signals", + "d) Measure voltage" + ], + correctAnswerIndex: 1, + Solution: + 'A rectifier is used to convert alternating current (AC) into direct current (DC) in power electronics.'), + QuestionModel( + question: + "2. Which semiconductor device is commonly used in power electronics for switching applications?", + options: ["a) Transistor", "b) Diode", "c) Capacitor", "d) Resistor"], + correctAnswerIndex: 0, + Solution: + 'Transistors, such as MOSFETs and IGBTs, are commonly used in power electronics for switching.'), + QuestionModel( + question: + "3. What is the primary purpose of a chopper circuit in power electronics?", + options: [ + "a) To convert DC to AC", + "b) To regulate voltage", + "c) To store energy", + "d) To measure current" + ], + correctAnswerIndex: 1, + Solution: + 'Chopper circuits are used to regulate the output voltage by controlling the duty cycle of the switching device.'), + QuestionModel( + question: + "4. In a buck converter, the output voltage is __________ the input voltage when the switch is on.", + options: [ + "a) Greater than", + "b) Less than", + "c) Equal to", + "d) Unrelated to" + ], + correctAnswerIndex: 1, + Solution: + ' In a buck converter, the output voltage is less than the input voltage when the switch is on due to the duty cycle.'), + QuestionModel( + question: + "5. What does PWM stand for in the context of power electronics?", + options: [ + "a) Pulse Width Modulation", + "b) Power Waveform Manipulation", + "c) Peak Watt Management", + "d) Power Voltage Modulation" + ], + correctAnswerIndex: 0, + Solution: + ' PWM is a technique used in power electronics to control the average voltage applied to a load by varying the width of pulses.'), + QuestionModel( + question: + "6. Which type of power converter is commonly used in renewable energy systems to convert DC power to AC power for grid connection?", + options: [ + "a) Inverter", + "b) Rectifier", + "c) Transformer", + "d) Chopper", + ], + correctAnswerIndex: 0, + Solution: + 'Inverters are commonly used in renewable energy systems to convert DC power from sources like solar panels or wind turbines into AC power for grid connection.'), + QuestionModel( + question: + "7. In a flyback converter, which component stores energy for later use?", + options: ["a) capacitor", "b) inductor", "c)transformer", "d)Diode"], + correctAnswerIndex: 2, + Solution: + 'In a flyback converter, the transformer stores energy in its magnetic field for later use.'), + QuestionModel( + question: + "8. What is the primary function of a thyristor (SCR) in power electronics?", + options: [ + "a) Voltage regulation", + "b) Switching high power loads", + "c) Filtering harmonics", + "d) Measuring power factor" + ], + correctAnswerIndex: 1, + Solution: + 'Thyristors, such as Silicon-Controlled Rectifiers (SCRs), are used for high-power switching applications in power electronics.'), + QuestionModel( + question: + "9. What is the purpose of a snubber circuit in power electronics?", + options: [ + "a) To filter high-frequency harmonics" + "b) To protect against voltage spikes" + "c) To store energy" + "d) To measure power factor" + ], + correctAnswerIndex: 1, + Solution: + ' A snubber circuit is used to protect the switching device against voltage spikes and reduce electromagnetic interference.'), + QuestionModel( + question: + "10. Which type of converter is often used in motor drives to control the speed of AC motors?", + options: ["a) Chopper", "b) Inverter", "c) Rectifier", "d) Thyristor"], + correctAnswerIndex: 1, + Solution: + 'Inverters are commonly used in motor drives to convert DC to AC for controlling the speed of AC motors.'), + QuestionModel( + question: "11. What does an AC/DC power supply do in power electronics?", + options: [ + "a) Convert AC power to DC power", + "b) Convert DC power to AC power", + "c) Store energy", + "d) Measure voltage", + ], + correctAnswerIndex: 0, + Solution: + 'An AC/DC power supply converts alternating current (AC) to direct current (DC).'), + QuestionModel( + question: + "12. Which power semiconductor device has three terminals known as gate, drain, and source?", + options: [ + "a) Diode", + "b) Thyristor", + "c) MOSFET", + "d) IGBT", + ], + correctAnswerIndex: 2, + Solution: + 'A MOSFET (Metal-Oxide-Semiconductor Field-Effect Transistor) has gate, drain, and source terminals.'), + QuestionModel( + question: + "13. In a full-bridge inverter, how many switches are used for switching DC to AC?", + options: ["a) 1", "b) 2", "c) 3", "d) 4"], + correctAnswerIndex: 3, + Solution: + ' A full-bridge inverter uses four switches to switch DC to AC and generate an AC waveform.'), + QuestionModel( + question: + "14. What is the purpose of a snubber resistor in a power electronic circuit?", + options: [ + "a) To reduce power losses", + "b) To measure current", + "c) To protect against voltage spikes", + "d) To regulate voltage" + ], + correctAnswerIndex: 2, + Solution: + 'A snubber resistor is often used to protect against voltage spikes and reduce voltage stress on components.'), + QuestionModel( + question: + "15. Which power electronic device is used to control the speed of a DC motor in applications like electric vehicles?", + options: ["a) Chopper", "b) Inverter", "c) Rectifier", "d) Thyristor"], + correctAnswerIndex: 0, + Solution: + 'Choppers are used to control the speed of DC motors in applications like electric vehicles.'), + QuestionModel( + question: + "16. What does a diode bridge rectifier do in power electronics?", + options: [ + "a) Converts AC to DC", + "b) Regulates voltage", + "c) Filters harmonics", + "d) Measures power factor" + ], + correctAnswerIndex: 0, + Solution: + 'A diode bridge rectifier is used to convert alternating current (AC) to direct current (DC).'), + QuestionModel( + question: + "17. Which component is often used for energy storage in power electronics systems?", + options: ["a) Transistor", "b) Capacitor", "c) Diode", "d) Resistor"], + correctAnswerIndex: 1, + Solution: + 'Capacitors are often used for energy storage in power electronics systems.'), + QuestionModel( + question: + "18. What is the primary purpose of a voltage source inverter (VSI) in power electronics?", + options: [ + "a) Voltage regulation", + "b) Current control", + "c) Frequency control", + "d) DC-to-AC conversion", + ], + correctAnswerIndex: 3, + Solution: + 'Voltage source inverters (VSIs) are used for DC-to-AC conversion in power electronics.'), + QuestionModel( + question: + "19. Which type of power converter is used to step up or step down voltage levels in electrical power transmission systems?", + options: [ + "a) Voltage source inverter", + "b) Transformer", + "c) Rectifier", + "d) Chopper", + ], + correctAnswerIndex: 1, + Solution: + 'Transformers are used to change voltage levels in electrical power transmission systems.'), + QuestionModel( + question: + "20. In a buck-boost converter, the output voltage can be _______ than or _______ than the input voltage.", + options: [ + "a) Higher, lower", + "b) Lower, higher", + "c) Equal, lower", + "d) Equal, higher", + ], + correctAnswerIndex: 0, + Solution: + 'In a buck-boost converter, the output voltage can be either higher or lower than the input voltage, depending on the configuration.'), +]; + +List semiconductordevices = [ + QuestionModel( + question: + "1. What is the most common semiconductor material used in electronic devices?", + options: [ + "A) Silicon ", + "B) Copper", + "C) Aluminum", + "D) Gold", + ], + correctAnswerIndex: 0, + Solution: + "Silicon is the most common semiconductor material used due to its excellent electrical properties and abundance.", + ), + QuestionModel( + question: + "2. Which semiconductor device is primarily used for signal amplification?", + options: [ + "A) Diode", + "B) Transistor ", + "C) Capacitor", + "D) Resistor", + ], + correctAnswerIndex: 1, + Solution: + "Transistors are commonly used for signal amplification and switching.", + ), + QuestionModel( + question: "3. What does LED stand for in semiconductor devices?", + options: [ + "A) Light Emitting Diode", + "B) Low Energy Device", + "C) Linear Electronic Detector", + "D) Laser Emitting Diode", + ], + correctAnswerIndex: 0, + Solution: + " LED stands for Light Emitting Diode and is used to emit light when current flows through it.", + ), + QuestionModel( + question: + "4. Which semiconductor device is commonly used for voltage regulation in power supplies?", + options: [ + "A) Diode", + "B) Zener Diode", + "C) Transistor", + "D) Capacitor", + ], + correctAnswerIndex: 1, + Solution: + "Zener diodes are used as voltage regulators in power supplies to maintain a constant output voltage.", + ), + QuestionModel( + question: "5. What is the primary function of a photodiode?", + options: [ + "A) Emit light", + "B) Detect light ", + "C) Amplify signals", + "D) Regulate voltage", + ], + correctAnswerIndex: 1, + Solution: + " Photodiodes are used to detect and convert light into electrical signals.", + ), + QuestionModel( + question: + "6. Which semiconductor device is used for switching and digital logic operations in integrated circuits?", + options: [ + "A) Zener Diode", + "B) Photodiode", + "C) MOSFET ", + "D) Thyristor", + ], + correctAnswerIndex: 2, + Solution: + "MOSFETs are widely used in digital logic and switching applications in integrated circuits.", + ), + QuestionModel( + question: + "7. What does 'IC' stand for in the context of semiconductor devices?", + options: [ + "A) Integrated Circuit ", + "B) Inductive Coil", + "C) Insulated Capacitor", + "D) Interconnected Conductor", + ], + correctAnswerIndex: 0, + Solution: + " 'IC' stands for Integrated Circuit, which is a compact arrangement of interconnected semiconductor devices.", + ), + QuestionModel( + question: + "8. Which semiconductor device is commonly used for amplifying and switching high-frequency signals?", + options: [ + "A) BJT", + "B) Varactor Diode", + "C) Schottky Diode", + "D) GaAs FET ", + ], + correctAnswerIndex: 3, + Solution: + "Gallium Arsenide Field-Effect Transistors (GaAs FET) are used for high-frequency amplification and switching.", + ), + QuestionModel( + question: "9. What is the primary function of a Schottky diode?", + options: [ + "A) Voltage regulation", + "B) Signal amplification", + "C) Fast switching and rectification ", + "D) Light emission", + ], + correctAnswerIndex: 2, + Solution: + "Schottky diodes are known for their fast switching and low forward voltage drop, making them suitable for rectification.", + ), + QuestionModel( + question: + "10. Which semiconductor device is used as a controlled switch in high-power applications?", + options: [ + "A) LED", + "B) BJT", + "C) Phototransistor", + "D) Thyristor ", + ], + correctAnswerIndex: 3, + Solution: + "Thyristors are used as controlled switches in high-power applications, such as motor control and power regulation.", + ), + QuestionModel( + question: + "10. What is the primary function of a silicon-controlled rectifier (SCR) in electronic circuits?", + options: [ + "Voltage amplification", + "Signal modulation", + "Power switching", + "Generate radio waves", + ], + correctAnswerIndex: 2, + Solution: + "SCRs are commonly used for efficient power switching in electronic circuits, such as motor control."), + QuestionModel( + question: + "11. What is the primary application of a varistor in electronic circuits?", + options: [ + "Voltage regulation", + "Temperature sensing", + "Surge protection", + "Signal amplification", + ], + correctAnswerIndex: 2, + Solution: + "Varistors are used for surge protection by rapidly changing resistance with voltage spikes, safeguarding sensitive components."), + QuestionModel( + question: + "12. Which semiconductor device can be used to store electrical charge and is commonly found in computer memory?", + options: [ + "Thyristor", + "Transistor", + "Capacitor", + "Diode", + ], + correctAnswerIndex: 2, + Solution: + "Capacitors store electrical charge and are often used in computer memory, power supply circuits, and timing applications."), + QuestionModel( + question: + "13. Which semiconductor device can be used to detect light levels and is sensitive to changes in light intensity?", + options: [ + "Zener Diode", + "Phototransistor", + "BJT", + "IGBT", + ], + correctAnswerIndex: 1, + Solution: + "Phototransistors are sensitive to changes in light intensity, making them suitable for light detection and sensing applications."), + QuestionModel( + question: + "14. What is the primary function of an IGBT (Insulated Gate Bipolar Transistor) in electronic circuits?", + options: [ + "Voltage regulation", + "High-frequency switching", + "Signal amplification", + "Efficient power switching", + ], + correctAnswerIndex: 3, + Solution: + "IGBTs are known for their efficient power switching capabilities and are commonly used in high-power applications like motor control and inverters."), + QuestionModel( + question: + "15. Which semiconductor device is used for storing binary data and is commonly found in non-volatile memory?", + options: [ + "Thyristor", + "Transistor", + "Capacitor", + "Diode", + ], + correctAnswerIndex: 2, + Solution: + "Capacitors can be used for storing binary data in non-volatile memory devices like flash memory."), + QuestionModel( + question: + "16. What is the primary application of a varactor diode in electronic circuits?", + options: [ + "Voltage amplification", + "Signal modulation", + "Frequency tuning", + "Power amplification", + ], + correctAnswerIndex: 2, + Solution: + "Varactor diodes are primarily used for frequency tuning in electronic circuits, such as in radio and television tuners."), + QuestionModel( + question: + "17. Which semiconductor device is commonly used for amplification and is known for its low power consumption and high input impedance?", + options: [ + "BJT", + "Schottky Diode", + "LDR", + "MOSFET", + ], + correctAnswerIndex: 3, + Solution: + "MOSFETs are used for amplification in electronic circuits due to their low power consumption and high input impedance."), + QuestionModel( + question: + "18. What is the primary application of a thermistor in electronic circuits?", + options: [ + "Voltage regulation", + "Temperature sensing", + "Signal modulation", + "Amplification", + ], + correctAnswerIndex: 1, + Solution: + "Thermistors are used for temperature sensing and are sensitive to changes in temperature, making them suitable for temperature measurement applications."), + QuestionModel( + question: + "19. Which semiconductor device is commonly used as a two-terminal passive component to limit current in a circuit?", + options: [ + "Thyristor", + "Diode", + "Varistor", + "Resistor", + ], + correctAnswerIndex: 3, + Solution: + "Resistors are two-terminal passive components used to limit current in a circuit and control voltage levels."), + QuestionModel( + question: + "20. What is the primary function of a crystal oscillator in electronic circuits?", + options: [ + "Amplify signals", + "Generate light", + "Provide precise timing and frequency reference", + "Switch high currents", + ], + correctAnswerIndex: 2, + Solution: + "Crystal oscillators are used to provide precise timing and a stable frequency reference in electronic circuits, ensuring accurate timekeeping and signal generation."), +]; diff --git a/lib/data/mechanical/mechanicallist.dart b/lib/data/mechanical/mechanicallist.dart new file mode 100644 index 0000000..9f02f21 --- /dev/null +++ b/lib/data/mechanical/mechanicallist.dart @@ -0,0 +1,4262 @@ +import 'package:Learner/data/electrical/electricalList.dart'; + +class QuestionModel { + final String question; + final List options; + final correctAnswerIndex; + final String Solution; + + const QuestionModel({ + required this.question, + required this.options, + required this.correctAnswerIndex, + required this.Solution, + }); +} + +List mec = [ + bits(a: Aerospace), + bits(a: Automotive), + bits(a: bearings), + bits(a: biomechanics), + bits(a: CAD), + bits(a: Computational), + bits(a: controlsystem), + bits(a: fluidflow), + bits(a: fluidmechanics), + bits(a: fluidpowersystem), + bits(a: heattransfer), + bits(a: Kinematicsanddynamics), + bits(a: machineElements), + bits(a: machinedesign), + bits(a: manufacturingprocess), + bits(a: materialscience), + bits(a: mechanics), + bits(a: mechatronics), + bits(a: solidmechanics), + bits(a: thermodynamics), +]; + +List Aerospace = [ + QuestionModel( + question: + "1. Which famous American aviator is known for being the first person to fly solo across the Atlantic Ocean?", + options: [ + "A. Amelia Earhart", + "B. Chuck Yeager", + "C. Charles Lindbergh", + "D. Neil Armstrong" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. Charles Lindbergh. Charles Lindbergh made history by completing the first solo nonstop transatlantic flight in 1927, flying from New York to Paris."), + QuestionModel( + question: + "2. What is the term for the speed at which an aircraft's forward motion overcomes the force of gravity and allows it to become airborne?", + options: [ + "A. Lift-off velocity", + "B. Stall speed", + "C. Takeoff speed", + "D. Groundspeed" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. Takeoff speed. Takeoff speed is the speed at which an aircraft generates enough lift to become airborne, typically just before the wheels leave the ground."), + QuestionModel( + question: + "3. In aerospace engineering, what is the purpose of ailerons on an aircraft's wings?", + options: [ + "A. To control pitch", + "B. To control roll", + "C. To control yaw", + "D. To control thrust" + ], + correctAnswerIndex: 1, + Solution: + "The correct answer is B. To control roll. Ailerons are control surfaces on an aircraft's wings that are used to control the rolling motion of the aircraft by varying lift on one wing compared to the other."), + QuestionModel( + question: "4. What is the primary function of a gyroscope in aviation?", + options: [ + "A. To provide in-flight entertainment", + "B. To measure airspeed", + "C. To provide stability and control reference", + "D. To navigate using GPS" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. To provide stability and control reference. Gyroscopes in aviation are used to provide a stable reference for controlling an aircraft's orientation and stability."), + QuestionModel( + question: + "5. Which law of motion, formulated by Sir Isaac Newton, explains the relationship between an aircraft's motion and the forces acting upon it?", + options: [ + "A. Newton's First Law of Motion", + "B. Newton's Second Law of Motion", + "C. Newton's Third Law of Motion", + "D. Newton's Law of Universal Gravitation" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. Newton's Third Law of Motion. Newton's Third Law of Motion states that for every action, there is an equal and opposite reaction, which is fundamental in understanding aircraft motion and control."), + QuestionModel( + question: + "6. What is the purpose of the vertical stabilizer (fin) on an aircraft's tail?", + options: [ + "A. To control pitch", + "B. To control roll", + "C. To control yaw", + "D. To control thrust" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. To control yaw. The vertical stabilizer, or fin, is responsible for controlling the yawing motion of the aircraft by providing stability and directional control."), + QuestionModel( + question: + "7. In supersonic flight, what term is used to describe the shock waves generated by an aircraft moving at a speed greater than the speed of sound?", + options: [ + "A. Sonic boom", + "B. Jetstream", + "C. Vortex wake", + "D. Thermals" + ], + correctAnswerIndex: 0, + Solution: + "The correct answer is A. Sonic boom. A sonic boom is the shockwave produced by an object traveling through the air at a speed greater than the speed of sound, creating a loud noise."), + QuestionModel( + question: + "8. Which part of a rocket engine is responsible for expelling high-speed exhaust gases to generate thrust?", + options: ["A. Nose cone", "B. Payload bay", "C. Rocket motor", "D. Fins"], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. Rocket motor. The rocket motor is the part of a rocket engine that expels high-speed exhaust gases, creating the thrust needed for propulsion."), + QuestionModel( + question: + "9. What type of engine is commonly used in most commercial jet airliners for propulsion?", + options: [ + "A. Turbofan engine", + "B. Turbojet engine", + "C. Piston engine", + "D. Ramjet engine" + ], + correctAnswerIndex: 0, + Solution: + "The correct answer is A. Turbofan engine. Most commercial jet airliners are powered by turbofan engines, which are efficient and quiet compared to other engine types."), + QuestionModel( + question: + "10. Which organization is responsible for the coordination of air traffic control and navigation services in the United States?", + options: [ + "A. NASA", + "B. FAA (Federal Aviation Administration)", + "C. NTSB (National Transportation Safety Board)", + "D. DOT (Department of Transportation)" + ], + correctAnswerIndex: 1, + Solution: + "The correct answer is B. FAA (Federal Aviation Administration). The FAA is responsible for the regulation and oversight of civil aviation, including air traffic control and navigation services in the United States."), + QuestionModel( + question: + "11. What is the term for the highest point an aircraft can reach in its flight path before descending?", + options: ["A. Apogee", "B. Perigee", "C. Altitude", "D. Zenith"], + correctAnswerIndex: 3, + Solution: + "The correct answer is D. Zenith. Zenith refers to the highest point in an aircraft's flight path before it begins to descend. It is also known as the aircraft's peak or summit."), + QuestionModel( + question: + "12. In astronautics, what is the boundary that separates the Earth's atmosphere from outer space called?", + options: [ + "A. Stratosphere", + "B. Thermosphere", + "C. Mesopause", + "D. Kármán line" + ], + correctAnswerIndex: 3, + Solution: + "The correct answer is D. Kármán line. The Kármán line, located at an altitude of approximately 100 kilometers (62 miles), is the internationally recognized boundary that separates Earth's atmosphere from outer space."), + QuestionModel( + question: + "13. What is the primary function of the International Space Station (ISS) in space exploration?", + options: [ + "A. Space tourism", + "B. Satellite deployment", + "C. Scientific research and experimentation", + "D. Lunar landings" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. Scientific research and experimentation. The ISS serves as a platform for scientific research and experiments in microgravity, as well as international cooperation in space exploration."), + QuestionModel( + question: + "14. Which American space agency is responsible for the Apollo moon landing missions?", + options: [ + "A. NASA", + "B. SpaceX", + "C. Blue Origin", + "D. ESA (European Space Agency)" + ], + correctAnswerIndex: 0, + Solution: + "The correct answer is A. NASA. NASA, the National Aeronautics and Space Administration, was responsible for the Apollo moon landing missions, including the historic Apollo 11 mission in 1969."), + QuestionModel( + question: + "15. What does the acronym UAV stand for in aerospace technology?", + options: [ + "A. Unmanned Aerial Vehicle", + "B. Ultrafast Aviation Vehicle", + "C. Universal Aerospace Vessel", + "D. Unmanned Airborne Vehicle" + ], + correctAnswerIndex: 0, + Solution: + "The correct answer is A. Unmanned Aerial Vehicle. UAV stands for Unmanned Aerial Vehicle, which refers to aircraft operated without a human pilot on board."), + QuestionModel( + question: + "16. What concept in aerospace engineering is used to describe the bending of an aircraft's wings during flight?", + options: [ + "A. Wing twist", + "B. Flutter", + "C. Wing loading", + "D. Wing flex" + ], + correctAnswerIndex: 3, + Solution: + "The correct answer is D. Wing flex. Wing flex is the bending or deformation of an aircraft's wings under various aerodynamic forces experienced during flight, such as turbulence and gusts."), + QuestionModel( + question: + "17. Which famous astronaut was the first person to set foot on the Moon during the Apollo 11 mission in 1969?", + options: [ + "A. John Glenn", + "B. Yuri Gagarin", + "C. Buzz Aldrin", + "D. Neil Armstrong" + ], + correctAnswerIndex: 3, + Solution: + "The correct answer is D. Neil Armstrong. Neil Armstrong was the first person to set foot on the Moon during the historic Apollo 11 mission."), + QuestionModel( + question: + "18. What is the term for the aircraft's ability to maintain controlled flight during a stall condition?", + options: [ + "A. Glide ratio", + "B. Stall speed", + "C. Angle of attack", + "D. Autorotation" + ], + correctAnswerIndex: 0, + Solution: + "The correct answer is A. Glide ratio. The glide ratio refers to the aircraft's ability to maintain controlled flight during a stall condition, indicating how far the aircraft can glide for a given altitude loss."), + QuestionModel( + question: + "19. What type of propulsion system is commonly used in spacecraft to maneuver in the vacuum of space?", + options: [ + "A. Turboprop engines", + "B. Ion thrusters", + "C. Ramjets", + "D. Turbofan engines" + ], + correctAnswerIndex: 1, + Solution: + "The correct answer is B. Ion thrusters. Ion thrusters are commonly used in spacecraft for propulsion in the vacuum of space due to their high efficiency and low fuel consumption."), + QuestionModel( + question: + "20. In aerodynamics, what term is used to describe the flow of air around an aircraft's wing or body when it is traveling at a high speed close to the speed of sound?", + options: [ + "A. Subsonic flow", + "B. Hypersonic flow", + "C. Transonic flow", + "D. Supersonic flow" + ], + correctAnswerIndex: 3, + Solution: + "The correct answer is D. Supersonic flow. Supersonic flow occurs when an aircraft is traveling at a high speed close to or above the speed of sound, resulting in shock waves and other aerodynamic effects.") +]; + +List Automotive = [ + QuestionModel( + question: + "1. Which part of an internal combustion engine is responsible for converting reciprocating motion into rotary motion?", + options: [ + "A. Crankshaft", + "B. Camshaft", + "C. Piston", + "D. Cylinder head" + ], + correctAnswerIndex: 0, + Solution: + "The correct answer is A. Crankshaft. The crankshaft is responsible for converting the reciprocating motion of the pistons into rotary motion, which is used to drive the vehicle's wheels."), + QuestionModel( + question: + "2. What type of transmission is most commonly found in modern passenger vehicles?", + options: [ + "A. Manual transmission", + "B. Automatic transmission", + "C. Continuously variable transmission (CVT)", + "D. Semi-automatic transmission" + ], + correctAnswerIndex: 1, + Solution: + "The correct answer is B. Automatic transmission. Automatic transmissions are the most common type of transmission in modern passenger vehicles because they are easier to use and offer a smoother driving experience."), + QuestionModel( + question: "3. What is the purpose of an automotive differential?", + options: [ + "A. To steer the vehicle", + "B. To transfer power to the wheels", + "C. To control the engine's RPM", + "D. To adjust the suspension" + ], + correctAnswerIndex: 1, + Solution: + "The correct answer is B. To transfer power to the wheels. The differential is responsible for distributing power from the engine to the wheels while allowing them to rotate at different speeds, especially during turns."), + QuestionModel( + question: + "4. Which of the following is an example of a hybrid electric vehicle (HEV)?", + options: [ + "A. Tesla Model S", + "B. Toyota Prius", + "C. Ford F-150", + "D. BMW M3" + ], + correctAnswerIndex: 1, + Solution: + "The correct answer is B. Toyota Prius. The Toyota Prius is an example of a hybrid electric vehicle (HEV) that combines a gasoline engine with an electric motor for improved fuel efficiency."), + QuestionModel( + question: + "5. What component in a car's suspension system is responsible for absorbing shocks and vibrations?", + options: [ + "A. Brake caliper", + "B. Shock absorber", + "C. Tie rod", + "D. Steering wheel" + ], + correctAnswerIndex: 1, + Solution: + "The correct answer is B. Shock absorber. The shock absorber (or damper) is designed to absorb and dampen the shocks and vibrations generated by the road, providing a smoother and more comfortable ride."), + QuestionModel( + question: + "6. In an automotive engine, what does the term 'redline' refer to?", + options: [ + "A. The color of the engine coolant", + "B. The highest engine speed at which it can safely operate", + "C. The brand of engine oil used", + "D. The engine's serial number" + ], + correctAnswerIndex: 1, + Solution: + "The correct answer is B. The highest engine speed at which it can safely operate. The redline is the maximum RPM (revolutions per minute) at which the engine can safely operate without causing damage."), + QuestionModel( + question: + "7. Which type of braking system uses hydraulic pressure to apply the brakes?", + options: [ + "A. Mechanical brakes", + "B. Drum brakes", + "C. Disc brakes", + "D. Hydraulic brakes" + ], + correctAnswerIndex: 3, + Solution: + "The correct answer is D. Hydraulic brakes. Hydraulic brakes use hydraulic pressure to transmit force from the brake pedal to the brake calipers or drums, resulting in effective braking."), + QuestionModel( + question: + "8. What does ABS stand for in the context of automotive safety?", + options: [ + "A. Advanced Braking System", + "B. Anti-Lock Braking System", + "C. Automatic Braking System", + "D. Active Brake System" + ], + correctAnswerIndex: 1, + Solution: + "The correct answer is B. Anti-Lock Braking System. ABS is an abbreviation for Anti-Lock Braking System, which prevents wheel lockup during hard braking, improving control and safety."), + QuestionModel( + question: "9. What is the primary function of an automotive radiator?", + options: [ + "A. To cool the engine oil", + "B. To filter impurities from the fuel", + "C. To cool the engine by dissipating heat", + "D. To regulate the air-fuel mixture" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. To cool the engine by dissipating heat. Radiators are designed to cool the engine by dissipating heat generated during the combustion process, helping to maintain the engine's temperature within the optimal range."), + QuestionModel( + question: + "10. What is the purpose of a turbocharger in an automotive engine?", + options: [ + "A. To increase fuel efficiency", + "B. To reduce emissions", + "C. To provide extra engine power", + "D. To improve engine longevity" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. To provide extra engine power. A turbocharger is used to force more air into the engine, which results in increased power output without the need for a larger engine."), + QuestionModel( + question: + "11. Which part of a car's exhaust system is responsible for reducing harmful emissions?", + options: [ + "A. Muffler", + "B. Catalytic converter", + "C. Tailpipe", + "D. Exhaust manifold" + ], + correctAnswerIndex: 1, + Solution: + "The correct answer is B. Catalytic converter. The catalytic converter is designed to reduce harmful emissions by converting them into less harmful substances before they are released into the atmosphere."), + QuestionModel( + question: + "12. What is the purpose of the OBD-II (On-Board Diagnostics) system in modern vehicles?", + options: [ + "A. To play music in the car", + "B. To monitor engine performance", + "C. To control the air conditioning", + "D. To operate the navigation system" + ], + correctAnswerIndex: 1, + Solution: + "The correct answer is B. To monitor engine performance. OBD-II is used to monitor and diagnose the performance of the vehicle's engine and emissions control systems, helping with maintenance and emissions compliance."), + QuestionModel( + question: "13. Which type of fuel is commonly used in diesel engines?", + options: ["A. Gasoline", "B. Propane", "C. Diesel fuel", "D. Ethanol"], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. Diesel fuel. Diesel engines typically use diesel fuel, which is a specific type of fuel designed for compression-ignition engines."), + QuestionModel( + question: + "14. What does the acronym CVT stand for in automotive transmission technology?", + options: [ + "A. Constant Velocity Transmission", + "B. Continuously Variable Transmission", + "C. Central Valve Timing", + "D. Controlled Viscosity Transfer" + ], + correctAnswerIndex: 1, + Solution: + "The correct answer is B. Continuously Variable Transmission. CVT stands for Continuously Variable Transmission, which offers a continuous range of gear ratios for improved efficiency and performance."), + QuestionModel( + question: + "15. Which automotive safety feature is designed to inflate rapidly in the event of a collision to protect occupants?", + options: [ + "A. Air conditioning system", + "B. Air suspension", + "C. Airbag", + "D. Anti-theft system" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. Airbag. Airbags are designed to inflate rapidly upon collision impact, providing a cushion to protect vehicle occupants from injury."), + QuestionModel( + question: + "16. What does AWD stand for in the context of vehicle drivetrains?", + options: [ + "A. Advanced Wheel Drive", + "B. All Weather Drive", + "C. Automatic Wheel Drive", + "D. All-Wheel Drive" + ], + correctAnswerIndex: 3, + Solution: + "The correct answer is D. All-Wheel Drive. AWD stands for All-Wheel Drive, which provides power to all four wheels simultaneously for improved traction and stability, especially in adverse road conditions."), + QuestionModel( + question: + "17. What is the purpose of the transmission fluid in an automatic transmission?", + options: [ + "A. To lubricate the engine", + "B. To cool the transmission", + "C. To power the steering system", + "D. To engage the brakes" + ], + correctAnswerIndex: 1, + Solution: + "The correct answer is B. To cool the transmission. Transmission fluid in an automatic transmission serves to cool and lubricate the transmission components, ensuring smooth operation and preventing overheating."), + QuestionModel( + question: + "18. What is the term for the process of converting chemical energy in fuel into mechanical energy in an engine?", + options: [ + "A. Combustion", + "B. Compression", + "C. Exhaustion", + "D. Ignition" + ], + correctAnswerIndex: 0, + Solution: + "The correct answer is A. Combustion. Combustion is the process in which chemical energy in fuel is converted into mechanical energy through the controlled burning of the fuel in the engine's cylinders."), + QuestionModel( + question: + "19. What is the role of the power steering system in a vehicle?", + options: [ + "A. To increase fuel efficiency", + "B. To reduce engine noise", + "C. To make steering easier for the driver", + "D. To control the vehicle's speed" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. To make steering easier for the driver. The power steering system assists the driver in turning the wheels, making it easier to steer the vehicle, especially at low speeds or when parking."), + QuestionModel( + question: + "20. In an electric vehicle (EV), what type of battery is commonly used for energy storage?", + options: [ + "A. Alkaline battery", + "B. Lead-acid battery", + "C. Lithium-ion battery", + "D. Nickel-cadmium battery" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. Lithium-ion battery. Lithium-ion batteries are commonly used in electric vehicles (EVs) for energy storage due to their high energy density, lightweight, and long cycle life.") +]; + +List bearings = [ + QuestionModel( + question: "1. What is the primary function of a bearing in a machine?", + options: [ + "A. To transmit power", + "B. To provide radial support", + "C. To create a sealing barrier", + "D. To reduce vibrations" + ], + correctAnswerIndex: 1, + Solution: + "The correct answer is B. To provide radial support. Bearings in a machine primarily provide radial support to rotating or moving components and reduce friction."), + QuestionModel( + question: + "2. Which type of bearing is known for its ability to support both radial and axial loads?", + options: [ + "A. Ball bearing", + "B. Roller bearing", + "C. Thrust bearing", + "D. Sleeve bearing" + ], + correctAnswerIndex: 1, + Solution: + "The correct answer is B. Roller bearing. Roller bearings are designed to support both radial and axial loads, making them versatile for various applications."), + QuestionModel( + question: "3. What is the purpose of lubrication in a bearing?", + options: [ + "A. To create a sealing barrier", + "B. To transmit power", + "C. To reduce friction", + "D. To change direction of rotation" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. To reduce friction. Lubrication in a bearing serves the primary purpose of reducing friction between moving parts."), + QuestionModel( + question: + "4. Which type of lubricant is commonly used in high-temperature applications due to its resistance to thermal breakdown?", + options: [ + "A. Oil-based lubricant", + "B. Grease", + "C. Dry lubricant", + "D. Silicone lubricant" + ], + correctAnswerIndex: 0, + Solution: + "The correct answer is A. Oil-based lubricant. Oil-based lubricants are often used in high-temperature applications because they have good resistance to thermal breakdown."), + QuestionModel( + question: + "5. In a plain bearing (sleeve bearing), what material is commonly used for the bearing surface?", + options: ["A. Steel", "B. Copper", "C. Bronze", "D. Aluminum"], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. Bronze. Bronze is a commonly used material for the bearing surface in plain bearings due to its excellent sliding properties."), + QuestionModel( + question: + "6. What type of lubrication system relies on gravity to feed lubricant to the bearing components?", + options: [ + "A. Oil mist lubrication", + "B. Splash lubrication", + "C. Forced lubrication", + "D. Mist lubrication" + ], + correctAnswerIndex: 1, + Solution: + "The correct answer is B. Splash lubrication. Splash lubrication relies on gravity to splash or feed lubricant onto the bearing components within the machine."), + QuestionModel( + question: "7. What is the function of a thrust bearing in a machine?", + options: [ + "A. To provide radial support", + "B. To transmit power", + "C. To reduce vibrations", + "D. To support axial loads" + ], + correctAnswerIndex: 3, + Solution: + "The correct answer is D. To support axial loads. Thrust bearings are designed to support axial (thrust) loads, preventing movement in the axial direction."), + QuestionModel( + question: + "8. Which lubrication method delivers a fine mist of lubricant to the bearing through an atomized spray?", + options: [ + "A. Grease lubrication", + "B. Oil bath lubrication", + "C. Forced lubrication", + "D. Mist lubrication" + ], + correctAnswerIndex: 3, + Solution: + "The correct answer is D. Mist lubrication. Mist lubrication delivers a fine mist of lubricant to the bearing by atomizing the lubricating oil."), + QuestionModel( + question: + "9. What is the primary function of a bearing housing in a machine?", + options: [ + "A. To reduce friction", + "B. To transmit power", + "C. To provide a housing for the bearing", + "D. To create a sealing barrier" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. To provide a housing for the bearing. A bearing housing serves as a protective enclosure for the bearing, providing support and protection."), + QuestionModel( + question: + "10. Which lubrication method utilizes a solid lubricant, such as graphite, to reduce friction between bearing surfaces?", + options: [ + "A. Oil lubrication", + "B. Grease lubrication", + "C. Dry lubrication", + "D. Mist lubrication" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. Dry lubrication. Dry lubrication uses a solid lubricant to reduce friction between bearing surfaces without a liquid lubricant."), + QuestionModel( + question: + "11. What is the primary function of an oil seal (shaft seal) in a machine element?", + options: [ + "A. To reduce friction", + "B. To transmit power", + "C. To provide radial support", + "D. To create a sealing barrier" + ], + correctAnswerIndex: 3, + Solution: + "The correct answer is D. To create a sealing barrier. An oil seal, also known as a shaft seal, is designed to create a barrier to prevent the leakage of fluids, such as oil, from the machine."), + QuestionModel( + question: + "12. Which type of lubricant is commonly used for lubricating gears and heavily loaded bearings?", + options: [ + "A. Oil-based lubricant", + "B. Dry lubricant", + "C. Silicone lubricant", + "D. Graphite lubricant" + ], + correctAnswerIndex: 0, + Solution: + "The correct answer is A. Oil-based lubricant. Oil-based lubricants are often used to lubricate gears and heavily loaded bearings due to their lubricating properties."), + QuestionModel( + question: + "13. What is the purpose of an anti-friction bearing (rolling bearing) cage or retainer?", + options: [ + "A. To provide radial support", + "B. To reduce vibrations", + "C. To prevent relative rotation", + "D. To transmit power" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. To prevent relative rotation. The cage or retainer in an anti-friction bearing holds the rolling elements in position and prevents their relative rotation."), + QuestionModel( + question: + "14. Which type of bearing is suitable for applications where alignment between shafts is critical, such as in a cardan joint (universal joint)?", + options: [ + "A. Needle roller bearing", + "B. Spherical roller bearing", + "C. Tapered roller bearing", + "D. Thrust bearing" + ], + correctAnswerIndex: 1, + Solution: + "The correct answer is B. Spherical roller bearing. Spherical roller bearings allow for angular misalignment between shafts, making them suitable for applications like cardan joints."), + QuestionModel( + question: + "15. What is the primary purpose of a thrust washer in a bearing assembly?", + options: [ + "A. To create a sealing barrier", + "B. To reduce friction", + "C. To provide axial support", + "D. To transmit power" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. To provide axial support. Thrust washers are used to provide axial support and reduce friction in bearing assemblies subject to axial loads."), + QuestionModel( + question: + "16. In a plain journal bearing, what type of lubrication system is commonly used for applications with slow-moving machinery?", + options: [ + "A. Mist lubrication", + "B. Forced lubrication", + "C. Oil bath lubrication", + "D. Grease lubrication" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. Oil bath lubrication. Oil bath lubrication is commonly used in plain journal bearings for slow-moving machinery where a constant supply of oil is required."), + QuestionModel( + question: + "17. Which type of rolling bearing is typically used for high radial load applications and can accommodate both radial and axial loads?", + options: [ + "A. Needle roller bearing", + "B. Spherical roller bearing", + "C. Tapered roller bearing", + "D. Thrust bearing" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. Tapered roller bearing. Tapered roller bearings are used for high radial load applications and can accommodate both radial and axial loads."), + QuestionModel( + question: + "18. What is the primary function of a bearing preload in an angular contact ball bearing?", + options: [ + "A. To reduce friction", + "B. To create a sealing barrier", + "C. To provide axial support", + "D. To remove radial play" + ], + correctAnswerIndex: 3, + Solution: + "The correct answer is D. To remove radial play. Bearing preload in an angular contact ball bearing removes any radial play or clearance to ensure precise axial positioning."), + QuestionModel( + question: + "19. In a machine element, what is the primary purpose of a thrust collar?", + options: [ + "A. To provide radial support", + "B. To reduce vibrations", + "C. To support axial loads", + "D. To create a sealing barrier" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. To support axial loads. A thrust collar is used to provide axial support and prevent axial movement in machine elements."), + QuestionModel( + question: + "20. Which type of bearing is commonly used in applications where space is limited, and high radial loads need to be supported?", + options: [ + "A. Needle roller bearing", + "B. Spherical roller bearing", + "C. Tapered roller bearing", + "D. Thrust bearing" + ], + correctAnswerIndex: 0, + Solution: + "The correct answer is A. Needle roller bearing. Needle roller bearings are used in applications with limited space and high radial loads due to their compact design.") +]; + +List biomechanics = [ + QuestionModel( + question: + "1. Which of the following is a fundamental concept in biomechanics that describes the study of forces and their effects on the human body?", + options: ["A. Physiology", "B. Anatomy", "C. Kinematics", "D. Dynamics"], + correctAnswerIndex: 3, + Solution: + "The correct answer is D. Dynamics. Biomechanics involves the study of forces and their effects on the human body, and dynamics is a fundamental branch of biomechanics that focuses on the study of motion and the forces that cause it."), + QuestionModel( + question: + "2. What is the term for the study of the structure and function of the human body, including bones, muscles, and organs?", + options: [ + "A. Physiology", + "B. Anatomy", + "C. Kinesiology", + "D. Anthropology" + ], + correctAnswerIndex: 1, + Solution: + "The correct answer is B. Anatomy. Anatomy is the branch of biology that focuses on the study of the structure and organization of the human body, including its bones, muscles, and organs."), + QuestionModel( + question: + "3. Which biomechanical concept refers to the study of the motion of the human body without considering the forces that cause the motion?", + options: [ + "A. Kinematics", + "B. Dynamics", + "C. Kinesiology", + "D. Anthropometry" + ], + correctAnswerIndex: 0, + Solution: + "The correct answer is A. Kinematics. Kinematics in biomechanics involves the study of the motion of the human body, including parameters like speed, acceleration, and displacement, without considering the forces that cause the motion."), + QuestionModel( + question: + "4. In biomechanics, what is the term for the branch of science that deals with the measurement of the human body's physical properties and dimensions?", + options: [ + "A. Physiology", + "B. Anthropology", + "C. Ergonomics", + "D. Anthropometry" + ], + correctAnswerIndex: 3, + Solution: + "The correct answer is D. Anthropometry. Anthropometry is the branch of science that focuses on the measurement of the physical properties and dimensions of the human body, such as height, weight, and limb length."), + QuestionModel( + question: + "5. Which of the following is an example of a joint in the human body that allows for rotational motion?", + options: [ + "A. Hinge joint (elbow)", + "B. Ball and socket joint (hip)", + "C. Fixed joint (skull)", + "D. Saddle joint (thumb)" + ], + correctAnswerIndex: 1, + Solution: + "The correct answer is B. Ball and socket joint (hip). Ball and socket joints, like the hip joint, allow for rotational motion in multiple directions and are essential for movements such as hip flexion and rotation."), + QuestionModel( + question: + "6. Which biomechanical concept describes the study of how external forces affect the human body's movement and stability?", + options: [ + "A. Kinematics", + "B. Dynamics", + "C. Anthropometry", + "D. Ergonomics" + ], + correctAnswerIndex: 1, + Solution: + "The correct answer is B. Dynamics. Dynamics in biomechanics focuses on the study of how external forces affect the motion and stability of the human body, including concepts like balance and equilibrium."), + QuestionModel( + question: + "7. What is the term for the study of the mechanics of human movement, including gait analysis and posture assessment?", + options: [ + "A. Physiology", + "B. Kinesiology", + "C. Anthropometry", + "D. Ergonomics" + ], + correctAnswerIndex: 1, + Solution: + "The correct answer is B. Kinesiology. Kinesiology is the study of the mechanics of human movement, encompassing areas like gait analysis, posture assessment, and exercise science."), + QuestionModel( + question: + "8. In the context of biomechanics, what is the name for the application of scientific and engineering principles to improve the design of tools, equipment, and workspaces for human use?", + options: [ + "A. Anthropology", + "B. Anthropometry", + "C. Ergonomics", + "D. Kinesiology" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. Ergonomics. Ergonomics involves the application of scientific and engineering principles to enhance the design of tools, equipment, and workspaces to optimize human comfort and performance."), + QuestionModel( + question: + "9. Which part of the human spine is responsible for supporting the head and allowing for its rotational movement?", + options: [ + "A. Thoracic spine", + "B. Lumbar spine", + "C. Cervical spine", + "D. Sacral spine" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. Cervical spine. The cervical spine, located in the neck region, supports the head and enables its rotational movement, as well as flexion and extension."), + QuestionModel( + question: + "10. In biomechanics, what is the term for the resistance of a material to deformation, such as stretching or compression?", + options: ["A. Tension", "B. Compression", "C. Stress", "D. Strain"], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. Stress. Stress in biomechanics represents the resistance of a material to deformation, which can include stretching, compression, or shearing forces."), + QuestionModel( + question: + "11. What type of muscle contraction occurs when the muscle shortens while generating force, as in lifting a weight?", + options: [ + "A. Isometric contraction", + "B. Concentric contraction", + "C. Eccentric contraction", + "D. Static contraction" + ], + correctAnswerIndex: 1, + Solution: + "The correct answer is B. Concentric contraction. Concentric contraction occurs when a muscle shortens while generating force, such as when lifting a weight during a bicep curl."), + QuestionModel( + question: + "12. Which of the following is an example of a commonly used medical imaging technique to study the biomechanics of the human body?", + options: [ + "A. Electrocardiogram (ECG)", + "B. Positron emission tomography (PET)", + "C. Magnetic resonance imaging (MRI)", + "D. Electroencephalogram (EEG)" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. Magnetic resonance imaging (MRI). MRI is a medical imaging technique that provides detailed images of the internal structures of the human body and is often used to study biomechanics."), + QuestionModel( + question: + "13. What is the term for the study of the interaction between living organisms and the mechanical aspects of their environment?", + options: [ + "A. Kinesiology", + "B. Ergonomics", + "C. Biomechanics", + "D. Anthropology" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. Biomechanics. Biomechanics is the study of the mechanical aspects of living organisms, including how they interact with their environment and how they move and function."), + QuestionModel( + question: + "14. Which of the following is a common parameter used to measure the mechanical stress on bones and tissues in biomechanics?", + options: [ + "A. Cardiac output", + "B. Strain rate", + "C. Body temperature", + "D. Strain" + ], + correctAnswerIndex: 3, + Solution: + "The correct answer is D. Strain. Strain is a common parameter used in biomechanics to measure the deformation or elongation of bones and tissues under mechanical stress."), + QuestionModel( + question: + "15. What is the term for the study of the interaction between the human body and the external environment to optimize performance and prevent injury?", + options: [ + "A. Kinesiology", + "B. Ergonomics", + "C. Anthropometry", + "D. Biomechanics" + ], + correctAnswerIndex: 1, + Solution: + "The correct answer is B. Ergonomics. Ergonomics focuses on the study of the interaction between the human body and the external environment to optimize performance, comfort, and safety while preventing injury."), + QuestionModel( + question: + "16. Which of the following factors contributes to the understanding of human biomechanics in sports and exercise?", + options: ["A. Gravity", "B. Time zones", "C. Geology", "D. Astronomy"], + correctAnswerIndex: 0, + Solution: + "The correct answer is A. Gravity. Gravity is a fundamental factor that influences human biomechanics in sports and exercise, affecting movements, balance, and resistance to motion."), + QuestionModel( + question: + "17. In the context of biomechanics, what is the term for the study of the motion and posture of the human body, especially during physical activities?", + options: [ + "A. Anatomy", + "B. Kinesiology", + "C. Anthropometry", + "D. Kinematics" + ], + correctAnswerIndex: 3, + Solution: + "The correct answer is D. Kinematics. Kinematics in biomechanics involves the study of the motion and posture of the human body, particularly during physical activities and exercises."), + QuestionModel( + question: + "18. Which of the following is a common method used to analyze and quantify the forces acting on the human body during movements or activities?", + options: [ + "A. Anthropometry", + "B. Goniometry", + "C. Electromyography (EMG)", + "D. Holography" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. Electromyography (EMG). Electromyography is a common method used in biomechanics to analyze and quantify the electrical activity of muscles, allowing researchers to assess the forces generated during movements."), + QuestionModel( + question: + "19. Which term in biomechanics refers to the study of how muscles produce forces and motion in the human body?", + options: [ + "A. Myology", + "B. Anthropometry", + "C. Biodynamics", + "D. Anthropology" + ], + correctAnswerIndex: 0, + Solution: + "The correct answer is A. Myology. Myology is the study of muscle structure and function, including how muscles produce forces and motion in the human body."), + QuestionModel( + question: + "20. What is the term for the physiological and biomechanical study of the mechanics of the human heart and its associated blood vessels?", + options: ["A. Cardiology", "B. Hematology", "C. Angiology", "D. Myology"], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. Angiology. Angiology is the branch of medicine and biomechanics that focuses on the study of the mechanics of the human heart and its associated blood vessels.") +]; + +List CAD = [ + QuestionModel( + question: + "1. What does CAD stand for in the context of design and engineering?", + options: [ + "Centralized Architecture Database", + "Computer-Aided Design", + "Creative Architecture Drawing", + "Complex Algorithm Development" + ], + correctAnswerIndex: 1, + Solution: + "CAD stands for Computer-Aided Design, a technology used for designing and creating digital models of physical objects."), + QuestionModel( + question: + "2. In CAD software, what is the purpose of the 'extrude' tool?", + options: [ + "To create 2D sketches", + "To add material or depth to a 3D shape", + "To apply colors and textures", + "To measure distances" + ], + correctAnswerIndex: 1, + Solution: + "The 'extrude' tool is used to add material or depth to a 3D shape, effectively turning 2D sketches into 3D objects."), + QuestionModel( + question: + "3. Which file format is commonly used for exchanging CAD drawings and models between different software applications?", + options: [ + "PDF (Portable Document Format)", + "DOCX (Microsoft Word Document)", + "CSV (Comma-Separated Values)", + "DXF (Drawing Exchange Format)" + ], + correctAnswerIndex: 3, + Solution: + "DXF (Drawing Exchange Format) is a common file format for exchanging CAD drawings and models between different software applications."), + QuestionModel( + question: + "4. What is the primary benefit of parametric modeling in CAD design?", + options: [ + "It simplifies the design process", + "It allows for direct 3D printing", + "It uses only basic geometric shapes", + "It enables design changes and updates" + ], + correctAnswerIndex: 3, + Solution: + "Parametric modeling in CAD design allows for design changes and updates by capturing design intent and relationships between elements."), + QuestionModel( + question: "5. In CAD, what does 'rendering' refer to?", + options: [ + "The initial design phase", + "Creating a 3D model from 2D sketches", + "Generating a photorealistic image of a 3D model", + "Measuring distances and angles" + ], + correctAnswerIndex: 2, + Solution: + "Rendering in CAD refers to generating a photorealistic image of a 3D model, often used for presentations and visualizations."), + QuestionModel( + question: + "6. Which CAD tool is specifically designed for creating architectural designs and floor plans?", + options: ["AutoCAD", "SolidWorks", "CATIA", "Blender"], + correctAnswerIndex: 0, + Solution: + "AutoCAD is a CAD tool specifically designed for creating architectural designs and floor plans."), + QuestionModel( + question: + "7. What is the purpose of 'constraints' in parametric CAD modeling?", + options: [ + "To add random design elements", + "To limit the use of colors in the design", + "To define relationships and rules for geometric shapes", + "To create artistic renderings" + ], + correctAnswerIndex: 2, + Solution: + "Constraints in parametric CAD modeling are used to define relationships and rules for geometric shapes, ensuring that they maintain specific properties or proportions."), + QuestionModel( + question: + "8. Which term is often used in CAD to describe a 3D model created by combining primitive shapes like cubes, spheres, and cylinders?", + options: [ + "Parametric model", + "Bézier curve", + "Polygon mesh", + "NURBS surface" + ], + correctAnswerIndex: 2, + Solution: + "A 'polygon mesh' is a term used in CAD to describe a 3D model created by combining primitive shapes like cubes, spheres, and cylinders."), + QuestionModel( + question: "9. What is the role of 'layer management' in CAD software?", + options: [ + "To manage the software's performance", + "To categorize and organize elements in the design", + "To add a 3D effect to the model", + "To control the printing process" + ], + correctAnswerIndex: 1, + Solution: + "Layer management in CAD software is used to categorize and organize elements in the design, making it easier to work with complex models."), + QuestionModel( + question: + "10. Which of the following is a common feature in CAD software that allows you to create a duplicate of an object at a specific distance and orientation?", + options: [ + "Copy-Paste function", + "Clone tool", + "Mirror command", + "Group and Ungroup" + ], + correctAnswerIndex: 2, + Solution: + "The 'Mirror' command is a common feature in CAD software that allows you to create a duplicate of an object at a specific distance and orientation."), + QuestionModel( + question: "11. What is the primary purpose of CAD libraries or 'blocks'?", + options: [ + "To display pop-up ads", + "To store design data on a cloud server", + "To provide pre-made and reusable design elements", + "To secure CAD software from unauthorized access" + ], + correctAnswerIndex: 2, + Solution: + "CAD libraries or 'blocks' provide pre-made and reusable design elements, saving time and effort in the design process."), + QuestionModel( + question: + "12. What is the primary function of the 'boolean operations' in CAD?", + options: [ + "To perform logical operations", + "To create user interfaces", + "To analyze stress and strain", + "To modify 3D shapes using union, subtraction, and intersection" + ], + correctAnswerIndex: 3, + Solution: + "Boolean operations in CAD are used to modify 3D shapes through union, subtraction, and intersection, allowing for complex shape manipulation."), + QuestionModel( + question: "13. In CAD, what is 'parametric design' known for?", + options: [ + "Its inability to handle complex geometries", + "Its reliance on artistic design principles", + "Its use of predefined equations and constraints", + "Its focus on aesthetic appeal" + ], + correctAnswerIndex: 2, + Solution: + "Parametric design in CAD is known for its use of predefined equations and constraints to create and modify designs."), + QuestionModel( + question: "14. What is 'BIM' in the context of CAD and architecture?", + options: [ + "Basic Interior Modeling", + "Building Information Modeling", + "Biometric Identity Measurement", + "Binary Image Manipulation" + ], + correctAnswerIndex: 1, + Solution: + "'BIM' stands for Building Information Modeling, a process that involves creating and managing digital representations of physical and functional characteristics of a building or infrastructure."), + QuestionModel( + question: "15. What does 'CAM' stand for when it complements CAD?", + options: [ + "Computer-Aided Mathematics", + "Computer-Aided Manufacturing", + "Computer Animation Modeling", + "Creative Artistic Modeling" + ], + correctAnswerIndex: 1, + Solution: + "'CAM' stands for Computer-Aided Manufacturing, which is the use of software to control machine tools and 3D printers in the manufacturing process."), + QuestionModel( + question: + "16. Which CAD software is known for its use in industrial and mechanical design, offering parametric modeling capabilities?", + options: ["AutoCAD", "Blender", "SketchUp", "SolidWorks"], + correctAnswerIndex: 3, + Solution: + "SolidWorks is known for its use in industrial and mechanical design and offers parametric modeling capabilities."), + QuestionModel( + question: + "17. What is the primary advantage of 3D CAD modeling over 2D CAD design?", + options: [ + "Higher file compatibility", + "Faster rendering times", + "Improved accuracy and visualization", + "Lower hardware requirements" + ], + correctAnswerIndex: 2, + Solution: + "3D CAD modeling offers improved accuracy and visualization, allowing for better understanding and representation of complex designs."), + QuestionModel( + question: "18. In CAD, what does 'NURBS' refer to?", + options: [ + "Non-Uniform Rational B-Splines", + "Numerical User Resource-Based System", + "Newly Unified Rendering Standards", + "Natural User Reaction to CAD Systems" + ], + correctAnswerIndex: 0, + Solution: + "'NURBS' stands for Non-Uniform Rational B-Splines, a mathematical model used in CAD for creating and representing curves and surfaces."), + QuestionModel( + question: + "19. What is the primary purpose of 'assembly modeling' in CAD?", + options: [ + "To create artistic designs", + "To combine multiple 2D sketches into one", + "To manage and visualize complex assemblies of components", + "To measure the weight of a design" + ], + correctAnswerIndex: 2, + Solution: + "Assembly modeling in CAD is used to manage and visualize complex assemblies of components, allowing for accurate representations of how parts fit together."), + QuestionModel( + question: + "20. What role does 'constraints' play in 2D sketching in CAD software?", + options: [ + "Constraints are not relevant in 2D sketching.", + "Constraints help to limit the file size.", + "Constraints are used to define relationships between sketch elements.", + "Constraints are used to apply colors to sketches." + ], + correctAnswerIndex: 2, + Solution: + "Constraints in 2D sketching are used to define relationships between sketch elements, ensuring that they maintain specific positions and sizes.") +]; + +List Computational = [ + QuestionModel( + question: "1. What is Computational Mechanics?", + options: [ + "A. A branch of mathematics", + "B. The study of physical materials only", + "C. The application of numerical methods to solve engineering problems", + "D. The study of computational devices" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. The application of numerical methods to solve engineering problems. Computational Mechanics is a field that involves using numerical methods and computational tools to solve engineering and physical problems."), + QuestionModel( + question: + "2. What is the primary advantage of using computational methods in Mechanics?", + options: [ + "A. Reduced accuracy", + "B. Inability to model complex systems", + "C. Speed and efficiency", + "D. Limited applicability" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. Speed and efficiency. Computational methods in Mechanics offer the advantage of solving complex problems more quickly and efficiently than traditional analytical methods."), + QuestionModel( + question: + "3. Which mathematical concept is at the core of computational simulations in Mechanics?", + options: ["A. Geometry", "B. Trigonometry", "C. Algebra", "D. Calculus"], + correctAnswerIndex: 3, + Solution: + "The correct answer is D. Calculus. Calculus is a fundamental mathematical concept that plays a crucial role in computational simulations, as it deals with rates of change and integration."), + QuestionModel( + question: + "4. What is the primary purpose of Finite Element Analysis (FEA) in Computational Mechanics?", + options: [ + "A. To study thermodynamics", + "B. To analyze the motion of celestial bodies", + "C. To model physical structures and solve stress and deformation problems", + "D. To perform quantum calculations" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. To model physical structures and solve stress and deformation problems. FEA is widely used in Computational Mechanics to model and analyze structures under various loads and conditions."), + QuestionModel( + question: + "5. What is the role of a mesh in Finite Element Analysis (FEA)?", + options: [ + "A. To represent the material's color", + "B. To measure the density of the material", + "C. To divide a complex geometry into smaller, simpler elements", + "D. To calculate temperature changes in materials" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. To divide a complex geometry into smaller, simpler elements. In FEA, a mesh is used to discretize a complex structure into smaller elements for analysis."), + QuestionModel( + question: + "6. Which type of problems can Computational Mechanics address?", + options: [ + "A. Only linear problems", + "B. Only static problems", + "C. Both linear and nonlinear problems", + "D. Only problems with exact analytical solutions" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. Both linear and nonlinear problems. Computational Mechanics can address a wide range of problems, including both linear and nonlinear ones, making it a versatile tool for engineering analysis."), + QuestionModel( + question: + "7. What is the primary goal of a numerical solver in Computational Mechanics?", + options: [ + "A. To determine the material's color", + "B. To provide a solution to a mathematical model of a physical problem", + "C. To measure the density of the material", + "D. To analyze the temperature changes in materials" + ], + correctAnswerIndex: 1, + Solution: + "The correct answer is B. To provide a solution to a mathematical model of a physical problem. Numerical solvers in Computational Mechanics aim to provide solutions to mathematical models that represent physical problems."), + QuestionModel( + question: + "8. What is the primary benefit of using numerical methods in Computational Mechanics?", + options: [ + "A. Lack of precision", + "B. Reduced computational efficiency", + "C. Ability to handle complex geometry and boundary conditions", + "D. Limited modeling capabilities" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. Ability to handle complex geometry and boundary conditions. Numerical methods in Computational Mechanics are well-suited for handling complex geometries and a wide range of boundary conditions."), + QuestionModel( + question: + "9. In Computational Mechanics, what does the term 'convergence' refer to?", + options: [ + "A. A geometric shape", + "B. A lack of mathematical solutions", + "C. The process of iterative refinement to reach a stable solution", + "D. A complex equation" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. The process of iterative refinement to reach a stable solution. Convergence in Computational Mechanics refers to the iterative process of refining a solution until it reaches a stable and accurate result."), + QuestionModel( + question: + "10. What is the primary limitation of numerical simulations in Computational Mechanics?", + options: [ + "A. Inability to handle any type of physical problem", + "B. Dependence on analytical solutions", + "C. The potential for numerical errors and limitations", + "D. Lack of computational efficiency" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. The potential for numerical errors and limitations. While powerful, numerical simulations can be subject to errors and limitations, particularly when dealing with highly complex or poorly conditioned problems."), + QuestionModel( + question: + "11. What is the main objective of a sensitivity analysis in Computational Mechanics?", + options: [ + "A. To determine the material's color under stress", + "B. To calculate temperature changes in materials", + "C. To evaluate the effect of variations in input parameters on the model's output", + "D. To analyze the motion of celestial bodies" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. To evaluate the effect of variations in input parameters on the model's output. Sensitivity analysis in Computational Mechanics assesses how changes in input parameters affect the model's output and predictions."), + QuestionModel( + question: + "12. In Computational Mechanics, what is 'parallel processing' used for?", + options: [ + "A. To determine the material's color", + "B. To increase computational efficiency by using multiple processors or cores", + "C. To measure the density of the material", + "D. To analyze the temperature changes in materials" + ], + correctAnswerIndex: 1, + Solution: + "The correct answer is B. To increase computational efficiency by using multiple processors or cores. Parallel processing in Computational Mechanics involves using multiple processors or cores to accelerate simulations and improve efficiency."), + QuestionModel( + question: + "13. What is the primary role of boundary conditions in Computational Mechanics simulations?", + options: [ + "A. To define the material's color", + "B. To measure the density of the material", + "C. To establish constraints and environmental conditions for the model", + "D. To calculate temperature changes in materials" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. To establish constraints and environmental conditions for the model. Boundary conditions in Computational Mechanics simulations define the constraints and environmental conditions that affect the behavior of the model."), + QuestionModel( + question: + "14. What is the term for the process of refining a numerical solution by iteratively reducing the error between the numerical and exact solutions?", + options: [ + "A. Accuracy enhancement", + "B. Convergence", + "C. Approximation", + "D. Overshoot correction" + ], + correctAnswerIndex: 1, + Solution: + "The correct answer is B. Convergence. Convergence is the process of iteratively reducing the error between the numerical solution and the exact solution, leading to a more accurate result."), + QuestionModel( + question: + "15. In Computational Mechanics, what does the term 'post-processing' refer to?", + options: [ + "A. Evaluating the density of materials", + "B. Analyzing the temperature changes in materials", + "C. The analysis of simulation results to obtain engineering quantities of interest", + "D. Calculating the motion of celestial bodies" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. The analysis of simulation results to obtain engineering quantities of interest. Post-processing in Computational Mechanics involves analyzing simulation results to extract specific engineering quantities of interest."), + QuestionModel( + question: + "16. What is the primary application of Computational Mechanics in the field of aerospace engineering?", + options: [ + "A. Analyzing financial data", + "B. Studying marine life", + "C. Simulating fluid dynamics in aircraft design", + "D. Analyzing agricultural patterns" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. Simulating fluid dynamics in aircraft design. Computational Mechanics is used extensively in aerospace engineering to simulate fluid dynamics and optimize aircraft design."), + QuestionModel( + question: + "17. What is the primary advantage of using Computational Mechanics for structural analysis?", + options: [ + "A. Limited ability to model complex structures", + "B. Reduced accuracy", + "C. Ability to analyze and optimize complex structures", + "D. Dependence on physical experiments" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. Ability to analyze and optimize complex structures. Computational Mechanics is advantageous for structural analysis due to its capability to model and optimize complex structures efficiently."), + QuestionModel( + question: + "18. In Computational Mechanics, what is 'pre-processing' used for?", + options: [ + "A. Analyzing temperature changes in materials", + "B. Defining simulation boundary conditions", + "C. Evaluating the density of materials", + "D. Calculating financial data" + ], + correctAnswerIndex: 1, + Solution: + "The correct answer is B. Defining simulation boundary conditions. Pre-processing in Computational Mechanics involves setting up the simulation, defining boundary conditions, and preparing the model for analysis."), + QuestionModel( + question: + "19. What is the term for a numerical technique used to solve partial differential equations in Computational Mechanics?", + options: [ + "A. Algebra", + "B. Geometry", + "C. Finite Element Method (FEM)", + "D. Calculus" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. Finite Element Method (FEM). The Finite Element Method (FEM) is a numerical technique commonly used to solve partial differential equations in Computational Mechanics."), + QuestionModel( + question: + "20. What is the primary advantage of using numerical simulations in Computational Mechanics for material testing?", + options: [ + "A. Inability to model different materials", + "B. Dependence on analytical solutions", + "C. Ability to model material behavior under various conditions and loads", + "D. Lack of accuracy" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. Ability to model material behavior under various conditions and loads. Numerical simulations in Computational Mechanics allow for the modeling of material behavior under a wide range of conditions and loads, providing valuable insights for material testing.") +]; + +List controlsystem = [ + QuestionModel( + question: "1. What is the primary purpose of a control system?", + options: [ + "A. To generate random signals", + "B. To maintain a desired output in the presence of disturbances", + "C. To analyze historical data", + "D. To perform mathematical computations" + ], + correctAnswerIndex: 1, + Solution: + "The correct answer is B. To maintain a desired output in the presence of disturbances. Control systems are designed to regulate and stabilize a system's output, ensuring it remains at the desired level even when disturbances are present."), + QuestionModel( + question: + "2. Which of the following best describes an open-loop control system?", + options: [ + "A. It relies on feedback to adjust the control input", + "B. It operates without any control input", + "C. It adjusts the control input based on sensor measurements", + "D. It is highly sensitive to disturbances" + ], + correctAnswerIndex: 1, + Solution: + "The correct answer is B. It operates without any control input. In an open-loop control system, the control input is set without considering the system's output or feedback."), + QuestionModel( + question: + "3. What is the primary role of feedback in a closed-loop control system?", + options: [ + "A. To generate control signals", + "B. To introduce disturbances", + "C. To adjust the control input based on the system's output", + "D. To perform mathematical calculations" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. To adjust the control input based on the system's output. Feedback in a closed-loop control system provides information about the system's output, allowing the control input to be adjusted accordingly to maintain the desired output."), + QuestionModel( + question: + "4. What is the primary advantage of a proportional (P) controller in a control system?", + options: [ + "A. It eliminates all disturbances", + "B. It provides fast response but may lead to oscillations", + "C. It reduces control input to zero", + "D. It cannot be used in control systems" + ], + correctAnswerIndex: 1, + Solution: + "The correct answer is B. It provides fast response but may lead to oscillations. A proportional (P) controller offers a fast response to errors, but it can lead to oscillations when used alone."), + QuestionModel( + question: + "5. What does the integral (I) controller in a control system primarily address?", + options: [ + "A. Eliminating disturbances", + "B. Reducing control input to zero", + "C. Correcting steady-state errors", + "D. Providing fast response" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. Correcting steady-state errors. The integral (I) controller is used to eliminate steady-state errors in a control system by continuously adjusting the control input."), + QuestionModel( + question: + "6. In control systems, what is the primary function of the derivative (D) controller?", + options: [ + "A. To eliminate disturbances", + "B. To introduce oscillations", + "C. To reduce control input to zero", + "D. To dampen oscillations and improve system stability" + ], + correctAnswerIndex: 3, + Solution: + "The correct answer is D. To dampen oscillations and improve system stability. The derivative (D) controller is used to dampen oscillations and improve the stability of the control system."), + QuestionModel( + question: + "7. What is the term for the difference between the desired output and the actual system output in a control system?", + options: ["A. Setpoint", "B. Feedback", "C. Error", "D. Disturbance"], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. Error. The error represents the difference between the desired or reference output and the actual output in a control system."), + QuestionModel( + question: + "8. What is the primary purpose of a transfer function in control system analysis?", + options: [ + "A. To introduce disturbances", + "B. To measure control input", + "C. To analyze historical data", + "D. To describe the relationship between the input and output of a system" + ], + correctAnswerIndex: 3, + Solution: + "The correct answer is D. To describe the relationship between the input and output of a system. Transfer functions are used to mathematically describe the relationship between the input and output of a control system."), + QuestionModel( + question: + "9. What is a 'pole' in the context of control system stability analysis?", + options: [ + "A. A reference point for control input", + "B. A point where control input is zero", + "C. A characteristic of the system's transfer function that affects stability", + "D. A type of control input signal" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. A characteristic of the system's transfer function that affects stability. In control system stability analysis, poles represent the locations in the complex plane that determine the system's stability."), + QuestionModel( + question: "10. In control systems, what is meant by 'system response'?", + options: [ + "A. The ability to eliminate all disturbances", + "B. The way a system reacts to control input and disturbances", + "C. The control input signal", + "D. The setpoint value" + ], + correctAnswerIndex: 1, + Solution: + "The correct answer is B. The way a system reacts to control input and disturbances. System response refers to how a system reacts to control input and disturbances, including its transient and steady-state behavior."), + QuestionModel( + question: + "11. Which of the following terms describes the process of adjusting control parameters to achieve desired system performance?", + options: [ + "A. Disturbance rejection", + "B. Feedback control", + "C. Control tuning", + "D. Steady-state analysis" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. Control tuning. Control tuning involves the process of adjusting control parameters to achieve the desired performance and stability of a control system."), + QuestionModel( + question: + "12. In control systems, what is the term for an input signal used to test and analyze the system's behavior?", + options: [ + "A. Setpoint", + "B. Feedback signal", + "C. Disturbance", + "D. Test signal or input" + ], + correctAnswerIndex: 3, + Solution: + "The correct answer is D. Test signal or input. A test signal or input is used to analyze and assess the behavior and performance of a control system."), + QuestionModel( + question: + "13. What is the primary function of a root locus plot in control system analysis?", + options: [ + "A. To eliminate disturbances", + "B. To provide control input", + "C. To establish constraints and environmental conditions for the model", + "D. To analyze the system's stability and behavior" + ], + correctAnswerIndex: 3, + Solution: + "The correct answer is D. To analyze the system's stability and behavior. A root locus plot is used to analyze the stability and behavior of a control system by showing how the system's poles change with varying control parameters."), + QuestionModel( + question: + "14. What is the term for a controller that adjusts the control input based on the difference between the desired output and the current output?", + options: [ + "A. Proportional (P) controller", + "B. Integral (I) controller", + "C. Derivative (D) controller", + "D. Closed-loop controller" + ], + correctAnswerIndex: 3, + Solution: + "The correct answer is D. Closed-loop controller. A closed-loop controller adjusts the control input based on feedback from the system's output and the desired output to maintain control."), + QuestionModel( + question: + "15. In control systems, what is the term for the range of control input values over which the system's output remains stable and within acceptable limits?", + options: [ + "A. Setpoint", + "B. Control input", + "C. Control signal", + "D. Control bandwidth" + ], + correctAnswerIndex: 3, + Solution: + "The correct answer is D. Control bandwidth. Control bandwidth is the range of control input values over which the system's output remains stable and within acceptable limits."), + QuestionModel( + question: + "16. What is the primary advantage of using a lead compensator in control system design?", + options: [ + "A. Improved steady-state accuracy", + "B. Increased sensitivity to disturbances", + "C. Slower system response", + "D. Decreased system stability" + ], + correctAnswerIndex: 0, + Solution: + "The correct answer is A. Improved steady-state accuracy. A lead compensator is used to improve steady-state accuracy in a control system."), + QuestionModel( + question: + "17. In control systems, what is the term for a signal or disturbance that affects the system's output but is not part of the controlled variable?", + options: [ + "A. Setpoint", + "B. Control input", + "C. Disturbance", + "D. Feedback signal" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. Disturbance. A disturbance is a signal or external factor that affects the system's output but is not part of the controlled variable."), + QuestionModel( + question: + "18. What is the primary purpose of a Nyquist plot in control system analysis?", + options: [ + "A. To eliminate disturbances", + "B. To measure control input", + "C. To analyze historical data", + "D. To assess the stability and behavior of a system" + ], + correctAnswerIndex: 3, + Solution: + "The correct answer is D. To assess the stability and behavior of a system. A Nyquist plot is used to assess the stability and behavior of a control system by providing information about the system's frequency response."), + QuestionModel( + question: + "19. What is the term for the characteristic of a control system that determines how quickly it responds to changes in the input or disturbances?", + options: [ + "A. Steady-state error", + "B. Control bandwidth", + "C. Setpoint", + "D. Transient response" + ], + correctAnswerIndex: 3, + Solution: + "The correct answer is D. Transient response. Transient response describes how quickly a control system responds to changes in the input or disturbances before reaching a new steady-state."), + QuestionModel( + question: + "20. In control systems, what is the primary function of a lead-lag compensator?", + options: [ + "A. To eliminate all disturbances", + "B. To provide fast response", + "C. To improve both steady-state accuracy and transient response", + "D. To introduce oscillations" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. To improve both steady-state accuracy and transient response. A lead-lag compensator is designed to improve both steady-state accuracy and transient response in a control system.") +]; + +List fluidflow = [ + QuestionModel( + question: "1. What is the primary characteristic of a Newtonian fluid?", + options: [ + "A. Constant viscosity with changing shear rate", + "B. Viscosity dependent on pressure", + "C. Viscosity increasing exponentially with temperature", + "D. No viscosity" + ], + correctAnswerIndex: 0, + Solution: + "The correct answer is A. Constant viscosity with changing shear rate. Newtonian fluids maintain a constant viscosity regardless of changes in shear rate."), + QuestionModel( + question: "2. In fluid flow, what does Reynolds number (Re) describe?", + options: [ + "A. Flow rate", + "B. Viscosity", + "C. Turbulence and flow regime", + "D. Fluid density" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. Turbulence and flow regime. Reynolds number (Re) is used to determine the flow regime, whether laminar or turbulent, based on the ratio of inertial forces to viscous forces."), + QuestionModel( + question: + "3. What is the equation for calculating the pressure drop (ΔP) in a fluid flowing through a pipe?", + options: [ + "A. ΔP = ρgh", + "B. ΔP = ηV", + "C. ΔP = f (L/D) (ρV²/2)", + "D. ΔP = P₁ - P₂" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. ΔP = f (L/D) (ρV²/2). The Darcy-Weisbach equation is used to calculate pressure drop in a pipe based on factors like pipe length, diameter, fluid density, velocity, and friction factor (f)."), + QuestionModel( + question: + "4. Which of the following factors can lead to increased friction losses in fluid flow through pipes?", + options: [ + "A. Smoother pipe surface", + "B. Higher flow velocity", + "C. Decreased fluid viscosity", + "D. Larger pipe diameter" + ], + correctAnswerIndex: 1, + Solution: + "The correct answer is B. Higher flow velocity. Increased flow velocity can lead to higher friction losses due to increased shear stress at the pipe walls."), + QuestionModel( + question: + "5. What is the primary function of a Pitot tube in fluid flow measurement?", + options: [ + "A. Measure flow rate", + "B. Measure fluid density", + "C. Measure fluid velocity", + "D. Measure fluid pressure" + ], + correctAnswerIndex: 3, + Solution: + "The correct answer is C. Measure fluid velocity. A Pitot tube is used to measure fluid velocity by measuring the difference in pressure between the stagnation point and the fluid dynamic pressure."), + QuestionModel( + question: + "6. What is the term for the point in a pipe flow where the fluid velocity is at its maximum and pressure is at its minimum?", + options: [ + "A. Stagnation point", + "B. Vortex point", + "C. Critical point", + "D. Center point" + ], + correctAnswerIndex: 0, + Solution: + "The correct answer is A. Stagnation point. The stagnation point is where the fluid velocity is maximum, and pressure is minimum."), + QuestionModel( + question: + "7. Which fluid flow pattern is characterized by smooth and orderly layers of fluid with minimal mixing?", + options: [ + "A. Laminar flow", + "B. Turbulent flow", + "C. Transitional flow", + "D. Compressible flow" + ], + correctAnswerIndex: 0, + Solution: + "The correct answer is A. Laminar flow. Laminar flow is characterized by smooth and orderly layers of fluid with minimal mixing between adjacent layers."), + QuestionModel( + question: + "8. In fluid dynamics, what is the Hagen–Poiseuille equation used for?", + options: [ + "A. To calculate Reynolds number", + "B. To calculate flow rate", + "C. To calculate pressure drop in laminar flow", + "D. To calculate turbulence intensity" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. To calculate pressure drop in laminar flow. The Hagen–Poiseuille equation is used to calculate pressure drop in laminar pipe flow."), + QuestionModel( + question: + "9. What is the primary cause of turbulent flow in a fluid system?", + options: [ + "A. High fluid viscosity", + "B. Low flow velocity", + "C. High Reynolds number", + "D. Smooth pipe surface" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. High Reynolds number. Turbulent flow occurs at high Reynolds numbers, indicating the dominance of inertial forces over viscous forces."), + QuestionModel( + question: + "10. What does the Bernoulli's equation describe in fluid dynamics?", + options: [ + "A. Flow rate through a pipe", + "B. Fluid density", + "C. The relationship between pressure, velocity, and potential energy in a fluid", + "D. Fluid viscosity" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. The relationship between pressure, velocity, and potential energy in a fluid. Bernoulli's equation describes how the sum of pressure, kinetic energy, and potential energy remains constant along a streamline in an inviscid, incompressible flow."), + QuestionModel( + question: + "11. What is the term for the resistance offered by a fluid to deformation or flow?", + options: ["A. Viscosity", "B. Density", "C. Velocity", "D. Friction"], + correctAnswerIndex: 0, + Solution: + "The correct answer is A. Viscosity. Viscosity is the measure of a fluid's resistance to deformation or flow."), + QuestionModel( + question: + "12. What is the primary factor affecting the laminar-turbulent transition in fluid flow?", + options: [ + "A. Pipe diameter", + "B. Flow velocity", + "C. Fluid density", + "D. Viscosity" + ], + correctAnswerIndex: 1, + Solution: + "The correct answer is B. Flow velocity. The transition from laminar to turbulent flow is primarily influenced by the flow velocity, indicated by the Reynolds number."), + QuestionModel( + question: + "13. In a converging-diverging nozzle, what type of flow occurs at the throat?", + options: [ + "A. Subsonic flow", + "B. Supersonic flow", + "C. Laminar flow", + "D. Turbulent flow" + ], + correctAnswerIndex: 1, + Solution: + "The correct answer is B. Supersonic flow. In a converging-diverging nozzle, supersonic flow occurs at the throat, where the flow velocity reaches the speed of sound."), + QuestionModel( + question: + "14. What happens to fluid pressure as it flows through a converging section of a pipe or nozzle?", + options: [ + "A. Increases", + "B. Decreases", + "C. Remains constant", + "D. Depends on the fluid type" + ], + correctAnswerIndex: 0, + Solution: + "The correct answer is A. Increases. As fluid flows through a converging section, its velocity increases, resulting in a decrease in pressure due to Bernoulli's principle."), + QuestionModel( + question: + "15. What is the primary purpose of a Venturi tube in fluid flow measurement?", + options: [ + "A. Increase flow rate", + "B. Decrease flow velocity", + "C. Measure fluid density", + "D. Accurately measure flow rate" + ], + correctAnswerIndex: 3, + Solution: + "The correct answer is D. Accurately measure flow rate. A Venturi tube is designed to accurately measure fluid flow rates by utilizing the principle of pressure differences in constricted flow areas."), + QuestionModel( + question: + "16. Which type of pump is commonly used to transport viscous fluids like oil and slurry?", + options: [ + "A. Centrifugal pump", + "B. Diaphragm pump", + "C. Gear pump", + "D. Reciprocating pump" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. Gear pump. Gear pumps are often used to transport viscous fluids due to their ability to handle high viscosity."), + QuestionModel( + question: + "17. What is the primary factor that determines whether a flow in a pipe is considered laminar or turbulent?", + options: [ + "A. Pipe material", + "B. Temperature", + "C. Flow rate", + "D. Pipe diameter" + ], + correctAnswerIndex: 3, + Solution: + "The correct answer is D. Pipe diameter. The transition from laminar to turbulent flow is heavily influenced by the pipe's diameter, specifically the Reynolds number."), + QuestionModel( + question: + "18. What is the main principle behind the operation of a hydraulic jack for lifting heavy loads?", + options: [ + "A. Archimedes' principle", + "B. Pascal's principle", + "C. Bernoulli's principle", + "D. Hooke's law" + ], + correctAnswerIndex: 1, + Solution: + "The correct answer is B. Pascal's principle. Hydraulic jacks work on Pascal's principle, which states that a change in pressure applied at any point in an enclosed fluid is transmitted undiminished throughout the fluid."), + QuestionModel( + question: + "19. What is the primary application of a flowmeter in fluid flow analysis?", + options: [ + "A. Measure pipe diameter", + "B. Measure fluid density", + "C. Measure fluid velocity or flow rate", + "D. Measure pipe length" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. Measure fluid velocity or flow rate. Flowmeters are used to measure fluid velocity or flow rate in various applications."), + QuestionModel( + question: + "20. What is the primary advantage of using a differential pressure flowmeter in fluid flow measurement?", + options: [ + "A. High accuracy in measuring low flow rates", + "B. Simplicity and ease of installation", + "C. Ability to measure non-newtonian fluids", + "D. Resistance to corrosion" + ], + correctAnswerIndex: 1, + Solution: + "The correct answer is B. Simplicity and ease of installation. Differential pressure flowmeters are often chosen for their simplicity and ease of installation in various fluid flow applications."), +]; + +List fluidmechanics = [ + QuestionModel( + question: + "1. What is the property of a fluid that represents its resistance to flow?", + options: ["Density", "Viscosity", "Pressure", "Compressibility"], + correctAnswerIndex: 1, + Solution: + "The property of a fluid that represents its resistance to flow is viscosity. Viscosity is a measure of a fluid's internal friction, and fluids with high viscosity flow more slowly than those with low viscosity."), + QuestionModel( + question: + "2. In fluid mechanics, what is the term for the force per unit area exerted by a fluid on the walls of its container?", + options: ["Weight", "Volume", "Pressure", "Density"], + correctAnswerIndex: 2, + Solution: + "In fluid mechanics, the term for the force per unit area exerted by a fluid on the walls of its container is pressure. Pressure is often expressed in units of pascals (Pa) or newtons per square meter (N/m²)."), + QuestionModel( + question: + "3. Which principle states that the pressure applied to an enclosed fluid is transmitted undiminished to all portions of the fluid and to the walls of its container?", + options: [ + "Pascal's principle", + "Bernoulli's principle", + "Archimedes' principle", + "Newton's third law" + ], + correctAnswerIndex: 0, + Solution: + "Pascal's principle states that the pressure applied to an enclosed fluid is transmitted undiminished to all portions of the fluid and to the walls of its container. It is the basis for hydraulic systems."), + QuestionModel( + question: + "4. When an object is partially or wholly immersed in a fluid, it experiences an upward buoyant force. This force is equal to the weight of the displaced fluid and is described by which principle?", + options: [ + "Pascal's principle", + "Archimedes' principle", + "Bernoulli's principle", + "Newton's third law" + ], + correctAnswerIndex: 1, + Solution: + "When an object is partially or wholly immersed in a fluid, it experiences an upward buoyant force, which is equal to the weight of the displaced fluid. This principle is described by Archimedes' principle."), + QuestionModel( + question: + "5. What is the term for the point at which the pressure in a fluid is the same in all directions, allowing an object to float without sinking or rising?", + options: [ + "Center of gravity", + "Center of pressure", + "Neutral point", + "Center of buoyancy" + ], + correctAnswerIndex: 2, + Solution: + "The term for the point at which the pressure in a fluid is the same in all directions, allowing an object to float without sinking or rising, is the neutral point. It is a critical concept in buoyancy."), + QuestionModel( + question: + "6. What is the name for the measurement of the upward force exerted by a fluid on an immersed object, which opposes the weight of the object?", + options: ["Pressure", "Volume", "Buoyancy", "Viscosity"], + correctAnswerIndex: 2, + Solution: + "The measurement of the upward force exerted by a fluid on an immersed object, which opposes the weight of the object, is called buoyancy. It is responsible for objects floating in fluids."), + QuestionModel( + question: + "7. According to Bernoulli's principle, as the velocity of a fluid increases, its pressure:", + options: [ + "Decreases", + "Increases", + "Remains constant", + "Varies unpredictably" + ], + correctAnswerIndex: 0, + Solution: + "According to Bernoulli's principle, as the velocity of a fluid increases, its pressure decreases. This principle is used to explain the relationship between fluid speed and pressure in various fluid flow scenarios."), + QuestionModel( + question: + "8. What is the term for a fluid's resistance to shear or tensile stresses, resulting in its deformation or flow?", + options: ["Viscosity", "Pressure", "Density", "Compressibility"], + correctAnswerIndex: 0, + Solution: + "The term for a fluid's resistance to shear or tensile stresses, resulting in its deformation or flow, is viscosity. Viscosity is a crucial property in fluid mechanics."), + QuestionModel( + question: + "9. When a fluid flows through a pipe, what happens to its velocity and pressure as the pipe's cross-sectional area decreases?", + options: [ + "Velocity increases, pressure increases", + "Velocity increases, pressure decreases", + "Velocity decreases, pressure increases", + "Velocity decreases, pressure decreases" + ], + correctAnswerIndex: 1, + Solution: + "When a fluid flows through a pipe, if the cross-sectional area decreases (constriction), the velocity of the fluid increases, but the pressure decreases. This phenomenon is explained by Bernoulli's principle."), + QuestionModel( + question: + "10. What is the term for the point at which the flow velocity of a fluid becomes equal to the speed of sound in that fluid, causing a sudden drop in pressure and a potential shockwave?", + options: [ + "Critical point", + "Choked flow", + "Stagnation point", + "Sonic point" + ], + correctAnswerIndex: 1, + Solution: + "The term for the point at which the flow velocity of a fluid becomes equal to the speed of sound in that fluid, causing a sudden drop in pressure and a potential shockwave, is choked flow. It is a critical condition in fluid dynamics."), + QuestionModel( + question: + "11. What is the term for a fluid's ability to transmit pressure and transmit forces in a confined space?", + options: [ + "Incompressibility", + "Compressibility", + "Hydraulic efficiency", + "Bulk modulus" + ], + correctAnswerIndex: 3, + Solution: + "The term for a fluid's ability to transmit pressure and transmit forces in a confined space is bulk modulus. It measures the fluid's resistance to compression."), + QuestionModel( + question: + "12. When a fluid flows over a surface, what is the term for the force per unit area exerted by the fluid on the surface, parallel to the flow direction?", + options: [ + "Drag force", + "Buoyant force", + "Pressure force", + "Viscous force" + ], + correctAnswerIndex: 3, + Solution: + "When a fluid flows over a surface, the force per unit area exerted by the fluid on the surface, parallel to the flow direction, is called the viscous force. It is responsible for the effect of viscosity in fluid flow."), + QuestionModel( + question: + "13. What is the term for the study of the behavior of fluids at rest or in equilibrium?", + options: ["Dynamics", "Hydraulics", "Thermodynamics", "Statics"], + correctAnswerIndex: 3, + Solution: + "The term for the study of the behavior of fluids at rest or in equilibrium is statics. It is a fundamental branch of fluid mechanics that deals with fluid properties and equilibrium conditions."), + QuestionModel( + question: + "14. Which fluid property measures the resistance of a fluid to compressibility, indicating its ability to maintain constant density under pressure?", + options: ["Viscosity", "Density", "Bulk modulus", "Pressure"], + correctAnswerIndex: 2, + Solution: + "The fluid property that measures the resistance of a fluid to compressibility, indicating its ability to maintain constant density under pressure, is bulk modulus. It is a key property in fluid behavior."), + QuestionModel( + question: + "15. What is the term for the condition in a fluid flow where the fluid particles move in parallel layers with minimal mixing between them?", + options: [ + "Laminar flow", + "Turbulent flow", + "Steady flow", + "Unsteady flow" + ], + correctAnswerIndex: 0, + Solution: + "The condition in a fluid flow where the fluid particles move in parallel layers with minimal mixing between them is called laminar flow. It is characterized by smooth, orderly motion."), + QuestionModel( + question: + "16. What is the term for the study of the motion and behavior of fluids, particularly in motion or flow situations?", + options: ["Statics", "Hydraulics", "Kinematics", "Dynamics"], + correctAnswerIndex: 3, + Solution: + "The term for the study of the motion and behavior of fluids, particularly in motion or flow situations, is dynamics. It is a key branch of fluid mechanics."), + QuestionModel( + question: + "17. What is the name for the condition in a fluid flow where the fluid particles exhibit chaotic and irregular motion, causing mixing and turbulence?", + options: [ + "Laminar flow", + "Turbulent flow", + "Steady flow", + "Unsteady flow" + ], + correctAnswerIndex: 1, + Solution: + "The condition in a fluid flow where the fluid particles exhibit chaotic and irregular motion, causing mixing and turbulence, is called turbulent flow. It is characterized by disorderly motion."), + QuestionModel( + question: + "18. In the context of fluid mechanics, what is the term for the ratio of the dynamic pressure to the static pressure of a fluid in motion?", + options: [ + "Reynolds number", + "Mach number", + "Froude number", + "Prandtl number" + ], + correctAnswerIndex: 1, + Solution: + "In the context of fluid mechanics, the term for the ratio of the dynamic pressure to the static pressure of a fluid in motion is the Mach number. It is used to describe the compressibility effects of high-speed flows."), + QuestionModel( + question: + "19. When a fluid flows through a pipe, what term describes the condition where the flow becomes unsteady and changes with time?", + options: [ + "Steady flow", + "Laminar flow", + "Turbulent flow", + "Unsteady flow" + ], + correctAnswerIndex: 3, + Solution: + "When a fluid flows through a pipe and the flow becomes unsteady and changes with time, it is described as unsteady flow. It contrasts with steady flow, which is time-invariant."), + QuestionModel( + question: + "20. What is the term for the ratio of inertial forces to viscous forces in a fluid flow and is used to predict the flow's behavior?", + options: [ + "Reynolds number", + "Mach number", + "Froude number", + "Prandtl number" + ], + correctAnswerIndex: 0, + Solution: + "The term for the ratio of inertial forces to viscous forces in a fluid flow, which is used to predict the flow's behavior, is the Reynolds number. It is a fundamental parameter in fluid dynamics and determines whether the flow is laminar or turbulent.") +]; + +List fluidpowersystem = [ + QuestionModel( + question: + "1. In fluid power systems, which fluid is commonly used due to its incompressible nature and ability to transmit force effectively?", + options: ["Gasoline", "Water", "Air", "Steam"], + correctAnswerIndex: 2, + Solution: + "Air is commonly used in fluid power systems due to its incompressible nature and effectiveness in transmitting force."), + QuestionModel( + question: + "2. What type of fluid power system uses pressurized fluids to create motion, typically found in heavy machinery and construction equipment?", + options: [ + "Pneumatic system", + "Hydraulic system", + "Piston system", + "Compressed air system" + ], + correctAnswerIndex: 1, + Solution: + "Hydraulic systems use pressurized fluids to create motion and are commonly found in heavy machinery and construction equipment."), + QuestionModel( + question: + "3. Which of the following components is commonly used to control the direction of fluid flow in a hydraulic system?", + options: ["Hydraulic cylinder", "Flow meter", "Check valve", "Filter"], + correctAnswerIndex: 2, + Solution: + "A check valve is commonly used to control the direction of fluid flow in a hydraulic system, allowing flow in one direction while blocking it in the other."), + QuestionModel( + question: + "4. What is the primary advantage of a pneumatic system over a hydraulic system?", + options: [ + "Higher power density", + "Lower noise levels", + "Greater precision", + "Improved energy efficiency" + ], + correctAnswerIndex: 1, + Solution: + "Pneumatic systems are often quieter than hydraulic systems, making them suitable for noise-sensitive applications."), + QuestionModel( + question: + "5. In a hydraulic system, which component is responsible for converting fluid pressure into mechanical motion?", + options: [ + "Flow control valve", + "Reservoir tank", + "Hydraulic pump", + "Hydraulic cylinder" + ], + correctAnswerIndex: 3, + Solution: + "The hydraulic cylinder is responsible for converting fluid pressure into mechanical motion in a hydraulic system."), + QuestionModel( + question: + "6. What is the purpose of a pressure relief valve in a fluid power system?", + options: [ + "To maintain a constant flow rate", + "To regulate temperature", + "To control fluid direction", + "To prevent overpressure and damage" + ], + correctAnswerIndex: 3, + Solution: + "A pressure relief valve in a fluid power system is used to prevent overpressure and potential damage by relieving excess pressure when it exceeds a set limit."), + QuestionModel( + question: + "7. What is the primary function of an accumulator in a hydraulic system?", + options: [ + "To store and release hydraulic fluid", + "To filter the hydraulic fluid", + "To control fluid direction", + "To measure fluid flow" + ], + correctAnswerIndex: 0, + Solution: + "An accumulator in a hydraulic system stores hydraulic fluid and releases it when needed to maintain pressure or supplement the system's power supply."), + QuestionModel( + question: + "8. Which of the following fluid power components is used to change the rate of fluid flow and control the speed of an actuator?", + options: [ + "Pressure gauge", + "Directional control valve", + "Flow control valve", + "Check valve" + ], + correctAnswerIndex: 2, + Solution: + "A flow control valve is used to change the rate of fluid flow and control the speed of an actuator in a fluid power system."), + QuestionModel( + question: + "9. In a pneumatic system, what is the function of an air compressor?", + options: [ + "To store compressed air", + "To release air pressure", + "To control fluid direction", + "To generate compressed air" + ], + correctAnswerIndex: 3, + Solution: + "An air compressor in a pneumatic system is used to generate compressed air, which is a source of power for the system."), + QuestionModel( + question: + "10. What type of pump is commonly used in hydraulic systems to provide a continuous flow of hydraulic fluid?", + options: [ + "Piston pump", + "Gear pump", + "Reciprocating pump", + "Centrifugal pump" + ], + correctAnswerIndex: 1, + Solution: + "Gear pumps are commonly used in hydraulic systems to provide a continuous flow of hydraulic fluid."), + QuestionModel( + question: + "11. The force applied to a fluid power system actuator is a result of:", + options: [ + "The pressure difference between inlet and outlet", + "The temperature of the fluid", + "The fluid density", + "The flow rate of the fluid" + ], + correctAnswerIndex: 0, + Solution: + "The force applied to a fluid power system actuator is a result of the pressure difference between the inlet and outlet of the system."), + QuestionModel( + question: + "12. What is the primary advantage of using pneumatic systems in environments with explosive materials or gases?", + options: [ + "Higher power density", + "Low risk of ignition", + "Greater precision", + "Improved energy efficiency" + ], + correctAnswerIndex: 1, + Solution: + "Pneumatic systems are less likely to cause ignition in environments with explosive materials or gases due to their low risk of ignition."), + QuestionModel( + question: + "13. Which of the following is a common application of fluid power systems?", + options: [ + "Computer programming", + "Car entertainment systems", + "Automated manufacturing equipment", + "Household appliances" + ], + correctAnswerIndex: 2, + Solution: + "Automated manufacturing equipment often utilizes fluid power systems for various functions like lifting, moving, and pressing."), + QuestionModel( + question: "14. In fluid power systems, what is the role of a filter?", + options: [ + "To direct fluid flow", + "To store hydraulic fluid", + "To regulate temperature", + "To remove contaminants" + ], + correctAnswerIndex: 3, + Solution: + "A filter in a fluid power system is used to remove contaminants and particles from the hydraulic fluid to maintain system cleanliness."), + QuestionModel( + question: + "15. What is the primary function of a directional control valve in a fluid power system?", + options: [ + "To regulate pressure", + "To generate compressed air", + "To control fluid direction", + "To measure fluid flow" + ], + correctAnswerIndex: 2, + Solution: + "A directional control valve in a fluid power system is used to control the direction of fluid flow within the system."), + QuestionModel( + question: + "16. Which of the following is a disadvantage of pneumatic systems when compared to hydraulic systems?", + options: [ + "Lower noise levels", + "Greater precision", + "Lower power density", + "Higher risk of contamination" + ], + correctAnswerIndex: 2, + Solution: + "Pneumatic systems typically have lower power density compared to hydraulic systems, meaning they provide less power per unit of size and weight."), + QuestionModel( + question: + "17. Which of the following factors is crucial when selecting a fluid for use in a fluid power system?", + options: [ + "Color of the fluid", + "Price of the fluid", + "Density of the fluid", + "Viscosity of the fluid" + ], + correctAnswerIndex: 3, + Solution: + "Viscosity is a crucial factor when selecting a fluid for use in a fluid power system, as it affects the fluid's flow and performance."), + QuestionModel( + question: + "18. What is the primary advantage of a fluid power system over an electrical system in certain applications?", + options: [ + "Higher efficiency", + "Lower maintenance requirements", + "Lower cost of components", + "Greater safety in hazardous environments" + ], + correctAnswerIndex: 3, + Solution: + "Fluid power systems are often preferred over electrical systems in hazardous environments due to their greater safety and reduced risk of electrical sparks."), + QuestionModel( + question: + "19. What is the primary function of a pressure gauge in a fluid power system?", + options: [ + "To control fluid direction", + "To measure fluid flow", + "To regulate pressure", + "To display fluid pressure" + ], + correctAnswerIndex: 3, + Solution: + "A pressure gauge in a fluid power system is used to display and measure the fluid pressure within the system."), + QuestionModel( + question: + "20. In a hydraulic system, why is it important to have a hydraulic reservoir or tank?", + options: [ + "To generate hydraulic fluid", + "To store and release hydraulic fluid", + "To regulate temperature", + "To control fluid direction" + ], + correctAnswerIndex: 1, + Solution: + "A hydraulic reservoir or tank is used to store and release hydraulic fluid as needed to maintain system pressure and ensure a continuous supply of fluid.") +]; + +List heattransfer = [ + QuestionModel( + question: + "1. Heat transfer that occurs due to the movement of a fluid, such as air or water, is called:", + options: ["Conduction", "Convection", "Radiation", "Insulation"], + correctAnswerIndex: 1, + Solution: + "Convection is the heat transfer mechanism that occurs due to the movement of a fluid. It involves the transfer of heat through the motion of the fluid itself."), + QuestionModel( + question: + "2. The primary method of heat transfer in solids like metal rods is called:", + options: ["Conduction", "Convection", "Radiation", "Advection"], + correctAnswerIndex: 0, + Solution: + "Conduction is the primary method of heat transfer in solids like metal rods. It involves the transfer of heat through direct contact between particles in a material."), + QuestionModel( + question: + "3. The transfer of heat in the form of electromagnetic waves, such as from the sun to the Earth, is called:", + options: ["Conduction", "Convection", "Radiation", "Advection"], + correctAnswerIndex: 2, + Solution: + "Radiation is the transfer of heat in the form of electromagnetic waves. It does not require a medium for heat transfer and can occur through a vacuum."), + QuestionModel( + question: + "4. Which of the following materials is a good conductor of heat?", + options: ["Wood", "Plastic", "Aluminum", "Fiberglass"], + correctAnswerIndex: 2, + Solution: + "Aluminum is a good conductor of heat. It quickly transfers heat due to the high thermal conductivity of the material."), + QuestionModel( + question: + "5. The rate of heat transfer depends on several factors, including the temperature difference, material properties, and the surface area. What is this rate of heat transfer known as?", + options: [ + "Thermal inertia", + "Heat capacity", + "Thermal conductivity", + "Thermal resistance" + ], + correctAnswerIndex: 3, + Solution: + "The rate of heat transfer depends on several factors, and it is known as thermal resistance. It is often used in calculations involving heat transfer."), + QuestionModel( + question: + "6. Which of the following is a poor conductor of heat and is often used for thermal insulation?", + options: ["Copper", "Stainless steel", "Fiberglass", "Silver"], + correctAnswerIndex: 2, + Solution: + "Fiberglass is a poor conductor of heat and is often used for thermal insulation due to its low thermal conductivity."), + QuestionModel( + question: + "7. The process of reducing heat transfer by trapping air or other gases in a material is known as:", + options: ["Conduction", "Radiation", "Insulation", "Convection"], + correctAnswerIndex: 2, + Solution: + "Insulation is the process of reducing heat transfer by trapping air or other gases in a material, creating a barrier to heat flow."), + QuestionModel( + question: + "8. In a thermos bottle, what is the purpose of the vacuum layer between the inner and outer walls?", + options: [ + "To enhance conduction", + "To promote radiation", + "To encourage convection", + "To minimize heat transfer" + ], + correctAnswerIndex: 3, + Solution: + "The vacuum layer in a thermos bottle is designed to minimize heat transfer by reducing conduction, convection, and radiation, thus keeping the contents hot or cold."), + QuestionModel( + question: + "9. Which mode of heat transfer does not require a material medium for transmission and can occur in a vacuum?", + options: ["Conduction", "Convection", "Radiation", "Advection"], + correctAnswerIndex: 2, + Solution: + "Radiation is the mode of heat transfer that does not require a material medium for transmission and can occur in a vacuum, such as the transfer of heat from the sun to Earth."), + QuestionModel( + question: + "10. The principle of using a reflective surface, such as a shiny aluminum foil, to reduce heat transfer through radiation is utilized in:", + options: [ + "Solar panels", + "Thermal insulation", + "Radiant floor heating", + "Reflective insulation" + ], + correctAnswerIndex: 3, + Solution: + "Reflective insulation utilizes a reflective surface, such as shiny aluminum foil, to reduce heat transfer through radiation, helping maintain comfortable indoor temperatures."), + QuestionModel( + question: + "11. In which industrial process is the term 'heat exchanger' commonly used to efficiently transfer thermal energy from one fluid to another?", + options: [ + "Brewing coffee", + "Refrigeration", + "Electric heating", + "Chemical manufacturing" + ], + correctAnswerIndex: 3, + Solution: + "Heat exchangers are commonly used in chemical manufacturing processes to efficiently transfer thermal energy from one fluid to another."), + QuestionModel( + question: + "12. The transfer of heat between a hot and cold fluid within a pipeline or a duct is a typical application of:", + options: [ + "Thermal insulation", + "Heat conduction", + "Heat exchangers", + "Radiant heating" + ], + correctAnswerIndex: 2, + Solution: + "The transfer of heat between a hot and cold fluid within a pipeline or a duct is a typical application of heat exchangers, which improve energy efficiency."), + QuestionModel( + question: + "13. Which of the following is not a primary method of heat transfer?", + options: ["Conduction", "Convection", "Insulation", "Radiation"], + correctAnswerIndex: 2, + Solution: + "Insulation is not a primary method of heat transfer but a method to reduce heat transfer through conduction, convection, and radiation."), + QuestionModel( + question: + "14. In a home heating system, what is the purpose of a thermostat?", + options: [ + "To regulate insulation", + "To control radiation", + "To adjust conduction", + "To maintain a set temperature" + ], + correctAnswerIndex: 3, + Solution: + "A thermostat in a home heating system is used to maintain a set temperature by controlling when the heating system turns on and off."), + QuestionModel( + question: + "15. The concept of the 'greenhouse effect' is often used to explain the trapping of heat in the Earth's atmosphere. Which mode of heat transfer is primarily responsible for this effect?", + options: ["Conduction", "Convection", "Radiation", "Insulation"], + correctAnswerIndex: 2, + Solution: + "The greenhouse effect is primarily due to the radiation of heat being trapped in the Earth's atmosphere, which warms the planet."), + QuestionModel( + question: "16. The rate of heat transfer is often measured in units of:", + options: ["Kelvin", "Watt-hours", "Moles", "British thermal units (BTU)"], + correctAnswerIndex: 3, + Solution: + "The rate of heat transfer is often measured in units of British thermal units (BTU) or joules per second (Watts)."), + QuestionModel( + question: + "17. Which of the following statements is true about heat transfer through convection?", + options: [ + "It only occurs in liquids and gases", + "It requires a material medium for transmission", + "It is not influenced by temperature differences", + "It can transfer heat in a vacuum" + ], + correctAnswerIndex: 1, + Solution: + "Heat transfer through convection requires a material medium for transmission and can occur in liquids and gases but not in a vacuum."), + QuestionModel( + question: + "18. The material property that quantifies a substance's ability to conduct heat is known as:", + options: [ + "Heat capacity", + "Thermal resistance", + "Heat transfer coefficient", + "Thermal conductivity" + ], + correctAnswerIndex: 3, + Solution: + "The material property that quantifies a substance's ability to conduct heat is called thermal conductivity."), + QuestionModel( + question: + "19. Which of the following is an example of natural convection?", + options: [ + "Wind blowing through a window", + "Hot air rising from a radiator", + "Cooling a computer with a fan", + "Heat transfer through a metal rod" + ], + correctAnswerIndex: 1, + Solution: + "Hot air rising from a radiator is an example of natural convection, where warmer fluid (air) rises and cooler fluid sinks, creating a natural flow."), + QuestionModel( + question: + "20. What is the name of the law that states the rate of heat transfer is directly proportional to the temperature difference between two objects and inversely proportional to the thermal resistance between them?", + options: [ + "Newton's law of cooling", + "Einstein's heat equation", + "Faraday's thermal principle", + "Fourier's law of conduction" + ], + correctAnswerIndex: 0, + Solution: + "Newton's law of cooling states that the rate of heat transfer is directly proportional to the temperature difference between two objects and inversely proportional to the thermal resistance between them.") +]; + +List Kinematicsanddynamics = [ + QuestionModel( + question: + "1. What is the branch of mechanics that deals with the motion of objects without considering the forces that cause the motion?", + options: ["Kinematics", "Dynamics", "Statics", "Thermodynamics"], + correctAnswerIndex: 0, + Solution: + "The branch of mechanics that deals with the motion of objects without considering the forces that cause the motion is called kinematics."), + QuestionModel( + question: + "2. In kinematics, what is the term for the change in an object's position with respect to time?", + options: ["Speed", "Velocity", "Acceleration", "Displacement"], + correctAnswerIndex: 3, + Solution: + "In kinematics, the term for the change in an object's position with respect to time is called displacement. It is a vector quantity that includes both magnitude and direction."), + QuestionModel( + question: + "3. What is the study of the causes of motion and changes in motion called?", + options: ["Kinematics", "Statics", "Dynamics", "Thermodynamics"], + correctAnswerIndex: 2, + Solution: + "The study of the causes of motion and changes in motion is called dynamics. It considers the forces and interactions that affect the motion of objects."), + QuestionModel( + question: + "4. Which of the following is an example of a vector quantity in kinematics?", + options: ["Speed", "Time", "Distance", "Acceleration"], + correctAnswerIndex: 3, + Solution: + "Acceleration is an example of a vector quantity in kinematics. Vector quantities have both magnitude and direction, and acceleration specifies how an object's velocity changes with time."), + QuestionModel( + question: + "5. What is the term for the rate of change of an object's velocity with respect to time?", + options: ["Speed", "Velocity", "Acceleration", "Displacement"], + correctAnswerIndex: 2, + Solution: + "The rate of change of an object's velocity with respect to time is called acceleration. It indicates how quickly an object's velocity is changing."), + QuestionModel( + question: + "6. In kinematics, what is the area under a velocity-time graph equal to?", + options: ["Distance traveled", "Speed", "Displacement", "Acceleration"], + correctAnswerIndex: 0, + Solution: + "In kinematics, the area under a velocity-time graph is equal to the distance traveled by the object. It represents the total path length."), + QuestionModel( + question: "7. Which of the following is a scalar quantity in kinematics?", + options: ["Velocity", "Acceleration", "Displacement", "Speed"], + correctAnswerIndex: 3, + Solution: + "Speed is a scalar quantity in kinematics. Scalar quantities have magnitude but no direction, while vector quantities like velocity have both magnitude and direction."), + QuestionModel( + question: + "8. What is the term for the change in an object's velocity with respect to time?", + options: ["Speed", "Velocity", "Acceleration", "Displacement"], + correctAnswerIndex: 2, + Solution: + "The change in an object's velocity with respect to time is called acceleration. It indicates how the speed or direction of motion is changing."), + QuestionModel( + question: + "9. What is the term for the vector quantity that represents an object's change in position?", + options: ["Speed", "Velocity", "Acceleration", "Displacement"], + correctAnswerIndex: 3, + Solution: + "Displacement is the vector quantity that represents an object's change in position. It includes both the magnitude of the change and the direction of the change."), + QuestionModel( + question: + "10. What is the term for the rate of change of position with respect to time in kinematics?", + options: ["Speed", "Velocity", "Acceleration", "Displacement"], + correctAnswerIndex: 1, + Solution: + "The rate of change of position with respect to time in kinematics is called velocity. It is a vector quantity that describes the object's speed and direction of motion."), + QuestionModel( + question: + "11. Which of the following equations represents the relationship between displacement, initial velocity, time, and acceleration in kinematics?", + options: [ + "s = ut + 1/2at^2", + "s = ut + vt", + "v = u + at", + "v^2 = u^2 + 2as" + ], + correctAnswerIndex: 0, + Solution: + "The equation s = ut + 1/2at^2 represents the relationship between displacement (s), initial velocity (u), time (t), and acceleration (a) in kinematics. It is one of the equations of motion."), + QuestionModel( + question: + "12. What is the term for the study of objects at rest or in constant motion without acceleration?", + options: ["Kinematics", "Statics", "Dynamics", "Thermodynamics"], + correctAnswerIndex: 1, + Solution: + "The study of objects at rest or in constant motion without acceleration is called statics. It is a branch of mechanics that deals with equilibrium."), + QuestionModel( + question: + "13. In kinematics, what is the term for the change in velocity with respect to time?", + options: ["Speed", "Velocity", "Acceleration", "Displacement"], + correctAnswerIndex: 2, + Solution: + "The change in velocity with respect to time is called acceleration in kinematics. It represents how an object's velocity is changing."), + QuestionModel( + question: + "14. What is the term for the total path length traveled by an object in kinematics?", + options: ["Speed", "Velocity", "Acceleration", "Distance"], + correctAnswerIndex: 3, + Solution: + "The total path length traveled by an object in kinematics is called distance. It is a scalar quantity that does not specify direction."), + QuestionModel( + question: + "15. Which of the following is an example of a scalar quantity in kinematics?", + options: ["Velocity", "Acceleration", "Displacement", "Speed"], + correctAnswerIndex: 3, + Solution: + "Speed is an example of a scalar quantity in kinematics. Scalar quantities have magnitude but no direction, unlike vector quantities like velocity."), + QuestionModel( + question: + "16. What is the term for the vector quantity that represents an object's change in velocity?", + options: ["Speed", "Velocity", "Acceleration", "Displacement"], + correctAnswerIndex: 2, + Solution: + "Acceleration is the vector quantity that represents an object's change in velocity. It describes how the object's speed or direction of motion is changing."), + QuestionModel( + question: + "17. What is the term for the total length of the path traveled by an object in a specific direction in kinematics?", + options: ["Speed", "Velocity", "Acceleration", "Displacement"], + correctAnswerIndex: 3, + Solution: + "The total length of the path traveled by an object in a specific direction in kinematics is called displacement. It is a vector quantity that includes both magnitude and direction."), + QuestionModel( + question: + "18. Which of the following equations represents the relationship between initial velocity, final velocity, acceleration, and displacement in kinematics?", + options: [ + "s = ut + 1/2at^2", + "s = ut + vt", + "v = u + at", + "v^2 = u^2 + 2as" + ], + correctAnswerIndex: 1, + Solution: + "The equation s = ut + vt represents the relationship between initial velocity (u), final velocity (v), time (t), and acceleration (a) in kinematics. It is used to calculate displacement."), + QuestionModel( + question: + "19. In kinematics, what is the term for the change in position with respect to time?", + options: ["Speed", "Velocity", "Acceleration", "Displacement"], + correctAnswerIndex: 1, + Solution: + "In kinematics, the change in position with respect to time is called velocity. It specifies the rate at which an object's position changes."), + QuestionModel( + question: + "20. Which of the following equations represents the relationship between initial velocity, final velocity, acceleration, and time in kinematics?", + options: [ + "s = ut + 1/2at^2", + "s = ut + vt", + "v = u + at", + "v^2 = u^2 + 2as" + ], + correctAnswerIndex: 2, + Solution: + "The equation v = u + at represents the relationship between initial velocity (u), final velocity (v), acceleration (a), and time (t) in kinematics. It describes how an object's velocity changes over time.") +]; + +List machineElements = [ + QuestionModel( + question: + "1. Which of the following machine elements is used to transmit power between two non-parallel and non-intersecting shafts?", + options: ["A. Gear", "B. Belt", "C. Bearing", "D. Spring"], + correctAnswerIndex: 1, + Solution: + "The correct answer is B. Belt. Belts are often used to transmit power between two non-parallel and non-intersecting shafts. They provide a flexible and reliable power transmission solution."), + QuestionModel( + question: + "2. What type of gear is known for its ability to change the direction of rotation between two shafts that intersect at 90 degrees?", + options: [ + "A. Spur gear", + "B. Helical gear", + "C. Bevel gear", + "D. Worm gear" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. Bevel gear. Bevel gears are used to change the direction of rotation between two intersecting shafts at 90 degrees. They have conical-shaped teeth."), + QuestionModel( + question: + "3. Which type of bearing is commonly used to support radial loads in rotating machinery?", + options: [ + "A. Ball bearing", + "B. Roller bearing", + "C. Thrust bearing", + "D. Tapered bearing" + ], + correctAnswerIndex: 0, + Solution: + "The correct answer is A. Ball bearing. Ball bearings are commonly used to support radial loads in rotating machinery. They consist of rolling elements (balls) that reduce friction."), + QuestionModel( + question: "4. What is the primary purpose of a key in a machine element?", + options: [ + "A. To reduce friction", + "B. To align shafts", + "C. To transmit power", + "D. To dampen vibrations" + ], + correctAnswerIndex: 1, + Solution: + "The correct answer is B. To align shafts. Keys are used to ensure proper alignment between a shaft and a hub, preventing relative rotation."), + QuestionModel( + question: + "5. In a reciprocating engine, what machine element is responsible for converting linear motion into rotary motion?", + options: ["A. Pulley", "B. Gear", "C. Crankshaft", "D. Spline"], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. Crankshaft. The crankshaft in a reciprocating engine converts the linear motion of the pistons into rotary motion, which drives the wheels or other machinery."), + QuestionModel( + question: + "6. Which type of fastener is designed to create a temporary joint and can be easily removed without damage?", + options: ["A. Welding", "B. Rivet", "C. Screw", "D. Adhesive bonding"], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. Screw. Screws are fasteners that create a temporary joint and can be easily removed without causing damage to the components."), + QuestionModel( + question: + "7. What machine element is used to maintain tension in a chain or belt drive system?", + options: ["A. Gear", "B. Bearing", "C. Tensioner", "D. Spring"], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. Tensioner. A tensioner is used to maintain proper tension in a chain or belt drive system, ensuring efficient power transmission."), + QuestionModel( + question: + "8. Which type of bearing is suitable for supporting axial loads in one direction and requires thrust collars to maintain axial alignment?", + options: [ + "A. Ball bearing", + "B. Roller bearing", + "C. Thrust bearing", + "D. Tapered bearing" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. Thrust bearing. Thrust bearings are designed to support axial loads in one direction and may require thrust collars to maintain axial alignment."), + QuestionModel( + question: + "9. What is the primary function of a flexible coupling in a rotating machinery system?", + options: [ + "A. To transmit power", + "B. To support radial loads", + "C. To reduce vibrations", + "D. To change the direction of rotation" + ], + correctAnswerIndex: 0, + Solution: + "The correct answer is A. To transmit power. Flexible couplings are used to transmit power between two shafts while accommodating misalignment and reducing vibrations."), + QuestionModel( + question: + "10. Which type of gear is known for its ability to transmit high power between parallel shafts and is commonly used in industrial applications?", + options: [ + "A. Spur gear", + "B. Helical gear", + "C. Bevel gear", + "D. Worm gear" + ], + correctAnswerIndex: 1, + Solution: + "The correct answer is B. Helical gear. Helical gears are commonly used to transmit high power between parallel shafts in industrial applications, thanks to their improved load distribution and quiet operation."), + QuestionModel( + question: + "11. What is the purpose of a splined connection in a machine element?", + options: [ + "A. To provide flexibility", + "B. To transmit power", + "C. To prevent relative rotation", + "D. To reduce vibrations" + ], + correctAnswerIndex: 1, + Solution: + "The correct answer is B. To transmit power. Splined connections are used to transmit power between shafts with high torque and axial loads."), + QuestionModel( + question: + "12. Which type of bearing is suitable for applications where heavy radial loads and thrust loads in both directions need to be supported?", + options: [ + "A. Ball bearing", + "B. Roller bearing", + "C. Thrust bearing", + "D. Tapered bearing" + ], + correctAnswerIndex: 3, + Solution: + "The correct answer is D. Tapered bearing. Tapered bearings are designed to support heavy radial loads and thrust loads in both directions, making them suitable for such applications."), + QuestionModel( + question: + "13. What is the primary purpose of a bushing in a machine element?", + options: [ + "A. To align shafts", + "B. To transmit power", + "C. To reduce friction", + "D. To change direction of rotation" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. To reduce friction. Bushings are used to reduce friction between moving parts and provide a sliding surface for a shaft."), + QuestionModel( + question: + "14. In a chain drive system, what is the function of a sprocket?", + options: [ + "A. To provide radial support", + "B. To transmit power", + "C. To reduce vibrations", + "D. To change the direction of rotation" + ], + correctAnswerIndex: 1, + Solution: + "The correct answer is B. To transmit power. Sprockets are used in chain drive systems to transmit power from one shaft to another using a roller chain."), + QuestionModel( + question: + "15. Which type of fastener creates a permanent joint by melting and fusing materials together?", + options: ["A. Bolt", "B. Nut", "C. Welding", "D. Cotter pin"], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. Welding. Welding is a process that creates a permanent joint by melting and fusing materials together."), + QuestionModel( + question: + "16. What is the primary function of a gasket in a machine element?", + options: [ + "A. To transmit power", + "B. To create a temporary joint", + "C. To reduce friction", + "D. To provide a sealing barrier" + ], + correctAnswerIndex: 3, + Solution: + "The correct answer is D. To provide a sealing barrier. Gaskets are used to create a tight and leak-free seal between two components in a machine element."), + QuestionModel( + question: + "17. Which type of chain drive is known for its ability to transmit heavy loads and is commonly used in industrial applications?", + options: [ + "A. Roller chain drive", + "B. V-belt drive", + "C. Gear drive", + "D. Flat belt drive" + ], + correctAnswerIndex: 0, + Solution: + "The correct answer is A. Roller chain drive. Roller chain drives are known for their ability to transmit heavy loads and are widely used in industrial applications where reliability is crucial."), + QuestionModel( + question: + "18. What is the primary purpose of a cotter pin in a machine element?", + options: [ + "A. To provide radial support", + "B. To transmit power", + "C. To align shafts", + "D. To prevent axial movement" + ], + correctAnswerIndex: 3, + Solution: + "The correct answer is D. To prevent axial movement. Cotter pins are used to prevent axial movement of components, such as nuts and bolts, by securing them in place."), + QuestionModel( + question: + "19. Which machine element is used to change the direction of rotation between two shafts that intersect at a slight angle (usually less than 45 degrees)?", + options: [ + "A. Spur gear", + "B. Helical gear", + "C. Bevel gear", + "D. Worm gear" + ], + correctAnswerIndex: 3, + Solution: + "The correct answer is D. Worm gear. Worm gears are used to change the direction of rotation between two shafts that intersect at a slight angle, typically less than 45 degrees."), + QuestionModel( + question: + "20. In a bearing, what is the primary function of the lubrication system?", + options: [ + "A. To transmit power", + "B. To provide radial support", + "C. To reduce friction", + "D. To create a sealing barrier" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. To reduce friction. The lubrication system in a bearing is responsible for reducing friction and preventing wear and heat generation between moving parts.") +]; + +List machinedesign = [ + QuestionModel( + question: + "1. What is the process of creating a plan or design for a machine, component, or system called?", + options: ["Manufacturing", "Engineering", "Production", "Operation"], + correctAnswerIndex: 1, + Solution: + "The process of creating a plan or design for a machine, component, or system is called engineering. It involves the application of scientific and mathematical principles to design functional and efficient machines and systems."), + QuestionModel( + question: + "2. Which of the following is a primary consideration in machine design to ensure safety and functionality?", + options: ["Complexity", "Aesthetics", "Simplicity", "Cost"], + correctAnswerIndex: 2, + Solution: + "Simplicity is a primary consideration in machine design to ensure safety and functionality. Simple designs are often easier to understand, operate, and maintain."), + QuestionModel( + question: + "3. What is the term for a mechanical component that transmits power from one part of a machine to another?", + options: ["Frame", "Chassis", "Gear", "Spring"], + correctAnswerIndex: 2, + Solution: + "A gear is a mechanical component that transmits power from one part of a machine to another. Gears are used for speed reduction, speed increase, and torque transmission in various machines."), + QuestionModel( + question: + "4. In machine design, what is the term for the allowable deformation or displacement in a component under an applied load?", + options: ["Stress", "Strain", "Elasticity", "Deflection"], + correctAnswerIndex: 3, + Solution: + "In machine design, the term for the allowable deformation or displacement in a component under an applied load is deflection. It is important to limit deflection to ensure proper functioning of the machine."), + QuestionModel( + question: + "5. Which of the following is a factor to consider in material selection for machine design?", + options: ["Color", "Weight", "Density", "Strength"], + correctAnswerIndex: 3, + Solution: + "Strength is a crucial factor to consider in material selection for machine design. The material used must have sufficient strength to withstand the loads and stresses it will experience in the machine."), + QuestionModel( + question: + "6. What is the term for the study of the behavior of materials under load, including their deformation and failure?", + options: [ + "Kinematics", + "Statics", + "Strength of Materials", + "Thermodynamics" + ], + correctAnswerIndex: 2, + Solution: + "The study of the behavior of materials under load, including their deformation and failure, is called Strength of Materials. It is a fundamental aspect of machine design."), + QuestionModel( + question: + "7. Which of the following is a key consideration in machine design to ensure proper functionality and performance?", + options: ["Aesthetics", "Complexity", "Safety", "Color"], + correctAnswerIndex: 2, + Solution: + "Safety is a key consideration in machine design to ensure proper functionality and performance. Machines must be designed with safety in mind to prevent accidents and injuries."), + QuestionModel( + question: + "8. In machine design, what is the term for the measure of a material's ability to resist deformation under an applied load?", + options: ["Elasticity", "Hardness", "Strength", "Stiffness"], + correctAnswerIndex: 0, + Solution: + "The measure of a material's ability to resist deformation under an applied load is referred to as elasticity. Elastic materials return to their original shape after the load is removed."), + QuestionModel( + question: + "9. What is the term for the total path length traveled by an object in a specific direction in machine design?", + options: ["Speed", "Velocity", "Acceleration", "Displacement"], + correctAnswerIndex: 3, + Solution: + "The total path length traveled by an object in a specific direction in machine design is called displacement. It is a vector quantity that includes both magnitude and direction."), + QuestionModel( + question: + "10. What is the term for the design consideration that involves the arrangement and layout of components within a machine or system?", + options: [ + "Material selection", + "Aesthetics", + "Color choice", + "Configuration" + ], + correctAnswerIndex: 3, + Solution: + "The design consideration that involves the arrangement and layout of components within a machine or system is called configuration. It affects the machine's functionality and efficiency."), + QuestionModel( + question: + "11. Which of the following is a key factor in bearing design to ensure proper operation and longevity?", + options: ["Color", "Material", "Weight", "Texture"], + correctAnswerIndex: 1, + Solution: + "Material is a key factor in bearing design to ensure proper operation and longevity. The choice of bearing material affects its friction, wear, and load-bearing capabilities."), + QuestionModel( + question: + "12. What is the term for the design consideration that involves the appearance and visual appeal of a machine or product?", + options: ["Complexity", "Safety", "Aesthetics", "Strength"], + correctAnswerIndex: 2, + Solution: + "Aesthetics is the design consideration that involves the appearance and visual appeal of a machine or product. It focuses on the product's visual design, colors, and style."), + QuestionModel( + question: + "13. In machine design, what is the term for the measure of a material's resistance to wear and abrasion?", + options: ["Elasticity", "Hardness", "Strength", "Stiffness"], + correctAnswerIndex: 1, + Solution: + "Hardness is the measure of a material's resistance to wear and abrasion. It is an important factor in the selection of materials for machine components."), + QuestionModel( + question: + "14. What is the term for the allowable load or force that a component can withstand without failure?", + options: ["Stress", "Strain", "Elasticity", "Load capacity"], + correctAnswerIndex: 0, + Solution: + "The allowable load or force that a component can withstand without failure is called stress. It is a critical consideration in machine design."), + QuestionModel( + question: + "15. Which of the following is a common material used in machine design for its high strength and corrosion resistance?", + options: ["Aluminum", "Plastic", "Wood", "Stainless Steel"], + correctAnswerIndex: 3, + Solution: + "Stainless Steel is a common material used in machine design for its high strength and corrosion resistance. It is suitable for various applications."), + QuestionModel( + question: + "16. In machine design, what is the term for the study of forces and their effects on objects at rest or in motion?", + options: ["Kinematics", "Statics", "Strength of Materials", "Dynamics"], + correctAnswerIndex: 1, + Solution: + "The study of forces and their effects on objects at rest or in motion is called Statics. It is an essential part of machine design analysis."), + QuestionModel( + question: + "17. Which of the following is a type of gear commonly used to transmit power between parallel shafts?", + options: ["Spur gear", "Helical gear", "Bevel gear", "Worm gear"], + correctAnswerIndex: 0, + Solution: + "Spur gear is a type of gear commonly used to transmit power between parallel shafts. It has teeth that are parallel to the shaft's axis."), + QuestionModel( + question: + "18. In machine design, what is the term for the factor of safety that takes into account variations in material properties and loads?", + options: [ + "Ultimate strength", + "Yield strength", + "Safety factor", + "Allowable stress" + ], + correctAnswerIndex: 2, + Solution: + "The factor of safety that takes into account variations in material properties and loads is called the safety factor. It ensures that the design can withstand uncertainties and variations."), + QuestionModel( + question: + "19. Which of the following is a commonly used method for joining two metal parts together in machine design?", + options: ["Welding", "Gluing", "Sewing", "Bolting"], + correctAnswerIndex: 0, + Solution: + "Welding is a commonly used method for joining two metal parts together in machine design. It creates a strong and permanent bond between the parts."), + QuestionModel( + question: + "20. What is the term for the study of the motion and behavior of objects without considering the forces that cause that motion in machine design?", + options: ["Dynamics", "Kinematics", "Statics", "Thermodynamics"], + correctAnswerIndex: 1, + Solution: + "The study of the motion and behavior of objects without considering the forces that cause that motion is called Kinematics. It focuses on describing and analyzing motion.") +]; + +List manufacturingprocess = [ + QuestionModel( + question: + "1. Which manufacturing process involves the removal of material from a workpiece using cutting tools?", + options: ["Casting", "Milling", "Forging", "Welding"], + correctAnswerIndex: 1, + Solution: + "Milling is a manufacturing process that involves the removal of material from a workpiece using cutting tools. It is a versatile process for creating a wide range of shapes and features."), + QuestionModel( + question: + "2. In metal forming processes, what is the term for the operation that reduces the thickness of a workpiece by compressing it between two rolls?", + options: ["Drawing", "Extrusion", "Rolling", "Punching"], + correctAnswerIndex: 2, + Solution: + "Rolling is the operation in metal forming processes that reduces the thickness of a workpiece by compressing it between two rolls. It is commonly used in sheet metal production."), + QuestionModel( + question: + "3. Which of the following is a common additive manufacturing process that uses a laser or electron beam to fuse metal powder together layer by layer?", + options: ["Injection molding", "Casting", "3D printing", "Machining"], + correctAnswerIndex: 2, + Solution: + "3D printing is a common additive manufacturing process that uses a laser or electron beam to fuse metal powder together layer by layer, creating complex geometries."), + QuestionModel( + question: + "4. What is the term for a manufacturing process that involves heating a material to a high temperature and then cooling it quickly to change its properties?", + options: ["Milling", "Annealing", "Welding", "Forging"], + correctAnswerIndex: 1, + Solution: + "Annealing is a manufacturing process that involves heating a material to a high temperature and then cooling it quickly to change its properties, often to reduce hardness and increase ductility."), + QuestionModel( + question: + "5. Which manufacturing process involves shaping a workpiece by forcing it through a die orifice to create a desired cross-sectional shape?", + options: ["Casting", "Extrusion", "Milling", "Machining"], + correctAnswerIndex: 1, + Solution: + "Extrusion is a manufacturing process that involves shaping a workpiece by forcing it through a die orifice to create a desired cross-sectional shape. It is commonly used for producing long profiles."), + QuestionModel( + question: "6. In the context of welding, what does TIG stand for?", + options: [ + "Thermal Inert Gas", + "Tungsten Inert Gas", + "Titanium Inert Gas", + "Torch Inert Gas" + ], + correctAnswerIndex: 1, + Solution: + "TIG stands for Tungsten Inert Gas welding. It is a welding process that uses a non-consumable tungsten electrode and an inert gas to create a weld."), + QuestionModel( + question: + "7. Which manufacturing process involves heating a material to a temperature just below its melting point and then applying pressure to join two pieces together?", + options: ["Sintering", "Brazing", "Forging", "Casting"], + correctAnswerIndex: 1, + Solution: + "Brazing is a manufacturing process that involves heating a material to a temperature just below its melting point and then applying pressure to join two pieces together using a filler material (usually a metal alloy)."), + QuestionModel( + question: + "8. Which manufacturing process involves heating a workpiece to a high temperature and then cooling it slowly to remove internal stresses and improve its hardness and strength?", + options: ["Quenching", "Tempering", "Annealing", "Milling"], + correctAnswerIndex: 2, + Solution: + "Annealing is the manufacturing process that involves heating a workpiece to a high temperature and then cooling it slowly to remove internal stresses and improve its hardness and strength."), + QuestionModel( + question: + "9. What is the term for the process of converting a solid material directly into a vapor, which is then condensed back into a solid without passing through a liquid phase?", + options: ["Casting", "Machining", "Sintering", "Sublimation"], + correctAnswerIndex: 3, + Solution: + "Sublimation is the process of converting a solid material directly into a vapor, which is then condensed back into a solid without passing through a liquid phase. It is used in some manufacturing processes."), + QuestionModel( + question: + "10. In plastic injection molding, what is the term for the cavity in the mold that gives shape to the final plastic part?", + options: ["Runner", "Gate", "Core", "Cavity"], + correctAnswerIndex: 3, + Solution: + "The cavity in the mold that gives shape to the final plastic part in injection molding is called the cavity. It is the negative space of the part to be produced."), + QuestionModel( + question: "11. What is the primary purpose of a machining process?", + options: [ + "Joining materials", + "Heating materials", + "Removing material", + "Forming materials" + ], + correctAnswerIndex: 2, + Solution: + "The primary purpose of a machining process is to remove material from a workpiece to create the desired shape and size."), + QuestionModel( + question: + "12. Which of the following is a common abrasive machining process that uses a rotating abrasive wheel to remove material from a workpiece?", + options: ["Casting", "Milling", "Grinding", "Extrusion"], + correctAnswerIndex: 2, + Solution: + "Grinding is a common abrasive machining process that uses a rotating abrasive wheel to remove material from a workpiece, typically for achieving high precision and surface finish."), + QuestionModel( + question: + "13. What is the term for the manufacturing process that involves creating a part by depositing material layer by layer, often used in 3D printing?", + options: ["Milling", "Casting", "Additive Manufacturing", "Forging"], + correctAnswerIndex: 2, + Solution: + "Additive Manufacturing is the manufacturing process that involves creating a part by depositing material layer by layer, often used in 3D printing and other additive techniques."), + QuestionModel( + question: + "14. Which manufacturing process involves shaping a workpiece by compressing it between two dies to create a desired cross-sectional shape?", + options: ["Extrusion", "Machining", "Casting", "Injection molding"], + correctAnswerIndex: 3, + Solution: + "Injection molding is a manufacturing process that involves shaping a workpiece by compressing it between two dies to create a desired cross-sectional shape. It is commonly used for producing plastic parts."), + QuestionModel( + question: "15. In the context of metalworking, what does CNC stand for?", + options: [ + "Computer Numerical Control", + "Center for New Castings", + "Cutting and Nibbling Control", + "Continuous Nanoscale Cutting" + ], + correctAnswerIndex: 0, + Solution: + "CNC stands for Computer Numerical Control, which is a technology that automates machine tools for precision and efficiency in manufacturing processes."), + QuestionModel( + question: + "16. Which manufacturing process involves heating a material to a high temperature and then rapidly cooling it to create a hardened surface layer?", + options: ["Annealing", "Quenching", "Tempering", "Sintering"], + correctAnswerIndex: 1, + Solution: + "Quenching is the manufacturing process that involves heating a material to a high temperature and then rapidly cooling it to create a hardened surface layer, improving its hardness and strength."), + QuestionModel( + question: + "17. What is the term for the process of using a mold to create a part by pouring molten material into it and allowing it to solidify?", + options: ["Sintering", "Brazing", "Casting", "Forging"], + correctAnswerIndex: 2, + Solution: + "Casting is the process of using a mold to create a part by pouring molten material into it and allowing it to solidify. It's a widely used manufacturing method."), + QuestionModel( + question: + "18. In the context of sheet metal fabrication, what is the term for the process of bending a sheet to create angles and shapes?", + options: ["Drawing", "Rolling", "Folding", "Punching"], + correctAnswerIndex: 2, + Solution: + "Folding is the process in sheet metal fabrication that involves bending a sheet to create angles and shapes. It's a common technique in the industry."), + QuestionModel( + question: + "19. Which manufacturing process is commonly used for creating hollow, cylindrical parts by rotating a workpiece on a lathe?", + options: ["Extrusion", "Milling", "Turning", "Grinding"], + correctAnswerIndex: 2, + Solution: + "Turning is a manufacturing process commonly used for creating hollow, cylindrical parts by rotating a workpiece on a lathe and removing material."), + QuestionModel( + question: + "20. What is the term for a manufacturing process that involves heating a powder to bond its particles without melting them?", + options: ["Sintering", "Quenching", "Annealing", "Brazing"], + correctAnswerIndex: 0, + Solution: + "Sintering is a manufacturing process that involves heating a powder to bond its particles without melting them. It's used for creating solid objects from powdered material.") +]; + +List materialscience = [ + QuestionModel( + question: + "1. What is the term for the ability of a material to resist deformation or failure under applied loads?", + options: ["Density", "Hardness", "Elasticity", "Thermal conductivity"], + correctAnswerIndex: 2, + Solution: + "The ability of a material to resist deformation or failure under applied loads is called elasticity. Elastic materials return to their original shape when the applied load is removed."), + QuestionModel( + question: + "2. Which of the following is an example of a ductile material?", + options: ["Glass", "Aluminum", "Ceramic", "Concrete"], + correctAnswerIndex: 1, + Solution: + "Aluminum is an example of a ductile material. Ductile materials can be stretched into wires without breaking."), + QuestionModel( + question: + "3. What is the term for a material's ability to absorb energy when deformed elastically and release it when unloaded?", + options: ["Brittleness", "Stress", "Toughness", "Resilience"], + correctAnswerIndex: 3, + Solution: + "The ability of a material to absorb energy when deformed elastically and release it when unloaded is called resilience. It is a measure of a material's ability to withstand shock or impact."), + QuestionModel( + question: + "4. What property of a material refers to its resistance to scratching, wear, and indentation?", + options: ["Thermal conductivity", "Density", "Hardness", "Elasticity"], + correctAnswerIndex: 2, + Solution: + "Hardness is the property of a material that refers to its resistance to scratching, wear, and indentation. It is often measured on the Mohs scale or using the Rockwell or Vickers hardness tests."), + QuestionModel( + question: + "5. What is the term for the ability of a material to transmit heat?", + options: [ + "Thermal expansion", + "Thermal conductivity", + "Thermal diffusivity", + "Thermal capacity" + ], + correctAnswerIndex: 1, + Solution: + "The ability of a material to transmit heat is called thermal conductivity. Materials with high thermal conductivity can efficiently conduct heat."), + QuestionModel( + question: + "6. What type of material can return to its original shape after being deformed under a load?", + options: ["Brittle", "Elastic", "Plastic", "Ductile"], + correctAnswerIndex: 1, + Solution: + "Elastic materials can return to their original shape after being deformed under a load. This property is associated with materials like rubber bands and springs."), + QuestionModel( + question: + "7. What is the term for the ratio of the load to the original cross-sectional area of a material?", + options: ["Stress", "Strain", "Modulus of elasticity", "Shear strength"], + correctAnswerIndex: 0, + Solution: + "The ratio of the load to the original cross-sectional area of a material is called stress. It is a measure of the internal resistance to deformation caused by an applied load."), + QuestionModel( + question: + "8. What is the term for the measure of a material's ability to withstand shear forces without failing?", + options: ["Stress", "Strain", "Toughness", "Shear strength"], + correctAnswerIndex: 3, + Solution: + "The measure of a material's ability to withstand shear forces without failing is called shear strength. It is particularly important in applications involving shearing and cutting."), + QuestionModel( + question: + "9. What is the term for the point at which a material fails under an applied load?", + options: [ + "Yield point", + "Ultimate strength", + "Elastic limit", + "Proportional limit" + ], + correctAnswerIndex: 1, + Solution: + "The point at which a material fails under an applied load is called the ultimate strength. It is the maximum stress a material can withstand before failure."), + QuestionModel( + question: + "10. Which material property describes a material's ability to undergo large plastic deformation without breaking?", + options: ["Elasticity", "Malleability", "Ductility", "Hardness"], + correctAnswerIndex: 2, + Solution: + "Ductility is the material property that describes a material's ability to undergo large plastic deformation without breaking. Ductile materials can be stretched into wires."), + QuestionModel( + question: + "11. What is the term for the deformation of a material in response to an applied load?", + options: ["Stress", "Strain", "Hardness", "Fracture"], + correctAnswerIndex: 1, + Solution: + "The deformation of a material in response to an applied load is called strain. It is a measure of the relative change in shape or size of a material."), + QuestionModel( + question: + "12. What is the term for the property of a material that describes its ability to absorb energy without breaking or fracturing?", + options: ["Resilience", "Stiffness", "Plasticity", "Hardness"], + correctAnswerIndex: 0, + Solution: + "The property of a material that describes its ability to absorb energy without breaking or fracturing is called resilience. It is a measure of a material's ability to withstand shock or impact."), + QuestionModel( + question: + "13. What is the term for the ability of a material to return to its original shape and size after being subjected to a deforming force?", + options: ["Brittleness", "Stress", "Toughness", "Elasticity"], + correctAnswerIndex: 3, + Solution: + "The ability of a material to return to its original shape and size after being subjected to a deforming force is called elasticity. Elastic materials exhibit this property."), + QuestionModel( + question: + "14. What is the term for the tendency of a material to break or shatter without undergoing significant deformation?", + options: ["Stiffness", "Ductility", "Plasticity", "Brittleness"], + correctAnswerIndex: 3, + Solution: + "The tendency of a material to break or shatter without undergoing significant deformation is called brittleness. Brittle materials do not exhibit plastic deformation."), + QuestionModel( + question: + "15. Which of the following is an example of a ceramic material?", + options: ["Aluminum", "Steel", "Glass", "Rubber"], + correctAnswerIndex: 2, + Solution: + "Glass is an example of a ceramic material. Ceramics are typically hard and brittle materials with high-temperature stability."), + QuestionModel( + question: + "16. What is the term for a material's resistance to permanent deformation under an applied load?", + options: ["Toughness", "Elasticity", "Plasticity", "Stiffness"], + correctAnswerIndex: 1, + Solution: + "A material's resistance to permanent deformation under an applied load is referred to as elasticity. Elastic materials return to their original shape after the load is removed."), + QuestionModel( + question: + "17. What property of a material describes its ability to absorb energy up to the point of failure?", + options: [ + "Yield strength", + "Toughness", + "Elastic limit", + "Ultimate strength" + ], + correctAnswerIndex: 1, + Solution: + "The property of a material that describes its ability to absorb energy up to the point of failure is called toughness. It is a measure of a material's ability to withstand sudden impact."), + QuestionModel( + question: + "18. What is the term for the maximum stress that a material can withstand without permanent deformation?", + options: [ + "Yield strength", + "Ultimate strength", + "Elastic limit", + "Proportional limit" + ], + correctAnswerIndex: 0, + Solution: + "The maximum stress that a material can withstand without permanent deformation is called yield strength. It is a critical parameter in material testing and design."), + QuestionModel( + question: + "19. What is the term for the ability of a material to undergo plastic deformation without breaking?", + options: ["Elasticity", "Malleability", "Brittleness", "Hardness"], + correctAnswerIndex: 1, + Solution: + "Malleability is the ability of a material to undergo plastic deformation without breaking. Malleable materials can be rolled or hammered into thin sheets or shapes."), + QuestionModel( + question: + "20. What is the term for the measure of a material's stiffness and resistance to elastic deformation?", + options: ["Elasticity", "Malleability", "Stiffness", "Plasticity"], + correctAnswerIndex: 2, + Solution: + "The measure of a material's stiffness and resistance to elastic deformation is called stiffness. It is associated with a material's rigidity.") +]; + +List mechanics = [ + QuestionModel( + question: "1. Which of the following quantities is a vector?", + options: ["Speed", "Mass", "Distance", "Velocity"], + correctAnswerIndex: 3, + Solution: + "Velocity is a vector quantity because it has both magnitude and direction. Speed, mass, and distance are scalar quantities as they only have magnitude."), + QuestionModel( + question: + "2. According to Newton's second law of motion, the acceleration of an object is directly proportional to the net force acting on it and inversely proportional to its:", + options: ["Velocity", "Mass", "Distance", "Time"], + correctAnswerIndex: 1, + Solution: + "According to Newton's second law of motion, the acceleration of an object is directly proportional to the net force acting on it and inversely proportional to its mass. This relationship is described by the formula F = ma, where F is the force, m is the mass, and a is the acceleration."), + QuestionModel( + question: + "3. When an object moves in a circular path at a constant speed, what is the direction of its acceleration?", + options: [ + "Towards the center of the circle", + "Away from the center of the circle", + "Tangential to the circle", + "Parallel to the circle" + ], + correctAnswerIndex: 0, + Solution: + "When an object moves in a circular path at a constant speed, its acceleration is directed towards the center of the circle. This is called centripetal acceleration and is necessary to keep the object in circular motion."), + QuestionModel( + question: + "4. What is the relationship between an object's weight and its mass?", + options: [ + "Weight is equal to mass", + "Weight is directly proportional to mass", + "Weight is inversely proportional to mass", + "Weight is the product of mass and acceleration due to gravity" + ], + correctAnswerIndex: 3, + Solution: + "The weight of an object is the product of its mass and the acceleration due to gravity. So, weight = mass * acceleration due to gravity. Weight is measured in newtons (N)."), + QuestionModel( + question: + "5. In the absence of air resistance, if you drop two objects of different masses from the same height, which one will hit the ground first?", + options: [ + "The heavier object", + "The lighter object", + "Both will hit at the same time", + "It depends on their shapes" + ], + correctAnswerIndex: 2, + Solution: + "In the absence of air resistance, both objects will hit the ground at the same time, regardless of their masses. This is a demonstration of the equivalence principle."), + QuestionModel( + question: + "6. What is the name of the force that opposes the relative motion or tendency of such motion between two surfaces in contact?", + options: [ + "Centripetal force", + "Gravitational force", + "Frictional force", + "Tension force" + ], + correctAnswerIndex: 2, + Solution: + "The force that opposes the relative motion or tendency of such motion between two surfaces in contact is called frictional force. It is responsible for creating resistance to motion and is present in various forms, such as static and kinetic friction."), + QuestionModel( + question: + "7. What is the principle that states an object at rest will remain at rest, and an object in motion will remain in motion with the same speed and in the same direction unless acted upon by an unbalanced external force?", + options: [ + "Newton's first law of motion", + "Newton's second law of motion", + "Newton's third law of motion", + "Principle of conservation of energy" + ], + correctAnswerIndex: 0, + Solution: + "The principle that states an object at rest will remain at rest, and an object in motion will remain in motion with the same speed and in the same direction unless acted upon by an unbalanced external force is Newton's first law of motion."), + QuestionModel( + question: + "8. What is the measure of an object's resistance to changes in its rotational motion?", + options: ["Inertia", "Momentum", "Force", "Acceleration"], + correctAnswerIndex: 0, + Solution: + "The measure of an object's resistance to changes in its rotational motion is called inertia. It is similar to mass in linear motion and depends on the distribution of mass in the object."), + QuestionModel( + question: + "9. When an object is in equilibrium, the sum of the forces acting on it is:", + options: [ + "Zero", + "Equal to its mass", + "In the same direction", + "Opposite to its velocity" + ], + correctAnswerIndex: 0, + Solution: + "When an object is in equilibrium, the sum of the forces acting on it is zero. This means that the net force is balanced, and the object is not accelerating."), + QuestionModel( + question: + "10. Which of the following statements about work and energy is true?", + options: [ + "Work is a form of energy.", + "Energy is a form of work.", + "Work and energy are unrelated concepts.", + "Work is a measure of an object's mass." + ], + correctAnswerIndex: 0, + Solution: + "Work is a form of energy. Work is the transfer of energy from one system to another, and energy can exist in various forms, including kinetic energy, potential energy, and thermal energy."), + QuestionModel( + question: + "11. What is the unit of force in the International System of Units (SI)?", + options: ["Watt", "Newton", "Joule", "Pascal"], + correctAnswerIndex: 1, + Solution: + "The unit of force in the International System of Units (SI) is the newton (N). One newton is the force required to accelerate a one-kilogram mass at a rate of one meter per second squared."), + QuestionModel( + question: + "12. In the context of mechanical advantage, what is the purpose of a simple machine like a lever or pulley?", + options: [ + "To decrease the input force required to do work", + "To increase the input force required to do work", + "To decrease the work output", + "To increase the work output" + ], + correctAnswerIndex: 0, + Solution: + "The purpose of a simple machine like a lever or pulley is to decrease the input force required to do work. Simple machines allow us to achieve mechanical advantage by trading force for distance."), + QuestionModel( + question: + "13. According to Hooke's law, what is the relationship between the force applied to a spring and the resulting deformation of the spring?", + options: [ + "Force is directly proportional to deformation.", + "Force is inversely proportional to deformation.", + "Force is unrelated to deformation.", + "Force is equal to deformation." + ], + correctAnswerIndex: 0, + Solution: + "According to Hooke's law, the force applied to a spring is directly proportional to the deformation or change in length of the spring. Mathematically, F = -kx, where F is the force, k is the spring constant, and x is the deformation."), + QuestionModel( + question: + "14. What is the term for the force that opposes the motion of an object through a fluid (liquid or gas)?", + options: [ + "Frictional force", + "Tension force", + "Drag force", + "Centripetal force" + ], + correctAnswerIndex: 2, + Solution: + "The force that opposes the motion of an object through a fluid is called drag force. It is responsible for slowing down objects moving through air or water."), + QuestionModel( + question: + "15. According to the law of conservation of momentum, in the absence of external forces, the total momentum of a closed system:", + options: [ + "Decreases", + "Increases", + "Remains constant", + "Reverses direction" + ], + correctAnswerIndex: 2, + Solution: + "According to the law of conservation of momentum, in the absence of external forces, the total momentum of a closed system remains constant. This law applies to both linear and angular momentum."), + QuestionModel( + question: + "16. When an object is in free fall near the surface of the Earth, what is the acceleration due to gravity (ignoring air resistance)?", + options: ["1 m/s²", "10 m/s²", "50 m/s²", "100 m/s²"], + correctAnswerIndex: 1, + Solution: + "Near the surface of the Earth, the acceleration due to gravity is approximately 10 m/s². This value is often rounded to 9.81 m/s² for calculations."), + QuestionModel( + question: + "17. What is the term for the point at which an object's weight appears to act, causing no rotation or moment about that point?", + options: ["Center of mass", "Center of gravity", "Fulcrum", "Lever arm"], + correctAnswerIndex: 1, + Solution: + "The point at which an object's weight appears to act, causing no rotation or moment about that point, is called the center of gravity. It is often used in equilibrium and balance calculations."), + QuestionModel( + question: + "18. What type of motion is exhibited by an object in free fall when the only force acting on it is gravity?", + options: [ + "Uniform motion", + "Uniform circular motion", + "Rectilinear motion", + "Projectile motion" + ], + correctAnswerIndex: 2, + Solution: + "An object in free fall, when the only force acting on it is gravity, exhibits rectilinear motion. It moves in a straight line with constant acceleration due to gravity."), + QuestionModel( + question: + "19. What is the term for the rate of change of velocity of an object with respect to time?", + options: ["Displacement", "Speed", "Acceleration", "Force"], + correctAnswerIndex: 2, + Solution: + "The rate of change of velocity of an object with respect to time is called acceleration. Acceleration can involve an increase or decrease in speed, a change in direction, or both."), + QuestionModel( + question: + "20. What principle states that for every action, there is an equal and opposite reaction?", + options: [ + "Newton's first law of motion", + "Newton's second law of motion", + "Newton's third law of motion", + "Law of conservation of momentum" + ], + correctAnswerIndex: 2, + Solution: + "The principle that states for every action, there is an equal and opposite reaction is Newton's third law of motion. This law describes how forces interact between objects.") +]; + +List mechatronics = [ + QuestionModel( + question: "1. What is Mechatronics?", + options: [ + "A. A branch of mechanical engineering", + "B. A combination of mechanics and electronics", + "C. A type of computer programming", + "D. A form of biological engineering" + ], + correctAnswerIndex: 1, + Solution: + "The correct answer is B. Mechatronics is a multidisciplinary field that combines mechanical engineering and electronics. It involves integrating mechanical systems with electronics, control systems, and computer technology to create intelligent and automated systems."), + QuestionModel( + question: + "2. Which component of a mechatronic system is responsible for making decisions and controlling the overall operation?", + options: [ + "A. Actuator", + "B. Sensor", + "C. Microcontroller", + "D. Power supply" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. Microcontroller. The microcontroller is the component that makes decisions and controls the overall operation of a mechatronic system. It processes data from sensors and sends commands to actuators to achieve desired tasks."), + QuestionModel( + question: + "3. What is the primary purpose of sensors in a mechatronic system?", + options: [ + "A. To provide power to the system", + "B. To process data and make decisions", + "C. To detect and measure physical quantities", + "D. To provide mechanical motion" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. To detect and measure physical quantities. Sensors in a mechatronic system are used to detect and measure various physical parameters such as temperature, pressure, distance, and more. This data is then used for control and decision-making."), + QuestionModel( + question: + "4. Which of the following is an example of a common application of mechatronics in everyday life?", + options: [ + "A. Microwave ovens", + "B. Telecommunications networks", + "C. Artificial intelligence research", + "D. Archaeological excavations" + ], + correctAnswerIndex: 0, + Solution: + "The correct answer is A. Microwave ovens. Mechatronics is commonly applied in household appliances like microwave ovens, where it combines mechanical components, sensors, and control systems to cook food efficiently and safely."), + QuestionModel( + question: "5. In mechatronics, what are actuators responsible for?", + options: [ + "A. Measuring physical quantities", + "B. Making decisions and control", + "C. Providing power to the system", + "D. Generating mechanical motion" + ], + correctAnswerIndex: 3, + Solution: + "The correct answer is D. Generating mechanical motion. Actuators in mechatronics are devices that convert electrical signals into mechanical motion. They are responsible for physically moving or manipulating objects in a mechatronic system."), + QuestionModel( + question: "6. What does PID control stand for in mechatronics?", + options: [ + "A. Proportional-Integral-Derivative control", + "B. Power Input Distribution control", + "C. Precision-Instrument Display control", + "D. Positional Improvement Device control" + ], + correctAnswerIndex: 0, + Solution: + "The correct answer is A. Proportional-Integral-Derivative control (PID control). PID control is a common control mechanism in mechatronics that uses three terms (proportional, integral, and derivative) to control and regulate systems."), + QuestionModel( + question: + "7. Which type of sensors are commonly used to detect the presence or absence of objects in mechatronic systems?", + options: [ + "A. Thermocouples", + "B. Infrared sensors", + "C. Load cells", + "D. Accelerometers" + ], + correctAnswerIndex: 1, + Solution: + "The correct answer is B. Infrared sensors. Infrared sensors are often used for object detection in mechatronic systems. They emit and detect infrared radiation, making them suitable for detecting the presence or absence of objects."), + QuestionModel( + question: + "8. What is the purpose of a Haptic feedback system in mechatronics?", + options: [ + "A. To display visual information", + "B. To provide tactile feedback to the user", + "C. To store data", + "D. To improve wireless communication" + ], + correctAnswerIndex: 1, + Solution: + "The correct answer is B. To provide tactile feedback to the user. Haptic feedback systems in mechatronics are designed to provide tactile sensations to the user, allowing them to feel and interact with virtual or remote environments."), + QuestionModel( + question: + "9. In mechatronics, what does the term 'closed-loop control' refer to?", + options: [ + "A. Control system without sensors", + "B. Control system without actuators", + "C. Control system with feedback", + "D. Control system with no microcontroller" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. Control system with feedback. Closed-loop control in mechatronics refers to a control system that uses feedback from sensors to continuously adjust and improve the system's performance."), + QuestionModel( + question: + "10. Which mechatronic system component is responsible for converting electrical energy into another form of energy (e.g., mechanical motion or heat)?", + options: [ + "A. Sensor", + "B. Actuator", + "C. Microcontroller", + "D. Power supply" + ], + correctAnswerIndex: 1, + Solution: + "The correct answer is B. Actuator. Actuators in mechatronics are responsible for converting electrical energy into another form of energy, typically mechanical motion. This enables them to perform various tasks and functions."), + QuestionModel( + question: + "11. What is the role of a power supply in a mechatronic system?", + options: [ + "A. To measure physical quantities", + "B. To provide mechanical motion", + "C. To generate decisions and control", + "D. To provide electrical energy to the system" + ], + correctAnswerIndex: 3, + Solution: + "The correct answer is D. To provide electrical energy to the system. The power supply in a mechatronic system is responsible for providing the electrical energy needed to operate the various components, including sensors, actuators, and microcontrollers."), + QuestionModel( + question: + "12. Which programming language is commonly used for controlling and programming mechatronic systems?", + options: ["A. Python", "B. Java", "C. C++", "D. HTML"], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. C++. C++ is a commonly used programming language for controlling and programming mechatronic systems due to its efficiency and real-time capabilities."), + QuestionModel( + question: + "13. What is the primary purpose of feedback control in mechatronics?", + options: [ + "A. To prevent sensor malfunction", + "B. To eliminate the need for actuators", + "C. To adjust system behavior based on sensor data", + "D. To increase power supply voltage" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. To adjust system behavior based on sensor data. Feedback control in mechatronics uses sensor data to continuously adjust and regulate the system's behavior, ensuring it operates as intended."), + QuestionModel( + question: + "14. What is the key advantage of mechatronic systems in industrial automation?", + options: [ + "A. They require less power", + "B. They are less expensive", + "C. They improve efficiency and flexibility", + "D. They are easier to manufacture" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. They improve efficiency and flexibility. Mechatronic systems in industrial automation offer the advantage of improved efficiency and flexibility in manufacturing and production processes, allowing for automation and adaptation to various tasks."), + QuestionModel( + question: + "15. What does the term 'Real-time control' mean in mechatronics?", + options: [ + "A. Control without any delay", + "B. Control in virtual environments", + "C. Control based on user interaction", + "D. Control in slow motion" + ], + correctAnswerIndex: 0, + Solution: + "The correct answer is A. Control without any delay. Real-time control in mechatronics means that control actions are executed without any significant delay, ensuring that the system can respond to changes quickly and accurately."), + QuestionModel( + question: + "16. Which component of a mechatronic system is responsible for detecting and responding to changes in the system's environment?", + options: [ + "A. Actuator", + "B. Sensor", + "C. Microcontroller", + "D. Power supply" + ], + correctAnswerIndex: 1, + Solution: + "The correct answer is B. Sensor. Sensors in a mechatronic system are designed to detect changes in the system's environment, such as temperature, pressure, or the presence of objects, and provide data for control and decision-making."), + QuestionModel( + question: + "17. In mechatronics, what is the term for a pre-programmed sequence of actions or operations that a system follows?", + options: [ + "A. Feedback loop", + "B. Algorithm", + "C. Actuation process", + "D. Data logging" + ], + correctAnswerIndex: 1, + Solution: + "The correct answer is B. Algorithm. In mechatronics, an algorithm is a pre-programmed sequence of actions or operations that a system follows to achieve a specific task or function."), + QuestionModel( + question: + "18. What is the primary function of a control system in mechatronics?", + options: [ + "A. To provide power to the system", + "B. To generate mechanical motion", + "C. To regulate and coordinate system behavior", + "D. To measure physical quantities" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. To regulate and coordinate system behavior. Control systems in mechatronics are responsible for regulating and coordinating the behavior of the system's components, ensuring they work together harmoniously to achieve the desired objectives."), + QuestionModel( + question: + "19. Which of the following industries commonly uses mechatronics in the design and production of products?", + options: ["A. Agriculture", "B. Banking", "C. Fashion", "D. Tourism"], + correctAnswerIndex: 0, + Solution: + "The correct answer is A. Agriculture. Mechatronics is commonly used in agriculture for various purposes, including automated farming equipment, precision agriculture, and crop monitoring systems."), + QuestionModel( + question: + "20. In mechatronics, what does the term 'multi-domain' refer to?", + options: [ + "A. Control of multiple systems at once", + "B. Use of multiple programming languages", + "C. Integration of multiple engineering disciplines", + "D. Operation in multiple physical locations" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. Integration of multiple engineering disciplines. In mechatronics, 'multi-domain' refers to the integration of multiple engineering disciplines, such as mechanical, electrical, and software engineering, to design and control complex systems.") +]; + +List solidmechanics = [ + QuestionModel( + question: "1. What is the primary focus of Solid Mechanics?", + options: [ + "A. The study of fluid dynamics", + "B. The behavior of solids under various loads", + "C. The study of thermodynamics", + "D. The analysis of electrical circuits" + ], + correctAnswerIndex: 1, + Solution: + "The correct answer is B. The behavior of solids under various loads. Solid Mechanics is a branch of mechanics that focuses on the study of the behavior of solid materials, including how they respond to different loads and deformations."), + QuestionModel( + question: + "2. Which of the following materials is typically considered an isotropic material in Solid Mechanics?", + options: [ + "A. Wood", + "B. Rubber", + "C. Steel", + "D. Fiber-reinforced composite" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. Steel. Isotropic materials have uniform mechanical properties in all directions. Steel is often considered isotropic because its properties are relatively consistent regardless of the direction of loading."), + QuestionModel( + question: + "3. What is the term for the ability of a material to return to its original shape after deformation when the load is removed?", + options: [ + "A. Elasticity", + "B. Plasticity", + "C. Ductility", + "D. Hardness" + ], + correctAnswerIndex: 0, + Solution: + "The correct answer is A. Elasticity. Elasticity is the property of a material to return to its original shape when the applied load is removed. It is a key characteristic of elastic materials."), + QuestionModel( + question: + "4. Which principle in Solid Mechanics states that the internal stresses within a material are proportional to the applied load or deformation?", + options: [ + "A. Hooke's Law", + "B. Newton's Law", + "C. Pascal's Law", + "D. Archimedes' Principle" + ], + correctAnswerIndex: 0, + Solution: + "The correct answer is A. Hooke's Law. Hooke's Law is a fundamental principle in Solid Mechanics that states that the internal stresses within a material are directly proportional to the applied load or deformation, provided the material remains within its elastic limit."), + QuestionModel( + question: + "5. What is the term for the maximum stress that a material can withstand without permanent deformation?", + options: [ + "A. Yield stress", + "B. Ultimate stress", + "C. Shear stress", + "D. Tensile stress" + ], + correctAnswerIndex: 0, + Solution: + "The correct answer is A. Yield stress. Yield stress is the maximum stress that a material can withstand without undergoing permanent deformation. It marks the transition from elastic to plastic behavior."), + QuestionModel( + question: "6. In Solid Mechanics, what does the term 'strain' refer to?", + options: [ + "A. A measure of a material's density", + "B. The internal resistance of a material", + "C. The ratio of deformation to the original dimension", + "D. The ability of a material to return to its original shape" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. The ratio of deformation to the original dimension. Strain in Solid Mechanics is a measure of the deformation experienced by a material relative to its original dimension."), + QuestionModel( + question: + "7. Which of the following is an example of a tension force in Solid Mechanics?", + options: [ + "A. Pushing a box on a flat surface", + "B. A stretching force applied to a cable", + "C. Twisting a rod", + "D. Compressing a spring" + ], + correctAnswerIndex: 1, + Solution: + "The correct answer is B. A stretching force applied to a cable. Tension forces in Solid Mechanics are associated with stretching or elongating a material. When you pull on a cable or rope, you apply a tension force."), + QuestionModel( + question: + "8. What is the term for the deformation of a material when it is subjected to a shear force?", + options: ["A. Torsion", "B. Compression", "C. Tension", "D. Bending"], + correctAnswerIndex: 0, + Solution: + "The correct answer is A. Torsion. Torsion is the deformation of a material when it is subjected to a shear force. It results in a twisting or shearing motion."), + QuestionModel( + question: "9. What is the primary function of beams in Solid Mechanics?", + options: [ + "A. To measure temperature", + "B. To store energy", + "C. To support loads and resist bending", + "D. To generate electricity" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. To support loads and resist bending. Beams in Solid Mechanics are structural elements designed to support loads and distribute them while resisting bending and deformation."), + QuestionModel( + question: + "10. Which Solid Mechanics concept describes the tendency of a material to return to its original shape after deformation?", + options: [ + "A. Ductility", + "B. Hardness", + "C. Elasticity", + "D. Plasticity" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. Elasticity. Elasticity is the property that describes a material's ability to return to its original shape after deformation, provided it operates within its elastic limit."), + QuestionModel( + question: + "11. In Solid Mechanics, what is the primary objective of stress analysis?", + options: [ + "A. To determine the material's color", + "B. To evaluate the deformation of a material", + "C. To analyze the internal distribution of forces within a material", + "D. To measure the density of the material" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. To analyze the internal distribution of forces within a material. Stress analysis in Solid Mechanics aims to determine how forces and stresses are distributed within a material, helping to assess its structural integrity."), + QuestionModel( + question: + "12. What is the term for the point at which a material undergoes a sudden and significant reduction in its ability to withstand stress without breaking?", + options: [ + "A. Elastic limit", + "B. Yield point", + "C. Ultimate strength", + "D. Resilience threshold" + ], + correctAnswerIndex: 1, + Solution: + "The correct answer is B. Yield point. The yield point is the point at which a material undergoes a significant reduction in its ability to withstand stress without breaking or experiencing permanent deformation."), + QuestionModel( + question: + "13. In Solid Mechanics, what is the term for a force that tends to compress or shorten a material?", + options: [ + "A. Tension force", + "B. Shear force", + "C. Bending force", + "D. Compressive force" + ], + correctAnswerIndex: 3, + Solution: + "The correct answer is D. Compressive force. A compressive force is a force that tends to compress or shorten a material, leading to deformation in the direction of the applied force."), + QuestionModel( + question: + "14. What does the term 'Poisson's ratio' represent in Solid Mechanics?", + options: [ + "A. The ratio of tensile stress to tensile strain", + "B. The ratio of shear stress to shear strain", + "C. The ratio of lateral strain to axial strain", + "D. The ratio of elastic modulus to plastic modulus" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. The ratio of lateral strain to axial strain. Poisson's ratio is a material property that represents the ratio of the lateral strain (perpendicular to the applied force) to the axial strain (along the applied force)."), + QuestionModel( + question: + "15. What is the primary purpose of a stress-strain curve in Solid Mechanics?", + options: [ + "A. To calculate temperature changes in materials", + "B. To determine a material's color under stress", + "C. To understand the relationship between applied stress and resulting strain", + "D. To measure a material's density" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. To understand the relationship between applied stress and resulting strain. A stress-strain curve in Solid Mechanics is used to illustrate how a material responds to applied stress and how it undergoes deformation, providing valuable information about its mechanical properties."), + QuestionModel( + question: + "16. What is the term for the resistance of a material to permanent deformation or failure under an applied load?", + options: [ + "A. Elasticity", + "B. Ductility", + "C. Plasticity", + "D. Hardness" + ], + correctAnswerIndex: 0, + Solution: + "The correct answer is A. Elasticity. Elasticity refers to a material's ability to resist permanent deformation or failure under an applied load, returning to its original shape when the load is removed."), + QuestionModel( + question: + "17. Which type of stress in Solid Mechanics results from forces applied perpendicular to the surface of a material?", + options: [ + "A. Tensile stress", + "B. Shear stress", + "C. Compressive stress", + "D. Torsional stress" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. Compressive stress. Compressive stress results from forces applied perpendicular to the surface of a material, leading to compression or shortening."), + QuestionModel( + question: + "18. What is the term for a measure of a material's ability to absorb energy without fracturing or breaking?", + options: [ + "A. Elastic limit", + "B. Ductility", + "C. Toughness", + "D. Resilience" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. Toughness. Toughness is a measure of a material's ability to absorb energy without fracturing or breaking. It reflects its capacity to withstand dynamic loads."), + QuestionModel( + question: + "19. What is the primary objective of a stress analysis in Solid Mechanics?", + options: [ + "A. To calculate the temperature of a material", + "B. To evaluate the density of a material", + "C. To determine how forces and stresses are distributed within a material", + "D. To assess the color of a material under stress" + ], + correctAnswerIndex: 2, + Solution: + "The correct answer is C. To determine how forces and stresses are distributed within a material. Stress analysis in Solid Mechanics aims to assess how forces and stresses are distributed within a material, helping to ensure its structural integrity."), + QuestionModel( + question: + "20. In Solid Mechanics, what is the term for the ability of a material to withstand loads without experiencing significant deformation or failure?", + options: [ + "A. Plasticity", + "B. Elasticity", + "C. Ductility", + "D. Hardness" + ], + correctAnswerIndex: 1, + Solution: + "The correct answer is B. Elasticity. Elasticity is the ability of a material to withstand loads without experiencing significant deformation or failure, returning to its original shape when the load is removed.") +]; + +List thermodynamics = [ + QuestionModel( + question: + "1. Which of the following laws states that energy cannot be created or destroyed, only transferred or converted from one form to another?", + options: [ + "First Law of Thermodynamics", + "Second Law of Thermodynamics", + "Third Law of Thermodynamics", + "Zeroth Law of Thermodynamics" + ], + correctAnswerIndex: 0, + Solution: + "The First Law of Thermodynamics, also known as the law of energy conservation, states that energy cannot be created or destroyed. It can only be transferred or converted from one form to another."), + QuestionModel( + question: "2. What is the specific heat capacity of a substance?", + options: [ + "The amount of heat needed to raise the temperature of 1 gram of the substance by 1 degree Celsius.", + "The amount of heat needed to raise the temperature of 1 kilogram of the substance by 1 degree Celsius.", + "The temperature at which the substance boils.", + "The temperature at which the substance freezes." + ], + correctAnswerIndex: 0, + Solution: + "The specific heat capacity of a substance is the amount of heat needed to raise the temperature of 1 gram of the substance by 1 degree Celsius. It is a measure of the substance's ability to store thermal energy."), + QuestionModel( + question: + "3. In a thermodynamic process, if the internal energy of a system increases and heat is added to the system, what can be said about the work done by the system?", + options: [ + "The work done is positive.", + "The work done is negative.", + "The work done is zero.", + "The work done depends on the specific heat of the substance." + ], + correctAnswerIndex: 0, + Solution: + "If the internal energy of a system increases and heat is added to the system, the work done by the system is positive. This is based on the First Law of Thermodynamics."), + QuestionModel( + question: + "4. Which law of thermodynamics states that heat flows from hot to cold objects and not the other way around?", + options: [ + "First Law of Thermodynamics", + "Second Law of Thermodynamics", + "Third Law of Thermodynamics", + "Zeroth Law of Thermodynamics" + ], + correctAnswerIndex: 1, + Solution: + "The Second Law of Thermodynamics states that heat flows from hot to cold objects and not the other way around. It describes the direction of heat transfer and the irreversibility of certain processes."), + QuestionModel( + question: + "5. What is the absolute temperature scale where zero Kelvin (0 K) represents absolute zero, the lowest possible temperature?", + options: [ + "Celsius scale", + "Fahrenheit scale", + "Rankine scale", + "Kelvin scale" + ], + correctAnswerIndex: 3, + Solution: + "The absolute temperature scale where zero Kelvin (0 K) represents absolute zero is the Kelvin scale. It is the SI unit of temperature measurement."), + QuestionModel( + question: + "6. Which thermodynamic process occurs when a gas expands and cools without the addition or removal of heat?", + options: [ + "Isothermal process", + "Adiabatic process", + "Isobaric process", + "Isochoric process" + ], + correctAnswerIndex: 1, + Solution: + "An adiabatic process occurs when a gas expands and cools without the addition or removal of heat. In such a process, the internal energy of the gas changes due to the work done."), + QuestionModel( + question: + "7. What is the efficiency of a heat engine that takes in 500 J of heat and performs 200 J of work?", + options: ["40%", "60%", "25%", "80%"], + correctAnswerIndex: 0, + Solution: + "The efficiency of a heat engine is given by the ratio of the work done to the heat input. Efficiency = (Work done / Heat input) * 100%. In this case, Efficiency = (200 J / 500 J) * 100% = 40%."), + QuestionModel( + question: + "8. According to the Third Law of Thermodynamics, as the temperature of a system approaches absolute zero, the entropy of the system approaches:", + options: [ + "Zero", + "Infinity", + "A constant value", + "Depends on the substance" + ], + correctAnswerIndex: 0, + Solution: + "According to the Third Law of Thermodynamics, as the temperature of a system approaches absolute zero, the entropy of the system approaches zero. This law is related to the behavior of matter at extremely low temperatures."), + QuestionModel( + question: "9. What is the specific heat capacity of water?", + options: ["1 J/g°C", "4.18 J/g°C", "2.22 J/g°C", "5.00 J/g°C"], + correctAnswerIndex: 1, + Solution: + "The specific heat capacity of water is approximately 4.18 J/g°C. It is relatively high compared to many other substances, which makes water an excellent heat reservoir."), + QuestionModel( + question: + "10. Which thermodynamic process occurs when a gas expands and maintains constant pressure?", + options: [ + "Isothermal process", + "Adiabatic process", + "Isobaric process", + "Isochoric process" + ], + correctAnswerIndex: 2, + Solution: + "An isobaric process occurs when a gas expands and maintains constant pressure. In this process, the volume of the gas changes, but the pressure remains constant."), + QuestionModel( + question: "11. What is the heat capacity of an object?", + options: [ + "The amount of heat needed to raise its temperature by 1 degree Celsius.", + "The temperature at which it melts.", + "The temperature at which it boils.", + "The amount of work it can do." + ], + correctAnswerIndex: 0, + Solution: + "The heat capacity of an object is the amount of heat needed to raise its temperature by 1 degree Celsius. It is a measure of the object's ability to absorb heat."), + QuestionModel( + question: + "12. What is the term for the maximum amount of work that can be obtained from a heat engine operating between two reservoirs at different temperatures?", + options: [ + "Carnot efficiency", + "Entropy", + "Adiabatic process", + "Internal energy" + ], + correctAnswerIndex: 0, + Solution: + "The term for the maximum amount of work that can be obtained from a heat engine operating between two reservoirs at different temperatures is known as the Carnot efficiency. It represents the ideal limit of efficiency for a heat engine."), + QuestionModel( + question: + "13. What is the heat transfer process that occurs through the emission and absorption of electromagnetic waves, such as infrared radiation?", + options: ["Conduction", "Convection", "Radiation", "Advection"], + correctAnswerIndex: 2, + Solution: + "The heat transfer process that occurs through the emission and absorption of electromagnetic waves, such as infrared radiation, is called radiation. It can occur in a vacuum and does not require a medium."), + QuestionModel( + question: + "14. When a gas undergoes an adiabatic expansion, which of the following properties remains constant?", + options: ["Temperature", "Pressure", "Volume", "Entropy"], + correctAnswerIndex: 3, + Solution: + "When a gas undergoes an adiabatic expansion, the entropy remains constant. An adiabatic process is characterized by the absence of heat transfer, which means there is no change in entropy."), + QuestionModel( + question: + "15. What is the term for the point at which a substance changes from a gas to a liquid, or vice versa, at a constant temperature and pressure?", + options: [ + "Melting point", + "Boiling point", + "Triple point", + "Critical point" + ], + correctAnswerIndex: 1, + Solution: + "The term for the point at which a substance changes from a gas to a liquid, or vice versa, at a constant temperature and pressure is the boiling point. It is a characteristic property of the substance."), + QuestionModel( + question: + "16. What is the term for a process in which a system exchanges both heat and work with its surroundings?", + options: [ + "Adiabatic process", + "Isothermal process", + "Isobaric process", + "Open system process" + ], + correctAnswerIndex: 1, + Solution: + "An isothermal process is a process in which a system exchanges both heat and work with its surroundings while maintaining a constant temperature. It is often used as an idealized process in thermodynamics."), + QuestionModel( + question: + "17. According to the Zeroth Law of Thermodynamics, if two systems are each in thermal equilibrium with a third system, then they are in thermal equilibrium with each other. This law establishes the concept of:", + options: ["Temperature", "Pressure", "Entropy", "Work"], + correctAnswerIndex: 0, + Solution: + "According to the Zeroth Law of Thermodynamics, if two systems are each in thermal equilibrium with a third system, then they are in thermal equilibrium with each other. This law establishes the concept of temperature and the basis for temperature measurement."), + QuestionModel( + question: + "18. What is the term for the heat energy required to change a substance from a solid to a liquid at its melting point?", + options: [ + "Latent heat of fusion", + "Latent heat of vaporization", + "Specific heat capacity", + "Heat capacity" + ], + correctAnswerIndex: 0, + Solution: + "The term for the heat energy required to change a substance from a solid to a liquid at its melting point is the latent heat of fusion. It is also known as the heat of fusion."), + QuestionModel( + question: + "19. What is the term for a thermodynamic process that occurs at a constant volume?", + options: [ + "Isothermal process", + "Adiabatic process", + "Isobaric process", + "Isochoric process" + ], + correctAnswerIndex: 3, + Solution: + "An isochoric process occurs at a constant volume. During such a process, the volume of the system remains constant, and work is usually not done."), + QuestionModel( + question: + "20. What is the term for the measure of disorder or randomness in a system, often associated with the Second Law of Thermodynamics?", + options: ["Temperature", "Pressure", "Entropy", "Enthalpy"], + correctAnswerIndex: 2, + Solution: + "The term for the measure of disorder or randomness in a system is entropy. It is a fundamental concept in the Second Law of Thermodynamics and is used to describe the direction of spontaneous processes.") +]; diff --git a/lib/main.dart b/lib/main.dart index 8d06b5e..2a54fb3 100644 --- a/lib/main.dart +++ b/lib/main.dart @@ -1,13 +1,19 @@ -// ignore: duplicate_ignore -// ignore_for_file: camel_case_types +import 'dart:io'; +import 'dart:typed_data'; -import 'package:Learner/aptitude.dart'; -import 'package:Learner/splashscreen.dart'; -import 'package:animated_text_kit/animated_text_kit.dart'; +import 'package:Learner/Screens/Signup.dart'; +import 'package:Learner/pages/chat_page.dart'; +import 'package:Learner/widgets/widgets.dart'; +import 'package:Learner/Screens/splashscreen.dart'; +import 'package:firebase_core/firebase_core.dart'; import 'package:flutter/material.dart'; -import 'package:page_route_animator/page_route_animator.dart'; +import 'package:flutter_staggered_animations/flutter_staggered_animations.dart'; +import 'package:firebase_auth/firebase_auth.dart'; +import 'package:image_picker/image_picker.dart'; -void main() { +void main() async { + WidgetsFlutterBinding.ensureInitialized(); + await Firebase.initializeApp(); runApp(const app()); } @@ -16,7 +22,7 @@ class app extends StatelessWidget { @override Widget build(BuildContext context) { - return const MaterialApp( + return MaterialApp( debugShowCheckedModeBanner: false, home: Splashscreen(), ); @@ -31,437 +37,604 @@ class home extends StatefulWidget { } class _homeState extends State { + List li = [ + Contacts( + imgPath: 'https://img.icons8.com/?size=80&id=E4TmMXDTFqnU&format=png', + name: 'Aptitude', + screen: Aptitude()), + Contacts( + imgPath: 'https://img.icons8.com/?size=80&id=QxdLtnS1odd0&format=png', + name: ' Logical \n Reasoning', + screen: Logical()), + Contacts( + imgPath: 'https://img.icons8.com/?size=80&id=hycoXVNBpA16&format=png', + name: ' Verbal\nReasoning', + screen: Verbal()), + Contacts( + imgPath: 'https://cdn-icons-png.flaticon.com/128/900/900618.png', + name: ' Electronics\nCommunication', + screen: Electronics()), + Contacts( + imgPath: 'https://img.icons8.com/?size=80&id=iKwDC0dEKn1u&format=png', + name: ' Civil\nEngineering', + screen: Civil()), + Contacts( + imgPath: 'https://img.icons8.com/?size=80&id=E8jmYfaPfl4Z&format=png', + name: ' Electrical\nEngineering', + screen: Electrical()), + Contacts( + imgPath: 'https://img.icons8.com/?size=80&id=myTX8FfvAVZh&format=png', + name: 'Mechanical\nEngineering', + screen: Mechanical()), + Contacts( + imgPath: 'https://img.icons8.com/?size=80&id=hTGRQwQv8YKX&format=png', + name: ' Agriculture\nEngineering', + screen: Agriculture()), + Contacts( + imgPath: 'https://cdn-icons-png.flaticon.com/128/11523/11523357.png', + name: 'Computer\n Science', + screen: Computer()), + Contacts( + imgPath: 'https://img.icons8.com/?size=80&id=97384&format=png', + name: ' Artifical\nIntelligence', + screen: Artifical()), + ]; + + Future logout() async { + final FirebaseAuth auth = FirebaseAuth.instance; + await auth.signOut(); + Navigator.pushReplacement( + context, MaterialPageRoute(builder: (context) => SignupOnePage())); + } + + Uint8List? _image; + File? selectedIMage; + @override Widget build(BuildContext context) { - var size = MediaQuery.of(context).size; - final double itemheight = (size.height - kToolbarHeight - 24) / 4.3; - final double itemwidth = size.width / 2; - const colorizeColors = [ - Color.fromARGB(255, 250, 248, 249), - Colors.blue, - Colors.yellow, - Colors.red, - ]; - - const colorizeTextStyle = TextStyle( - fontSize: 25.0, fontFamily: 'Horizon', fontWeight: FontWeight.bold); return Scaffold( - backgroundColor: const Color.fromARGB(255, 0, 7, 7), - appBar: AppBar( - title: AnimatedTextKit( - totalRepeatCount: 6, - // repeatForever: true, - animatedTexts: [ - ColorizeAnimatedText( - 'Boost Your Career', - textStyle: colorizeTextStyle, - colors: colorizeColors, - ), - ], - isRepeatingAnimation: true, - ), - centerTitle: true, - backgroundColor: Colors.black, - ), + backgroundColor: Color.fromARGB(255, 255, 255, 255), drawer: Drawer( - child: ListView( - children: const [ - DrawerHeader( - child: Text('Drawer Header'), + width: 250, + backgroundColor: Color.fromARGB(255, 255, 255, 255), + shape: RoundedRectangleBorder(borderRadius: BorderRadius.circular(25)), + child: Column( + children: [ + SizedBox( + height: 250, + child: DrawerHeader( + child: Column( + children: [ + Stack(children: [ + _image != null + ? CircleAvatar( + radius: 80, + backgroundImage: MemoryImage(_image!), + ) + : const CircleAvatar( + radius: 80, + backgroundColor: Colors.white, + backgroundImage: NetworkImage( + "https://cdn.pixabay.com/photo/2019/08/11/18/59/icon-4399701_640.png"), + ), + Positioned( + bottom: 0, + left: 120, + child: IconButton( + onPressed: () { + showImagePickerOption(context); + }, + icon: Icon( + Icons.add_a_photo, + size: 35, + ))), + ]) + ], + )), ), - ListTile( - title: Text('Item 1'), + const Divider( + height: 1, + thickness: 0.5, + color: Colors.black, ), - ListTile( - title: Text('Item 2'), + const Divider( + thickness: 0.1, + height: 1, + color: Color.fromARGB(255, 255, 255, 255), ), - ], - ), - ), - body: Padding( - padding: const EdgeInsets.only(left: 2, right: 2, top: 2, bottom: 2), - child: GridView.count( - childAspectRatio: (itemwidth / itemheight), - crossAxisCount: 2, - crossAxisSpacing: 2, - mainAxisSpacing: 2, - children: [ - GestureDetector( - onTap: () { - Navigator.push( - context, - PageRouteAnimator( - child: Aptitude(), - routeAnimation: RouteAnimation.rightToLeft, - settings: const RouteSettings(arguments: 'I am going'), - curve: Curves.easeOut, - ), - ); - }, - child: Container( - decoration: BoxDecoration( - gradient: const LinearGradient(colors: [ - Color.fromARGB(255, 159, 245, 222), - Color.fromARGB(255, 101, 151, 138), - ]), - borderRadius: BorderRadius.circular(25)), - child: const Column( - mainAxisAlignment: MainAxisAlignment.center, - children: [ - Image( - image: NetworkImage( - 'https://img.icons8.com/?size=80&id=E4TmMXDTFqnU&format=png'), - ), - SizedBox( - height: 10, - ), - Text( - 'Aptitude', - style: TextStyle( - fontStyle: FontStyle.italic, - fontWeight: FontWeight.bold, - fontSize: 20), - ), - ], - ), + ListTile( + leading: const Icon( + Icons.home_outlined, + color: Colors.black87, + ), + title: const Text( + 'home', + style: TextStyle( + fontStyle: FontStyle.normal, + fontWeight: FontWeight.bold, + fontSize: 16), ), - ), - GestureDetector( onTap: () { - Navigator.push( - context, - PageRouteAnimator( - child: Aptitude(), - routeAnimation: RouteAnimation.rightToLeft, - settings: const RouteSettings(arguments: 'I am going'), - curve: Curves.easeOut, - ), - ); + Navigator.pop( + context, + MaterialPageRoute( + builder: (context) => home(), + )); }, - child: Container( - decoration: BoxDecoration( - gradient: const LinearGradient(colors: [ - Color.fromARGB(255, 246, 236, 173), - Color.fromARGB(255, 153, 147, 109) - ]), - borderRadius: BorderRadius.circular(25)), - child: const Column( - mainAxisAlignment: MainAxisAlignment.center, - children: [ - Image( - image: NetworkImage( - 'https://img.icons8.com/?size=80&id=QxdLtnS1odd0&format=png'), - ), - SizedBox( - height: 10, - ), - Text( - 'Logical', - style: TextStyle( - fontStyle: FontStyle.italic, - fontWeight: FontWeight.bold, - fontSize: 20), - ), - Text( - 'Reasoning', - style: TextStyle( - fontStyle: FontStyle.italic, - fontWeight: FontWeight.bold, - fontSize: 20), - ), - ], - ), - ), ), - Container( - decoration: BoxDecoration( - gradient: const LinearGradient(colors: [ - Color.fromARGB(255, 248, 200, 137), - Color.fromARGB(255, 157, 138, 114), - ]), - borderRadius: BorderRadius.circular(25)), - child: const Column( - mainAxisAlignment: MainAxisAlignment.center, - children: [ - Image( - image: NetworkImage( - 'https://img.icons8.com/?size=80&id=hycoXVNBpA16&format=png'), - ), - SizedBox( - height: 10, - ), - Text( - 'Verbal', - style: TextStyle( - fontStyle: FontStyle.italic, - fontWeight: FontWeight.bold, - fontSize: 20), - ), - Text( - 'Reasoning', - style: TextStyle( - fontStyle: FontStyle.italic, - fontWeight: FontWeight.bold, - fontSize: 20), - ), - ], - ), + const Divider( + thickness: 0.1, + height: 1, + color: Color.fromARGB(255, 255, 255, 255), ), - Container( - decoration: BoxDecoration( - gradient: const LinearGradient(colors: [ - Color.fromARGB(255, 206, 253, 179), - Color.fromARGB(255, 123, 150, 110), - ]), - borderRadius: BorderRadius.circular(25)), - child: const Column( - mainAxisAlignment: MainAxisAlignment.center, - children: [ - Image( - image: NetworkImage( - 'https://img.icons8.com/?size=64&id=49446&format=png'), - ), - SizedBox( - height: 10, - ), - Text( - 'General', - style: TextStyle( - fontStyle: FontStyle.italic, - fontWeight: FontWeight.bold, - fontSize: 20), - ), - Text( - 'Knowledge', - style: TextStyle( - fontStyle: FontStyle.italic, - fontWeight: FontWeight.bold, - fontSize: 20), - ), - ], - ), + const Divider( + thickness: 0.1, + height: 1, + color: Color.fromARGB(255, 226, 226, 226), ), - Container( - decoration: BoxDecoration( - gradient: const LinearGradient(colors: [ - Color.fromARGB(255, 253, 184, 192), - Color.fromARGB(255, 149, 112, 114), - ]), - borderRadius: BorderRadius.circular(25)), - child: const Column( - mainAxisAlignment: MainAxisAlignment.center, - children: [ - Image( - image: NetworkImage( - 'https://img.icons8.com/?size=80&id=iKwDC0dEKn1u&format=png'), - ), - SizedBox( - height: 10, - ), - Text( - 'Civil', - style: TextStyle( - fontStyle: FontStyle.italic, - fontWeight: FontWeight.bold, - fontSize: 20), - ), - Text( - 'Engineering', - style: TextStyle( - fontStyle: FontStyle.italic, - fontWeight: FontWeight.bold, - fontSize: 20), - ), - ], + const Divider( + thickness: 0.1, + height: 1, + color: Color.fromARGB(255, 0, 0, 0), + ), + const Divider( + thickness: 0.1, + height: 1, + color: Color.fromARGB(255, 221, 221, 221), + ), + ListTile( + leading: const Icon( + Icons.contact_support_outlined, + color: Colors.black87, ), + title: const Text( + 'Contact us', + style: TextStyle( + fontStyle: FontStyle.normal, + fontWeight: FontWeight.bold, + fontSize: 16), + ), + onTap: () {}, ), - GestureDetector( - onTap: () { - Navigator.push( - context, - PageRouteAnimator( - child: Electrical(), - routeAnimation: RouteAnimation.rightToLeft, - settings: const RouteSettings(arguments: 'I am going'), - curve: Curves.easeOut, - ), - ); - }, - child: Container( - decoration: BoxDecoration( - gradient: const LinearGradient(colors: [ - Color.fromARGB(255, 244, 182, 249), - Color.fromARGB(255, 139, 108, 142), - ]), - borderRadius: BorderRadius.circular(25)), - child: const Column( - mainAxisAlignment: MainAxisAlignment.center, - children: [ - Image( - image: NetworkImage( - 'https://img.icons8.com/?size=80&id=E8jmYfaPfl4Z&format=png'), - ), - SizedBox( - height: 10, - ), - Text( - 'Electrical', - style: TextStyle( - fontStyle: FontStyle.italic, - fontWeight: FontWeight.bold, - fontSize: 20), - ), - Text( - 'Engineering', - style: TextStyle( - fontStyle: FontStyle.italic, - fontWeight: FontWeight.bold, - fontSize: 20), - ), - ], - ), + const Divider( + thickness: 0.1, + height: 1, + color: Color.fromARGB(255, 0, 0, 0), + ), + ListTile( + leading: const Icon( + Icons.share, + color: Colors.black87, ), + title: const Text( + 'Share', + style: TextStyle( + fontStyle: FontStyle.normal, + fontWeight: FontWeight.bold, + fontSize: 16), + ), + onTap: () {}, ), - Container( - decoration: BoxDecoration( - gradient: const LinearGradient(colors: [ - Color.fromARGB(255, 198, 188, 253), - Color.fromARGB(255, 122, 118, 148), - ]), - borderRadius: BorderRadius.circular(25)), - child: const Column( - mainAxisAlignment: MainAxisAlignment.center, - children: [ - Image( - image: NetworkImage( - 'https://img.icons8.com/?size=80&id=myTX8FfvAVZh&format=png'), - ), - SizedBox( - height: 10, - ), - Text( - 'Mechanical', - style: TextStyle( - fontStyle: FontStyle.italic, - fontWeight: FontWeight.bold, - fontSize: 20), - ), - Text( - 'Engineering', - style: TextStyle( - fontStyle: FontStyle.italic, - fontWeight: FontWeight.bold, - fontSize: 20), - ), - ], + const Divider( + thickness: 0.1, + height: 1, + color: Color.fromARGB(255, 0, 0, 0), + ), + ListTile( + leading: const Icon( + Icons.app_blocking_outlined, + color: Colors.black87, + ), + title: const Text( + 'About us', + style: TextStyle( + fontStyle: FontStyle.normal, + fontWeight: FontWeight.bold, + fontSize: 16), ), + onTap: () {}, ), - Container( - decoration: BoxDecoration( - gradient: const LinearGradient(colors: [ - Color.fromARGB(255, 191, 246, 253), - Color.fromARGB(255, 115, 140, 143), - ]), - borderRadius: BorderRadius.circular(25)), - child: const Column( - mainAxisAlignment: MainAxisAlignment.center, - children: [ - Image( - image: NetworkImage( - 'https://img.icons8.com/?size=80&id=hTGRQwQv8YKX&format=png'), - ), - SizedBox( - height: 10, - ), - Text( - 'Agriculture', - style: TextStyle( - fontStyle: FontStyle.italic, - fontWeight: FontWeight.bold, - fontSize: 20), - ), - Text( - 'Engineering', - style: TextStyle( - fontStyle: FontStyle.italic, - fontWeight: FontWeight.bold, - fontSize: 20), - ), - ], + const Divider( + thickness: 0.1, + height: 1, + color: Color.fromARGB(255, 0, 0, 0), + ), + ListTile( + leading: const Icon( + Icons.logout_sharp, + color: Colors.black87, + ), + title: const Text( + 'Logout', + style: TextStyle( + fontStyle: FontStyle.normal, + fontWeight: FontWeight.bold, + fontSize: 16), ), + onTap: () { + showDialog( + context: context, + builder: (context) { + return AlertDialog( + title: const Text( + 'Do you want to logout', + style: TextStyle( + fontStyle: FontStyle.normal, + fontWeight: FontWeight.bold, + fontSize: 20), + ), + actions: [ + TextButton( + onPressed: () { + logout(); + }, + child: const Text('Yes')), + TextButton( + onPressed: () { + Navigator.pop(context); + }, + child: const Text('No')) + ], + ); + }); + }, ), - Container( - decoration: BoxDecoration( - gradient: const LinearGradient(colors: [ - Color.fromARGB(255, 255, 191, 241), - Color.fromARGB(255, 144, 117, 138), - ]), - color: const Color.fromARGB(255, 255, 191, 241), - borderRadius: BorderRadius.circular(25)), - child: const Column( - mainAxisAlignment: MainAxisAlignment.center, - children: [ - Image( + ], + ), + ), + appBar: AppBar( + iconTheme: IconThemeData(color: Colors.black), + elevation: 0, + shadowColor: Colors.black, + actions: [ + GestureDetector( + onTap: () { + Navigator.push(context, + MaterialPageRoute(builder: (context) => chatpage())); + }, + child: Image( + width: 30, image: NetworkImage( - 'https://img.icons8.com/?size=80&id=113530&format=png'), - ), - SizedBox( - height: 10, - ), - Text( - 'Computer', - style: TextStyle( - fontStyle: FontStyle.italic, - fontWeight: FontWeight.bold, - fontSize: 20), - ), - Text( - 'Science', - style: TextStyle( - fontStyle: FontStyle.italic, - fontWeight: FontWeight.bold, - fontSize: 20), - ), - ], - ), + "https://cdn-icons-png.flaticon.com/128/11865/11865326.png"))), + SizedBox( + width: 10, + ) + ], + title: Center( + child: Text( + "Boost Your Career", + style: TextStyle( + color: Colors.black, + fontWeight: FontWeight.bold, + fontSize: 22), ), - Container( - decoration: BoxDecoration( - gradient: const LinearGradient(colors: [ - Color.fromARGB(255, 244, 252, 186), - Color.fromARGB(255, 136, 140, 109), - ]), - borderRadius: BorderRadius.circular(25)), - child: const Column( - mainAxisAlignment: MainAxisAlignment.center, + ), + backgroundColor: Color.fromARGB(255, 255, 121, 0)), + body: AnimationLimiter( + child: GridView.builder( + gridDelegate: const SliverGridDelegateWithFixedCrossAxisCount( + crossAxisCount: 2, // Number of columns in the grid + crossAxisSpacing: 8.0, // Spacing between columns + mainAxisSpacing: 8.0, // Spacing between rows + ), + itemCount: 10, + itemBuilder: (context, i) { + return AnimationConfiguration.staggeredGrid( + position: i, + columnCount: 2, + duration: Duration(milliseconds: 1100), + child: ScaleAnimation( + child: FadeInAnimation( + child: FlipAnimation( + child: SlideAnimation( + child: Padding( + padding: const EdgeInsets.all(4), + child: Card( + elevation: 0, + shadowColor: Colors.orange.shade100, + color: Color.fromARGB(255, 255, 255, 255), + child: GestureDetector( + onTap: () { + Navigator.push( + context, + MaterialPageRoute( + builder: (context) => li[i].screen)); + }, + child: Container( + decoration: BoxDecoration( + border: Border.all(color: Colors.black), + color: const Color.fromARGB(255, 255, 239, 216), + borderRadius: BorderRadius.circular(16)), + child: Expanded( + child: Column( + children: [ + const SizedBox( + height: 10, + ), + SizedBox( + height: 80, + width: 100, + child: Image( + image: NetworkImage(li[i].imgPath))), + const SizedBox( + height: 15, + ), + Text( + li[i].name, + style: const TextStyle( + fontSize: 21, + fontWeight: FontWeight.bold), + ) + ], + ), + ), + ), + ), + ), + )), + )), + )); + }, + ), + ), + ); + } + + void showImagePickerOption(BuildContext context) { + showModalBottomSheet( + backgroundColor: Colors.white, + context: context, + builder: (builder) { + return Padding( + padding: const EdgeInsets.all(18), + child: SizedBox( + width: MediaQuery.of(context).size.width, + height: MediaQuery.of(context).size.height / 4.5, + child: Row( children: [ - Image( - image: NetworkImage( - 'https://img.icons8.com/?size=80&id=97384&format=png'), - ), - SizedBox( - height: 10, - ), - Text( - 'Artifical', - style: TextStyle( - fontStyle: FontStyle.italic, - fontWeight: FontWeight.bold, - fontSize: 20), - ), - Text( - 'Intelligence', - style: TextStyle( - fontStyle: FontStyle.italic, - fontWeight: FontWeight.bold, - fontSize: 20), + Expanded( + child: InkWell( + onTap: () { + _pickImageFromGallery(); + }, + child: Column( + children: [ + Icon( + Icons.image, + size: 50, + ), + Text('gallery') + ], + ), + ), ), + Expanded( + child: InkWell( + onTap: () { + _pickImageFromCamera(); + }, + child: Column( + children: [ + Icon( + Icons.camera_alt_outlined, + size: 50, + ), + Text('camera') + ], + ), + ), + ) ], ), ), - ], - ), - ), - ); + ); + }); + } + + Future _pickImageFromGallery() async { + // final storageRef =await FirebaseStorage.instance + // .ref().child('userphotos').child("postedimg1"); + // await storageRef.putFile(selectedIMage!); + // final imageUrl=await storageRef.getDownloadURL(); + + final returnImage = + await ImagePicker().pickImage(source: ImageSource.gallery); + if (returnImage == null) return; + setState(() { + selectedIMage = File(returnImage.path); + + _image = File(returnImage.path).readAsBytesSync(); + }); + } + + Future _pickImageFromCamera() async { + final returnImage = + await ImagePicker().pickImage(source: ImageSource.camera); + if (returnImage == null) return; + setState(() { + selectedIMage = File(returnImage.path); + _image = File(returnImage.path).readAsBytesSync(); + }); } } + +class Contacts { + final String imgPath; + final String name; + final Widget screen; + Contacts({required this.imgPath, required this.name, required this.screen}); +} + + + + + +// import 'dart:io'; +// import 'dart:typed_data'; +// import 'package:firebase_core/firebase_core.dart'; +// import 'package:firebase_storage/firebase_storage.dart'; +// import 'package:flutter/material.dart'; +// import 'package:image_picker/image_picker.dart'; + +// void main() async{ +// runApp(MyApp()); + +// } +// class MyApp extends StatelessWidget { +// const MyApp({super.key}); + +// @override +// Widget build(BuildContext context) { +// return MaterialApp( +// home: profile(), +// ); +// } +// } + + +// class profile extends StatefulWidget { +// const profile({super.key}); + +// @override +// State createState() => _profileState(); +// } + +// class _profileState extends State { +// Uint8List? _image; +// File? selectedIMage; +// @override +// Widget build(BuildContext context) { +// return Scaffold( appBar: AppBar(leading: IconButton(onPressed: (){ +// // Navigator.push(context, MaterialPageRoute(builder: (context)=>home())); +// },icon: Icon(Icons.arrow_back_ios_new_sharp,color: Colors.red,), +// splashColor: Colors.red,highlightColor: Colors.red[100],), +// title: Text('Profile', +// style: TextStyle(fontWeight: FontWeight.bold, +// color: Colors.red[500],fontSize: 24),), +// centerTitle: true,backgroundColor: Colors.white,elevation: 0, +// ), +// body: +// Column( +// children: [ + +// Stack(children: [ + + +// _image!=null? CircleAvatar(radius: 100 , +// backgroundImage: MemoryImage(_image!), +// ): const CircleAvatar(radius: 100, +// backgroundImage: NetworkImage('https://cdn.pixabay.com/photo/2019/08/11/18/59/icon-4399701_640.png'),), +// Positioned(bottom:0, +// left:120,child: IconButton(onPressed: (){showImagePickerOption(context);},icon: Icon(Icons.add_a_photo,size: 35,color: Colors.red,),) +// ), +// ]), +// ListTile(title: Text('My Account'), +// trailing: Icon(Icons.arrow_forward_ios_outlined,color: Colors.black,), +// leading: Icon(Icons.person,color: Colors.red,), +// ), + + + +// ListTile(title: Text('Feedback'), +// trailing: Icon(Icons.arrow_forward_ios_outlined,color: Colors.black,), +// leading: Icon(Icons.feedback_outlined,color: Colors.red,), +// ), +// ListTile(title: Text('Update'), +// trailing: Icon(Icons.arrow_forward_ios_outlined,color: Colors.black,), +// leading: Icon(Icons.update,color: Colors.red,), +// ), +// ListTile(title: Text('Logout'), +// trailing: Icon(Icons.arrow_forward_ios_outlined,color: Colors.black,), +// leading: Icon(Icons.logout_sharp,color: Colors.red,), +// ), + + +// ], +// ) +// ); +// } +// void showImagePickerOption(BuildContext context) { +// showModalBottomSheet( +// backgroundColor: Colors.white, +// context: context, builder: (builder) { +// return Padding( +// padding: const EdgeInsets.all(18), +// child: SizedBox( +// width: MediaQuery +// .of(context) +// .size +// .width, +// height: MediaQuery +// .of(context) +// .size +// .height / 4.5, +// child: Row( +// children: [Expanded( +// child: InkWell( +// onTap: () { +// _pickImageFromGallery(); +// }, +// child: Column(children: [ +// Icon(Icons.image, size: 50,), Text('gallery')],),), +// ), +// Expanded( +// child: InkWell( +// onTap: () {_pickImageFromCamera();}, +// child: Column(children: [ +// Icon(Icons.camera_alt_outlined, size: 50,), +// Text('camera') +// ],),), +// ) +// ],), + +// ), +// ); +// }); +// } + +// Future _pickImageFromGallery() async { +// // final storageRef =await FirebaseStorage.instance +// // .ref().child('userphotos').child("postedimg1"); +// // await storageRef.putFile(selectedIMage!); +// // final imageUrl=await storageRef.getDownloadURL(); + +// final returnImage = await ImagePicker().pickImage( +// source: ImageSource.gallery); +// if (returnImage == null) return; +// setState(() { +// selectedIMage = File(returnImage.path); + +// _image = File(returnImage.path).readAsBytesSync(); +// }); +// } + +// Future _pickImageFromCamera() async { +// final returnImage = await ImagePicker().pickImage( +// source: ImageSource.camera); +// if (returnImage == null) return; +// setState(() { +// selectedIMage = File(returnImage.path); +// _image = File(returnImage.path).readAsBytesSync(); +// }); +// } +// } + + + + + + + + + + + + + + + + + + + + diff --git a/lib/models/statistics.dart b/lib/models/statistics.dart deleted file mode 100644 index 81eb126..0000000 --- a/lib/models/statistics.dart +++ /dev/null @@ -1,219 +0,0 @@ - -class QuestionModel{ - final String question; - final List options; - final correctAnswerIndex; - final String Solution; - - const QuestionModel({ - required this.question, - required this.options, - required this.correctAnswerIndex, - required this.Solution, -}); -} - - -List questions = [ - QuestionModel(question: "1. What is the ratio of 3:5 in its simplest form?", - options: [ - "A) 3:5", - "B) 6:10", - "C) 1:2", - "D) 2:3", - ], - correctAnswerIndex: 2, - Solution: 'Explanation: To simplify the ratio 3:5, you can divide both terms by their greatest common factor, which is 1. So, 3:5 simplifies to 1:2.' - ), - QuestionModel(question: "2. If a recipe calls for 2 cups of flour and 3 cups of sugar, what is the ratio of flour to sugar?", - options: [ - "A) 3:2", - "B) 2:3", - "C) 5:6", - "D) 2:5", - ], - correctAnswerIndex: 1, - Solution: 'Explanation: The ratio of flour to sugar is 2:3, as per the recipe.' - ), - QuestionModel(question: "3. If 4 pencils cost 2 rupees, what is the cost of 6 pencils?", - options: [ - "A) 2 rupees", - "B) 3 rupees", - "C) 4 rupees", - "D) 5 rupees", - ], - correctAnswerIndex: 1, - Solution: 'Explanation: The cost of 1 pencil is 2/4 rupees= 0.5 rupees. So, the cost of 6 pencils is 6 * 0.5 rupees = 3 rupees.' - ), - QuestionModel(question: " If a car travels 120 miles in 2 hours, what is its speed in miles per hour (mph)?", - options: [ - "A) 60 mph", - "B) 80 mph", - "C) 120 mph", - "D) 240 mph", - ], - correctAnswerIndex: 0, - Solution: 'Explanation: Speed is calculated as distance divided by time, so 120 miles / 2 hours = 60 mph.' - ), - QuestionModel(question: "5.If the ratio of boys to girls in a class is 3:4, and there are 21 girls, how many boys are there? ", - options: [ - "A) 12", - "B) 15", - "C) 18", - "D) 24", - ], - correctAnswerIndex: 0, - Solution: 'Explanation: The ratio of boys to girls is 3:4, so for every 7 parts (3 boys + 4 girls), there are 21 girls. Thus, there are 3 boys for every 7 parts, and 3 boys for 7 parts * 3 = 21 parts, which means 3 boys.' - ), - QuestionModel(question: "6. If a map scale is 1:10,000 and the distance on the map is 5 inches, what is the actual distance on the ground?", - options: [ - "A) 50,000 inches", - "B) 500 inches", - "C) 0.5 inches", - "D) 5,000 inches", - ], - correctAnswerIndex: 0, - Solution: 'Explanation: To find the actual distance, you multiply the map distance by the scale factor, so 5 inches * 10,000 = 50,000 inches.' - ), - QuestionModel(question: "7. If 15% of a quantity is equivalent to 45, what is the total quantity?", - options: [ -"A) 300", -"B) 225", -"C) 150", -"D)75", - ], - correctAnswerIndex: 0, - Solution: 'Explanation: You can set up a proportion: (15/100) * Q = 45. Solving for Q, you get Q = 45 / (15/100) = 300.' - ), - QuestionModel(question: "8. If a recipe calls for 2 cups of sugar and you want to make half the recipe, how many cups of sugar do you need?", - options: [ -"A) 2 cups", -"B) 1 cup", -"C) 4 cups", -"D) 0.5 cups", - ], - correctAnswerIndex: 1, - Solution: 'Explanation: Half of 2 cups is 1 cup, so you need 1 cup of sugar.' - ), - QuestionModel(question: "9. If the ratio of red balls to blue balls in a bag is 5:3, and there are 24 red balls, how many blue balls are there?", - options: [ -"A) 9", -"B) 8", -"C) 3", -"d) 7", - ], - correctAnswerIndex: 1, - Solution: "Explanation: The ratio of red balls to blue balls is 5:3. If there are 24 red balls, then there are (3/5) * 24 = 14.4 blue balls, but since you can't have a fraction of a ball, there are 8 blue balls." - ), - QuestionModel(question: "10. If a recipe calls for 1 cup of flour and 2 cups of water, and you want to make the recipe with 4 cups of water, how much flour do you need? ", - options: [ -"A) 1/2 cup", -"B) 1 cup", -"C) 2 cups", -"D) 4 cups", - ], - correctAnswerIndex: 1, - Solution:"Explanation: The ratio of water to flour is 2:1. If you're using 4 cups of water, you need 4/2 = 2 cups of flour." - ), - QuestionModel(question: "11. If a car travels 240 miles in 4 hours, what is its speed in kilometers per hour (kph) if 1 mile is approximately equal to 1.60934 kilometers?", - options: [ -"A) 60 kph", -"B) 96.56 kph", -"C) 40 kph", -"D) 10 kph", - ], - correctAnswerIndex: 1, - Solution: 'Explanation: Convert the distance to kilometers: 240 miles * 1.60934 kilometers/mile = 386.12 kilometers. Then, calculate speed: 386.12 kilometers / 4 hours = 96.56 kph.' - ), - QuestionModel(question: "12. If the scale of a model train is 1:87 and the model train is 29.5 inches long, what is the length of the actual train?", - options: [ - "A) 1.5 inches", - "B) 29.5 inches", - "C) 2,561.5 inches", - "D) 255.75 inches", - ], - correctAnswerIndex: 2, - Solution: 'Explanation: Multiply the model length by the scale factor: 29.5 inches * 87 = 2,561.5 inches.' - ), - QuestionModel(question: "13. If the ratio of apples to oranges in a fruit basket is 5:3, and there are 40 apples, how many oranges are there?", - options: [ -"A) 15", -"B) 30", -"C) 20", -"D) 24", - ], - correctAnswerIndex: 2, - Solution: 'Explanation: The ratio of apples to oranges is 5:3. If there are 40 apples, then there are (3/5) * 40 = 24 oranges.' - ), - QuestionModel(question: "14. If 20% of a quantity is equivalent to 80, what is the total quantity?", - options: [ -"A) 400", -"B) 160", -"C) 200", -"D) 20", - ], - correctAnswerIndex: 0, - Solution: 'Explanation: You can set up a proportion: (20/100) * Q = 80. Solving for Q, you get Q = 80 / (20/100) = 400.' - ), - QuestionModel(question: "15. If a rectangular room is 10 feet long and 8 feet wide, what is the ratio of length to width?", - options: [ -"A) 10:8", -"B) 4:5", -"C) 5:4", -"D) 8:10", - ], - correctAnswerIndex: 1, - Solution: 'Explanation: The ratio of length to width is 10:8, which simplifies to 5:4.' - ), - QuestionModel(question: "16. If a recipe calls for 1.5 cups of sugar and you want to make the recipe with 3/4 of the sugar, how much sugar do you need?", - options: [ -"A) 1.125 cups", -"B) 1.25 cups", -"C) 1.75 cups", - "D) 0.75 cups", - ], - correctAnswerIndex: 0, - Solution: 'Explanation: Three-fourths (3/4) of 1.5 cups is (3/4) * 1.5 = 1.125 cups.' - ), - QuestionModel(question: "17. If the ratio of students to teachers in a school is 25:1 and there are 500 students, how many teachers are there?", - options: [ -"A) 10", -"B) 12", -"C) 20", -"D) 25", - ], - correctAnswerIndex: 0, - Solution: 'Explanation: The ratio of students to teachers is 25:1. If there are 500 students, then there are 500 / 25 = 20 parts. So, there are 20 teachers.' - ), - QuestionModel(question: "18. If a recipe calls for 3 tablespoons of oil and you want to make the recipe with 1/4 of the oil, how much oil do you need?", - options: [ -"A) 0.25 tablespoons", -"B) 0.75 tablespoons", -"C) 1.5 tablespoons", -"D) 3 tablespoons", - ], - correctAnswerIndex: 1, - Solution: 'Explanation: One-fourth (1/4) of 3 tablespoons is (1/4) * 3 = 0.75 tablespoons.' - ), - QuestionModel(question: "19. If a recipe calls for 2 eggs and you want to make the recipe with 1/3 of the eggs, how many eggs do you need?", - options: [ -"A) 1/2 egg", -"B) 1 egg", -"C) 2/3 egg", -"D) 3 eggs", - ], - correctAnswerIndex: 0, - Solution: 'Explanation: One-third (1/3) of 2 eggs is (1/3) * 2 = 2/3 egg, which is equivalent to 1/2 egg.' - ), - QuestionModel(question: "20. If the ratio of red balls to green balls in a bag is 4:5, and there are 36 green balls, how many red balls are there?", - options: [ -"A) 20", -"B) 18", -"C) 16", -"D) 15", - ], - correctAnswerIndex: 1, - Solution: "Explanation: The ratio of red balls to green balls is 4:5. If there are 36 green balls, then there are (4/5) * 36 = 28.8 red balls, but since you can't have a fraction of a ball, there are 18 red balls." - ), - -]; \ No newline at end of file diff --git a/lib/pages/chat_page.dart b/lib/pages/chat_page.dart index 73db33e..7b22088 100644 --- a/lib/pages/chat_page.dart +++ b/lib/pages/chat_page.dart @@ -1,4 +1,4 @@ -import 'package:Learner/consts.dart'; +import 'package:Learner/pages/consts.dart'; import 'package:chat_gpt_sdk/chat_gpt_sdk.dart'; import 'package:dash_chat_2/dash_chat_2.dart'; import 'package:flutter/material.dart'; @@ -34,18 +34,18 @@ class _chatpageState extends State { title: Text( 'Chat GPT', style: TextStyle( + color: Colors.black, fontStyle: FontStyle.italic, fontWeight: FontWeight.bold, fontSize: 23), ), centerTitle: true, - backgroundColor: Colors.black, + backgroundColor: Color.fromARGB(255, 255, 121, 0), ), body: DashChat( currentUser: _cuttentUser, typingUsers: _typingUsers, messageOptions: MessageOptions( - containerColor: Colors.black, currentUserContainerColor: const Color.fromARGB(255, 7, 7, 7), textColor: Colors.white), @@ -53,7 +53,6 @@ class _chatpageState extends State { getChatResponse(m); }, messages: _messages), - ); } diff --git a/lib/widgets/answercard.dart b/lib/widgets/answercard.dart index 86e30a3..f1f0e1e 100644 --- a/lib/widgets/answercard.dart +++ b/lib/widgets/answercard.dart @@ -35,7 +35,7 @@ class AnswerCard extends StatelessWidget { ? Colors.green : isWrongAnswer ? Colors.red - : Colors.white, + : Color.fromARGB(255, 211, 154, 154), ), ), child: Row( @@ -45,7 +45,7 @@ class AnswerCard extends StatelessWidget { question, style: const TextStyle( fontSize: 16, - color: Colors.white, + color: Color.fromARGB(255, 0, 0, 0), ), )), const SizedBox( @@ -63,10 +63,10 @@ class AnswerCard extends StatelessWidget { height: 70, padding: const EdgeInsets.all(16.0), decoration: BoxDecoration( - color: Colors.white24, + color: Color.fromARGB(255, 255, 246, 233), borderRadius: BorderRadius.circular(25), border: Border.all( - color: Colors.white, + color: Color.fromARGB(255, 211, 154, 154), ), ), child: Row( @@ -76,7 +76,7 @@ class AnswerCard extends StatelessWidget { question, style: const TextStyle( fontSize: 16, - color: Colors.white, + color: Color.fromARGB(255, 8, 8, 8), ), )), const SizedBox( diff --git a/lib/widgets/nextbutton.dart b/lib/widgets/nextbutton.dart index 60e2962..a04cd60 100644 --- a/lib/widgets/nextbutton.dart +++ b/lib/widgets/nextbutton.dart @@ -1,6 +1,6 @@ import 'package:flutter/material.dart'; - class RectunglerButton extends StatelessWidget { +class RectunglerButton extends StatelessWidget { const RectunglerButton({ super.key, required this.lable, @@ -11,19 +11,26 @@ import 'package:flutter/material.dart'; final String lable; @override Widget build(BuildContext context) { - return - TextButton( - onPressed: onPressed, - child: SizedBox( - height: 50, - width: double.infinity, - child: Card( - color: onPressed != null ? Colors.orange.shade600 : Colors.orange.shade400, - child: Center( - child: Text(lable, - style: const TextStyle(letterSpacing: 2,fontSize: 25,fontWeight: FontWeight.w400,color: Colors.black),), + return TextButton( + onPressed: onPressed, + child: SizedBox( + height: 50, + width: double.infinity, + child: Card( + color: onPressed != null + ? Color.fromARGB(255, 255, 121, 0) + : Color.fromARGB(255, 255, 121, 0), + child: Center( + child: Text( + lable, + style: const TextStyle( + letterSpacing: 2, + fontSize: 25, + fontWeight: FontWeight.w400, + color: Colors.black), ), ), - )); + ), + )); } -} \ No newline at end of file +} diff --git a/lib/widgets/widgets.dart b/lib/widgets/widgets.dart new file mode 100644 index 0000000..f23addb --- /dev/null +++ b/lib/widgets/widgets.dart @@ -0,0 +1,1639 @@ +import 'package:Learner/Screens/pickscreen.dart'; +import 'package:Learner/data/agriculturetest/agri.dart'; +import 'package:Learner/data/aiml/aimllist.dart'; +import 'package:Learner/data/aptitude/aptitudelist.dart'; +import 'package:Learner/data/civil/civillist.dart'; +import 'package:Learner/data/cse/cselist.dart'; +import 'package:Learner/data/ece/ece.dart'; +import 'package:Learner/data/electrical/electricalList.dart'; +import 'package:Learner/data/logical/logicallist.dart'; +import 'package:Learner/data/mechanical/mechanicallist.dart'; +import 'package:Learner/data/verbel/verbellist.dart'; +import 'package:Learner/studydata/aptitude/aptitudelist.dart'; +import 'package:Learner/studydata/verb/verblist.dart'; +import 'package:flutter/material.dart'; +import 'package:flutter_staggered_animations/flutter_staggered_animations.dart'; +import 'package:simple_list_tile/simple_list_tile.dart'; + +import '../studydata/Agriculture/Agriculturelist.dart'; +import '../studydata/aiml/ailist.dart'; +import '../studydata/civil/civillist.dart'; +import '../studydata/cse/cselist.dart'; +import '../studydata/ece/ecelist.dart'; +import '../studydata/electrical/electricallist.dart'; +import '../studydata/logic/logiclist.dart'; +import '../studydata/mechanical/mechanical.dart'; + +class Aptitude extends StatefulWidget { + @override + State createState() => _AptitudeState(); +} + +class _AptitudeState extends State { + List t = [ + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/2041/2041643.png', + text: 'Statistics'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/993/993872.png', + text: 'Ratio & Propotion'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/7293/7293371.png', + text: 'Logarithms'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/8675/8675429.png', + text: 'Profit & Loss'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/5405/5405969.png', + text: 'Averages'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/3742/3742713.png', + text: 'Simple Interest'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/850/850960.png', + text: 'Time & Distance'), + tiles( + imgpath: + 'https://encrypted-tbn0.gstatic.com/images?q=tbn:ANd9GcQiYePLPiFXyaR9yvNuZpwzJjGgxCMIEAL2ig&usqp=CAU', + text: 'Lcm & Hcf'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/4090/4090217.png', + text: 'Compound Interest'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/3696/3696440.png', + text: 'Number System'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/5074/5074128.png', + text: 'Problems On Ages'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/9677/9677576.png', + text: 'Mixtures And Alligations'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/726/726476.png', + text: 'Percentages'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/1006/1006555.png', + text: 'Partnership'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/9823/9823926.png', + text: 'Data Interpretation'), + tiles( + imgpath: + 'https://t3.ftcdn.net/jpg/03/84/27/68/240_F_384276829_zPFmi9iVIt5dyTBL2SuJ4gqMxZkUV9dL.jpg', + text: 'Permutations & Combinations'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/2480/2480809.png', + text: 'Probability'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/748/748622.png', + text: 'Mensuration-1'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/4229/4229093.png', + text: 'Mensuration-2'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/7339/7339321.png', + text: 'Time & Work'), + ]; + @override + Widget build(BuildContext context) { + return MaterialApp( + debugShowCheckedModeBanner: false, + home: Scaffold( + backgroundColor: Color.fromARGB(255, 255, 255, 255), + appBar: AppBar( + title: Text( + 'Aptitude', + style: TextStyle( + color: Colors.black, + fontStyle: FontStyle.italic, + fontWeight: FontWeight.bold, + fontSize: 23), + ), + centerTitle: true, + backgroundColor: Color.fromARGB(255, 255, 121, 0), + leading: GestureDetector( + onTap: () { + Navigator.pop(context); + }, + child: Icon(Icons.arrow_back_ios)), + ), + body: AnimationLimiter( + child: ListView.builder( + itemCount: t.length, + itemBuilder: (BuildContext context, i) { + return AnimationConfiguration.staggeredList( + position: i, + duration: Duration(milliseconds: 600), + child: SlideAnimation( + verticalOffset: 50, + child: FadeInAnimation( + child: Card( + elevation: 0, + color: Color.fromARGB(0, 255, 247, 247), + child: SimpleListTile( + onTap: () { + Navigator.push( + context, + MaterialPageRoute( + builder: (context) => pickscreen( + lis: apt[i].a, + std: aptitude[0].l, + ab: t[i].text, + ))); + }, + title: Text( + t[i].text, + style: TextStyle( + color: Color.fromARGB(255, 40, 39, 39), + fontWeight: FontWeight.bold, + fontSize: 20, + ), + ), + trailing: const Icon( + Icons.arrow_forward_ios, + color: Color.fromARGB(255, 227, 208, 160), + ), + leading: Column( + mainAxisAlignment: MainAxisAlignment.center, + children: [ + Image( + width: 30, + height: 30, + image: NetworkImage( + t[i].imgpath, + ), + ) + ], + ), + borderRadius: BorderRadius.circular(20), + tileColor: const Color.fromARGB(255, 242, 240, 240), + circleColor: Color.fromARGB(255, 255, 170, 96), + circleDiameter: 60, + gradient: const LinearGradient( + colors: [ + Color.fromARGB(255, 255, 220, 190), + Color.fromARGB(255, 255, 232, 212), + ], + ), + ), + )), + )); + }), + ), + ), + ); + } +} + +class tiles { + final String imgpath; + final String text; + tiles({required this.imgpath, required this.text}); +} + +class Electrical extends StatefulWidget { + const Electrical({super.key}); + + @override + State createState() => _ElectricalState(); +} + +class _ElectricalState extends State { + List t = [ + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/9054/9054104.png', + text: 'Ac & Dc circuits'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/993/993872.png', + text: 'Electrical vehicle(EV) technology'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/7293/7293371.png', + text: 'Electrical grid & Smart grid technology'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/8675/8675429.png', + text: 'Electrical insulation & dielectric materials'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/5405/5405969.png', + text: 'High voltage engineering'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/3742/3742713.png', + text: 'Lightning Protection & grounding system'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/850/850960.png', + text: 'Robotics & automation in electrical engineering'), + tiles( + imgpath: + 'https://encrypted-tbn0.gstatic.com/images?q=tbn:ANd9GcQiYePLPiFXyaR9yvNuZpwzJjGgxCMIEAL2ig&usqp=CAU', + text: 'Transformers & their application'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/4090/4090217.png', + text: 'Circuit analysis'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/3696/3696440.png', + text: 'Controlsystems'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/5074/5074128.png', + text: 'Digitalelectronics'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/9677/9677576.png', + text: 'Electricalpowergenerationanddistributionsystem'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/726/726476.png', + text: 'Electricmachines'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/1006/1006555.png', + text: 'Electromagnetic fields & waves'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/9823/9823926.png', + text: 'Microcontrollersandmicroprocessor'), + tiles( + imgpath: + 'https://t3.ftcdn.net/jpg/03/84/27/68/240_F_384276829_zPFmi9iVIt5dyTBL2SuJ4gqMxZkUV9dL.jpg', + text: 'Power distribution and transmission'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/2480/2480809.png', + text: 'Power system'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/748/748622.png', + text: 'Powerelectronics'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/4229/4229093.png', + text: 'Basics of electrical circuits'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/7339/7339321.png', + text: 'Semi conductor devices and applications'), + ]; + @override + Widget build(BuildContext context) { + return MaterialApp( + debugShowCheckedModeBanner: false, + home: Scaffold( + backgroundColor: Color.fromARGB(255, 255, 255, 255), + appBar: AppBar( + title: Text( + 'Electrical', + style: TextStyle( + color: Colors.black, + fontStyle: FontStyle.italic, + fontWeight: FontWeight.bold, + fontSize: 23), + ), + centerTitle: true, + backgroundColor: Color.fromARGB(255, 255, 121, 0), + leading: GestureDetector( + onTap: () { + Navigator.pop(context); + }, + child: Icon(Icons.arrow_back_ios)), + ), + body: AnimationLimiter( + child: ListView.builder( + itemCount: t.length, + itemBuilder: (BuildContext context, i) { + return AnimationConfiguration.staggeredList( + position: i, + duration: Duration(milliseconds: 600), + child: SlideAnimation( + verticalOffset: 50, + child: FadeInAnimation( + child: Card( + elevation: 0, + color: const Color.fromARGB(0, 0, 0, 0), + child: SimpleListTile( + onTap: () { + Navigator.push( + context, + MaterialPageRoute( + builder: (context) => pickscreen( + lis: e[i].a, + std: electric[i].l, + ab: t[i].text, + ))); + }, + title: Text( + t[i].text, + style: TextStyle( + color: Color.fromARGB(255, 40, 39, 39), + fontWeight: FontWeight.bold, + fontSize: 20, + ), + ), + trailing: const Icon( + Icons.arrow_forward_ios, + color: Color.fromARGB(255, 143, 141, 142), + ), + leading: Column( + mainAxisAlignment: MainAxisAlignment.center, + children: [ + Image( + width: 30, + height: 30, + image: NetworkImage( + t[i].imgpath, + ), + ) + ], + ), + borderRadius: BorderRadius.circular(20), + tileColor: const Color.fromARGB(255, 242, 240, 240), + circleColor: Color.fromARGB(255, 255, 170, 96), + circleDiameter: 60, + gradient: const LinearGradient( + colors: [ + Color.fromARGB(255, 255, 220, 190), + Color.fromARGB(255, 255, 232, 212), + ], + ), + ), + )))); + }), + ), + ), + ); + } +} + +class Logical extends StatefulWidget { + const Logical({super.key}); + + @override + State createState() => _LogicalState(); +} + +class _LogicalState extends State { + List t = [ + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/2622/2622118.png', + text: 'Blood Relation'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/833/833593.png', + text: 'Calendar'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/2784/2784459.png', + text: 'Clocks'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/6802/6802347.png', + text: 'Coded Inequalities'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/3262/3262419.png', + text: 'Coding & Decoding'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/9677/9677576.png', + text: 'Cubes & Dice'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/7527/7527186.png', + text: 'Input and Output'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/43/43585.png', + text: 'Letter and Number Analogy'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/164/164691.png', + text: 'Letter series'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/2570/2570371.png', + text: 'Non-Verbal'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/11517/11517103.png', + text: 'Number series'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/2282/2282594.png', + text: 'Orderind & Ranking'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/993/993686.png', + text: 'Puzzle'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/4805/4805775.png', + text: 'Sequence & Alphabet'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/3270/3270865.png', + text: 'data sufficient'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/9926/9926931.png', + text: 'odd man out'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/919/919521.png', + text: 'seating arrangement'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/1875/1875525.png', + text: 'statement and assumption'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/9196/9196093.png', + text: 'statements course of action'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/1408/1408005.png', + text: 'syllogisms'), + ]; + @override + Widget build(BuildContext context) { + return MaterialApp( + debugShowCheckedModeBanner: false, + home: Scaffold( + backgroundColor: Color.fromARGB(255, 255, 255, 255), + appBar: AppBar( + title: Text( + 'Logical', + style: TextStyle( + color: Colors.black, + fontStyle: FontStyle.italic, + fontWeight: FontWeight.bold, + fontSize: 23), + ), + centerTitle: true, + backgroundColor: Color.fromARGB(255, 255, 121, 0), + leading: GestureDetector( + onTap: () { + Navigator.pop(context); + }, + child: Icon(Icons.arrow_back_ios)), + ), + body: AnimationLimiter( + child: ListView.builder( + itemCount: t.length, + itemBuilder: (BuildContext context, i) { + return AnimationConfiguration.staggeredList( + position: i, + duration: Duration(milliseconds: 600), + child: SlideAnimation( + verticalOffset: 50, + child: FadeInAnimation( + child: Card( + elevation: 0, + color: const Color.fromARGB(0, 0, 0, 0), + child: SimpleListTile( + onTap: () { + Navigator.push( + context, + MaterialPageRoute( + builder: (context) => pickscreen( + lis: logic[i].a, + std: logical[i].l, + ab: t[i].text, + ))); + }, + title: Text( + t[i].text, + style: TextStyle( + color: Color.fromARGB(255, 40, 39, 39), + fontWeight: FontWeight.bold, + fontSize: 20, + ), + ), + trailing: const Icon( + Icons.arrow_forward_ios, + color: Color.fromARGB(255, 143, 141, 142), + ), + leading: Column( + mainAxisAlignment: MainAxisAlignment.center, + children: [ + Image( + width: 30, + height: 30, + image: NetworkImage( + t[i].imgpath, + ), + ) + ], + ), + borderRadius: BorderRadius.circular(20), + tileColor: const Color.fromARGB(255, 242, 240, 240), + circleColor: Color.fromARGB(255, 255, 170, 96), + circleDiameter: 60, + gradient: const LinearGradient( + colors: [ + Color.fromARGB(255, 255, 220, 190), + Color.fromARGB(255, 255, 232, 212), + ], + ), + ), + )))); + }), + ), + ), + ); + } +} + +class Verbal extends StatefulWidget { + const Verbal({super.key}); + @override + State createState() => _VerbalState(); +} + +class _VerbalState extends State { + List t = [ + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/1464/1464749.png', + text: 'active and passive voice'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/10828/10828783.png', + text: 'adjectives'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/10828/10828783.png', + text: 'antonyms'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/11693/11693377.png', + text: 'articals'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/4158/4158665.png', + text: 'auxiliary verbs'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/4158/4158665.png', + text: 'direct and indirect speech'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/4000/4000496.png', + text: 'fill in the blanks'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/9592/9592722.png', + text: 'homophones'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/5687/5687792.png', + text: 'idiomatic expression'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/2620/2620540.png', + text: 'joining sentence'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/309/309336.png', + text: 'one word substitutes'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/1935/1935717.png', + text: 'prepositions'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/726/726476.png', + text: 'selection of words'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/10074/10074047.png', + text: 'sentence correction'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/2600/2600327.png', + text: 'spelling error'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/3539/3539611.png', + text: 'spotting error'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/2672/2672267.png', + text: 'subject verb agreement'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/10371/10371226.png', + text: 'synonyms'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/6749/6749514.png', + text: 'tenses'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/7440/7440452.png', + text: 'transformation of sentences'), + ]; + + @override + Widget build(BuildContext context) { + return MaterialApp( + debugShowCheckedModeBanner: false, + home: Scaffold( + backgroundColor: Color.fromARGB(255, 255, 255, 255), + appBar: AppBar( + title: Text( + 'Verbal', + style: TextStyle( + color: Colors.black, + fontStyle: FontStyle.italic, + fontWeight: FontWeight.bold, + fontSize: 23), + ), + centerTitle: true, + backgroundColor: Color.fromARGB(255, 255, 121, 0), + leading: GestureDetector( + onTap: () { + Navigator.pop(context); + }, + child: Icon(Icons.arrow_back_ios)), + ), + body: AnimationLimiter( + child: ListView.builder( + itemCount: t.length, + itemBuilder: (BuildContext context, i) { + return AnimationConfiguration.staggeredList( + position: i, + duration: Duration(milliseconds: 600), + child: SlideAnimation( + verticalOffset: 50, + child: FadeInAnimation( + child: Card( + elevation: 0, + color: const Color.fromARGB(0, 0, 0, 0), + child: SimpleListTile( + onTap: () { + Navigator.push( + context, + MaterialPageRoute( + builder: (context) => pickscreen( + lis: verbel[i].a, + std: verb[i].l, + ab: t[i].text, + ))); + }, + title: Text( + t[i].text, + style: TextStyle( + color: Color.fromARGB(255, 40, 39, 39), + fontWeight: FontWeight.bold, + fontSize: 20, + ), + ), + trailing: const Icon( + Icons.arrow_forward_ios, + color: Color.fromARGB(255, 143, 141, 142), + ), + leading: Column( + mainAxisAlignment: MainAxisAlignment.center, + children: [ + Image( + width: 30, + height: 30, + image: NetworkImage( + t[i].imgpath, + ), + ) + ], + ), + borderRadius: BorderRadius.circular(20), + tileColor: const Color.fromARGB(255, 242, 240, 240), + circleColor: Color.fromARGB(255, 255, 170, 96), + circleDiameter: 60, + gradient: const LinearGradient( + colors: [ + Color.fromARGB(255, 255, 220, 190), + Color.fromARGB(255, 255, 232, 212), + ], + ), + ), + )))); + }), + ), + ), + ); + } +} + +class Electronics extends StatefulWidget { + const Electronics({super.key}); + + @override + State createState() => _ElectronicsState(); +} + +class _ElectronicsState extends State { + List t = [ + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/8295/8295305.png', + text: 'Antenna Design'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/2775/2775473.png', + text: 'Biomedical Signal Processing'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/8915/8915905.png', + text: 'Cognitive Radio Networks'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/1688/1688404.png', + text: 'Digital Communication Systems'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/1688/1688404.png', + text: 'Digital Image Processing'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/10620/10620954.png', + text: 'Digital Signal Processing'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/2735/2735969.png', + text: 'Embedded Systems'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/11498/11498945.png', + text: 'Fiber-Optic Communication'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/6080/6080697.png', + text: 'Internet of Things'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/1547/1547889.png', + text: 'Microwave Engineering'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/2092/2092757.png', + text: 'Network Security'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/11256/11256300.png', + text: 'Neuromorphic Engineering'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/901/901163.png', + text: 'Optical Communication Systems'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/3436/3436188.png', + text: 'Power Electronics'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/2480/2480809.png', + text: 'Renewable Energy Systems'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/6667/6667604.png', + text: 'Robotics in Communication'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/1042/1042820.png', + text: 'Satellite Communication'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/11780/11780642.png', + text: 'VLSI Design'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/2857/2857433.png', + text: 'Permutations & Combinations'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/4105/4105220.png', + text: 'Wireless Communication'), + ]; + @override + Widget build(BuildContext context) { + return MaterialApp( + debugShowCheckedModeBanner: false, + home: Scaffold( + backgroundColor: Color.fromARGB(255, 255, 255, 255), + appBar: AppBar( + title: Text( + 'Electronics Engineering', + style: TextStyle( + color: Colors.black, + fontStyle: FontStyle.italic, + fontWeight: FontWeight.bold, + fontSize: 23), + ), + centerTitle: true, + backgroundColor: Color.fromARGB(255, 255, 121, 0), + leading: GestureDetector( + onTap: () { + Navigator.pop(context); + }, + child: Icon(Icons.arrow_back_ios)), + ), + body: AnimationLimiter( + child: ListView.builder( + itemCount: t.length, + itemBuilder: (BuildContext context, i) { + return AnimationConfiguration.staggeredList( + position: i, + duration: Duration(milliseconds: 600), + child: SlideAnimation( + verticalOffset: 50, + child: FadeInAnimation( + child: Card( + elevation: 0, + color: const Color.fromARGB(0, 0, 0, 0), + child: SimpleListTile( + onTap: () { + Navigator.push( + context, + MaterialPageRoute( + builder: (context) => pickscreen( + lis: ece[i].a, + std: ECE[i].l, + ab: t[i].text, + ))); + }, + title: Text( + t[i].text, + style: TextStyle( + color: Color.fromARGB(255, 40, 39, 39), + fontWeight: FontWeight.bold, + fontSize: 20, + ), + ), + trailing: const Icon( + Icons.arrow_forward_ios, + color: Color.fromARGB(255, 143, 141, 142), + ), + leading: Column( + mainAxisAlignment: MainAxisAlignment.center, + children: [ + Image( + width: 30, + height: 30, + image: NetworkImage( + t[i].imgpath, + ), + ) + ], + ), + borderRadius: BorderRadius.circular(20), + tileColor: const Color.fromARGB(255, 242, 240, 240), + circleColor: Color.fromARGB(255, 255, 170, 96), + circleDiameter: 60, + gradient: const LinearGradient( + colors: [ + Color.fromARGB(255, 255, 220, 190), + Color.fromARGB(255, 255, 232, 212), + ], + ), + ), + )))); + }), + ), + ), + ); + } +} + +class Civil extends StatefulWidget { + const Civil({super.key}); + + @override + State createState() => _CivilState(); +} + +class _CivilState extends State { + List t = [ + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/6968/6968867.png', + text: 'Building Information Modeling'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/9257/9257340.png', + text: 'Coastal Engineering'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/3002/3002238.png', + text: 'Construction Management'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/12029/12029512.png', + text: 'Construction Materials Engineering'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/12471/12471881.png', + text: 'Earth System Engineering'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/3380/3380941.png', + text: 'Earth quake Engineering'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/11498/11498206.png', + text: 'Environmental Engineering'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/11098/11098518.png', + text: 'Hydraulics And Water Resources'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/8838/8838206.png', + text: 'Material Science and Engineering'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/4434/4434108.png', + text: 'Remote Sensing and GIS'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/7486/7486487.png', + text: 'Renewable Energy and Sustainable Design'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/1991/1991471.png', + text: 'Risk and Reliability Engineering'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/781/781412.png', + text: 'Soil Mechanics'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/4270/4270905.png', + text: 'Structural Dynamics'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/3593/3593636.png', + text: 'surveying'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/887/887182.png', + text: 'Transportation Engineering'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/12476/12476484.png', + text: 'Tunnel Engineering'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/8914/8914137.png', + text: 'Urban Engineering'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/11823/11823551.png', + text: 'Water and Wastewater Treatment'), + tiles( + imgpath: "https://cdn-icons-png.flaticon.com/128/1958/1958738.png", + text: 'Structur Alanalysis'), + ]; + @override + Widget build(BuildContext context) { + return MaterialApp( + debugShowCheckedModeBanner: false, + home: Scaffold( + backgroundColor: Color.fromARGB(255, 255, 255, 255), + appBar: AppBar( + title: Text( + 'Civil', + style: TextStyle( + color: Colors.black, + fontStyle: FontStyle.italic, + fontWeight: FontWeight.bold, + fontSize: 23), + ), + centerTitle: true, + backgroundColor: Color.fromARGB(255, 255, 121, 0), + leading: GestureDetector( + onTap: () { + Navigator.pop(context); + }, + child: Icon(Icons.arrow_back_ios)), + ), + body: AnimationLimiter( + child: ListView.builder( + itemCount: t.length, + itemBuilder: (BuildContext context, i) { + return AnimationConfiguration.staggeredList( + position: i, + duration: Duration(milliseconds: 600), + child: SlideAnimation( + verticalOffset: 50, + child: FadeInAnimation( + child: Card( + elevation: 0, + color: const Color.fromARGB(0, 0, 0, 0), + child: SimpleListTile( + onTap: () { + Navigator.push( + context, + MaterialPageRoute( + builder: (context) => pickscreen( + lis: civil[i].a, + std: civ[i].l, + ab: t[i].text, + ))); + }, + title: Text( + t[i].text, + style: TextStyle( + color: Color.fromARGB(255, 40, 39, 39), + fontWeight: FontWeight.bold, + fontSize: 20, + ), + ), + trailing: const Icon( + Icons.arrow_forward_ios, + color: Color.fromARGB(255, 143, 141, 142), + ), + leading: Column( + mainAxisAlignment: MainAxisAlignment.center, + children: [ + Image( + width: 30, + height: 30, + image: NetworkImage( + t[i].imgpath, + ), + ) + ], + ), + borderRadius: BorderRadius.circular(20), + tileColor: const Color.fromARGB(255, 242, 240, 240), + circleColor: Color.fromARGB(255, 255, 170, 96), + circleDiameter: 60, + gradient: const LinearGradient( + colors: [ + Color.fromARGB(255, 255, 220, 190), + Color.fromARGB(255, 255, 232, 212), + ], + ), + ), + )))); + }), + ), + ), + ); + } +} + +class Mechanical extends StatefulWidget { + const Mechanical({super.key}); + + @override + State createState() => _MechanicalState(); +} + +class _MechanicalState extends State { + List t = [ + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/2290/2290668.png', + text: 'Aerospace engineering'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/3577/3577867.png', + text: 'Automotive Engineering'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/2724/2724410.png', + text: 'Bearings and Lubrication'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/11071/11071608.png', + text: 'Biomechanics'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/3358/3358837.png', + text: 'computer-aided design'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/2824/2824941.png', + text: 'Computational Mechanics'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/3715/3715180.png', + text: 'Control Systems'), + tiles( + imgpath: + 'https://t4.ftcdn.net/jpg/01/02/13/51/240_F_102135102_SLiVBidL1EnP7YEJXW5rTeyZeoyOhSez.jpg', + text: 'Fluid Flow Analysis'), + tiles( + imgpath: + 'https://t3.ftcdn.net/jpg/03/29/73/40/240_F_329734072_MTgY7F7FLYSzogNqw1EhY7BaEV8HnQFz.jpg', + text: 'Fluid mechaniccs'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/10593/10593577.png', + text: 'Fluid power systems'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/3651/3651057.png', + text: 'Heat transfer'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/8384/8384982.png', + text: 'Kinematics and Dynamics'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/12747/12747271.png', + text: 'Machine Elements'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/2162/2162415.png', + text: 'Machine design'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/9708/9708956.png', + text: 'Manufacturing Processes'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/4149/4149479.png', + text: 'Material science'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/11498/11498968.png', + text: 'Mechanics'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/1693/1693746.png', + text: 'Mechatronics'), + tiles( + imgpath: + 'https://t3.ftcdn.net/jpg/06/13/09/64/240_F_613096484_m7VI4Rp6adCRnSLJxvYVxRgbJM8lr60a.jpg', + text: 'Solid Mechanics'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/9089/9089002.png', + text: 'thermodaynamics'), + ]; + @override + Widget build(BuildContext context) { + return MaterialApp( + debugShowCheckedModeBanner: false, + home: Scaffold( + backgroundColor: Color.fromARGB(255, 255, 255, 255), + appBar: AppBar( + title: Text( + 'Mechanical', + style: TextStyle( + color: Colors.black, + fontStyle: FontStyle.italic, + fontWeight: FontWeight.bold, + fontSize: 23), + ), + centerTitle: true, + backgroundColor: Color.fromARGB(255, 255, 121, 0), + leading: GestureDetector( + onTap: () { + Navigator.pop(context); + }, + child: Icon(Icons.arrow_back_ios)), + ), + body: AnimationLimiter( + child: ListView.builder( + itemCount: t.length, + itemBuilder: (BuildContext context, i) { + return AnimationConfiguration.staggeredList( + position: i, + duration: Duration(milliseconds: 600), + child: SlideAnimation( + verticalOffset: 50, + child: FadeInAnimation( + child: Card( + elevation: 0, + color: const Color.fromARGB(0, 0, 0, 0), + child: SimpleListTile( + onTap: () { + Navigator.push( + context, + MaterialPageRoute( + builder: (context) => pickscreen( + lis: mec[i].a, + std: MEC[i].l, + ab: t[i].text, + ))); + }, + title: Text( + t[i].text, + style: TextStyle( + color: Color.fromARGB(255, 40, 39, 39), + fontWeight: FontWeight.bold, + fontSize: 20, + ), + ), + trailing: const Icon( + Icons.arrow_forward_ios, + color: Color.fromARGB(255, 143, 141, 142), + ), + leading: Column( + mainAxisAlignment: MainAxisAlignment.center, + children: [ + Image( + width: 30, + height: 30, + image: NetworkImage( + t[i].imgpath, + ), + ) + ], + ), + borderRadius: BorderRadius.circular(20), + tileColor: const Color.fromARGB(255, 242, 240, 240), + circleColor: Color.fromARGB(255, 255, 170, 96), + circleDiameter: 60, + gradient: const LinearGradient( + colors: [ + Color.fromARGB(255, 255, 220, 190), + Color.fromARGB(255, 255, 232, 212), + ], + ), + ), + )))); + }), + ), + ), + ); + } +} + +class Agriculture extends StatefulWidget { + const Agriculture({super.key}); + + @override + State createState() => _AgricultureState(); +} + +class _AgricultureState extends State { + List t = [ + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/5341/5341375.png', + text: 'Agricultural Information Systems'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/6037/6037751.png', + text: 'Aquacultural Engineering'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/2286/2286227.png', + text: 'Bioenergy and Biofuels'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/5784/5784258.png', + text: 'Biotechnology in Agriculture'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/4496/4496256.png', + text: 'Crop Modeling and Simulation'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/4729/4729482.png', + text: 'Environmental Impact Assessment in Agriculture'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/11279/11279611.png', + text: 'Farm Automation and Robotics'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/5863/5863745.png', + text: 'Farm Machinery and Equipmen'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/4490/4490955.png', + text: 'Farm Structures and Buildings'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/11504/11504620.png', + text: 'Farm Water Management'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/4258/4258648.png', + text: 'Food Engineering'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/4212/4212747.png', + text: 'Greenhouse Technology'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/5313/5313695.png', + text: 'Irrigation Systems'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/5313/5313695.png', + text: 'Mechatronics in Agriculture'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/6291/6291325.png', + text: 'Post-Harvest Technology'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/4266/4266204.png', + text: 'Precision Agriculture'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/1072/1072372.png', + text: 'Remote Sensing in Agriculture'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/2591/2591974.png', + text: 'Soil and Water Conservation'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/10972/10972574.png', + text: 'Sustainable Agriculture'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/10972/10972574.png', + text: 'Waste Management in Agriculture'), + ]; + @override + Widget build(BuildContext context) { + return MaterialApp( + debugShowCheckedModeBanner: false, + home: Scaffold( + backgroundColor: Color.fromARGB(255, 255, 255, 255), + appBar: AppBar( + title: Text( + 'Agriculture', + style: TextStyle( + color: Colors.black, + fontStyle: FontStyle.italic, + fontWeight: FontWeight.bold, + fontSize: 23), + ), + centerTitle: true, + backgroundColor: Color.fromARGB(255, 255, 121, 0), + leading: GestureDetector( + onTap: () { + Navigator.pop(context); + }, + child: Icon(Icons.arrow_back_ios)), + ), + body: AnimationLimiter( + child: ListView.builder( + itemCount: t.length, + itemBuilder: (BuildContext context, i) { + return AnimationConfiguration.staggeredList( + position: i, + duration: Duration(milliseconds: 600), + child: SlideAnimation( + verticalOffset: 50, + child: FadeInAnimation( + child: Card( + elevation: 0, + color: const Color.fromARGB(0, 0, 0, 0), + child: SimpleListTile( + onTap: () { + Navigator.push( + context, + MaterialPageRoute( + builder: (context) => pickscreen( + lis: arig[i].a, + std: agri[i].l, + ab: t[i].text, + ))); + }, + title: Text( + t[i].text, + style: TextStyle( + color: Color.fromARGB(255, 40, 39, 39), + fontWeight: FontWeight.bold, + fontSize: 20, + ), + ), + trailing: const Icon( + Icons.arrow_forward_ios, + color: Color.fromARGB(255, 143, 141, 142), + ), + leading: Column( + mainAxisAlignment: MainAxisAlignment.center, + children: [ + Image( + width: 30, + height: 30, + image: NetworkImage( + t[i].imgpath, + ), + ) + ], + ), + borderRadius: BorderRadius.circular(20), + tileColor: const Color.fromARGB(255, 242, 240, 240), + circleColor: Color.fromARGB(255, 255, 170, 96), + circleDiameter: 60, + gradient: const LinearGradient( + colors: [ + Color.fromARGB(255, 255, 220, 190), + Color.fromARGB(255, 255, 232, 212), + ], + ), + ), + )))); + }), + ), + ), + ); + } +} + +class Computer extends StatefulWidget { + const Computer({super.key}); + + @override + State createState() => _ComputerState(); +} + +class _ComputerState extends State { + List t = [ + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/887/887739.png', + text: 'Blockchain'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/3665/3665923.png', + text: 'C Language'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/2316/2316109.png', + text: 'Cloud Computing'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/2821/2821720.png', + text: 'Computer Architecture'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/12563/12563706.png', + text: 'Computer Ethics'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/3940/3940056.png', + text: 'Computer Graphics'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/3044/3044120.png', + text: 'Computer Science'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/3219/3219830.png', + text: 'Compurter Vision'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/1163/1163468.png', + text: 'Cryptography'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/4744/4744315.png', + text: 'Cyber Security'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/5865/5865919.png', + text: 'Data Science'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/294/294968.png', + text: 'Data Analytics'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/5687/5687273.png', + text: 'Devops'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/10961/10961349.png', + text: 'Ethical Hacking'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/11296/11296650.png', + text: 'Human Computer Interaction'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/6080/6080697.png', + text: 'Internet Of Things'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/5608/5608615.png', + text: 'Mobile App Development'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/9423/9423141.png', + text: 'Quantum Computing'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/2103/2103665.png', + text: 'R-Programming'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/8304/8304443.png', + text: 'C++'), + ]; + @override + Widget build(BuildContext context) { + return MaterialApp( + debugShowCheckedModeBanner: false, + home: Scaffold( + backgroundColor: Color.fromARGB(255, 255, 255, 255), + appBar: AppBar( + title: Text( + 'Computer Science', + style: TextStyle( + color: Colors.black, + fontStyle: FontStyle.italic, + fontWeight: FontWeight.bold, + fontSize: 23), + ), + centerTitle: true, + backgroundColor: Color.fromARGB(255, 255, 121, 0), + leading: GestureDetector( + onTap: () { + Navigator.pop(context); + }, + child: Icon(Icons.arrow_back_ios)), + ), + body: AnimationLimiter( + child: ListView.builder( + itemCount: t.length, + itemBuilder: (BuildContext context, i) { + return AnimationConfiguration.staggeredList( + position: i, + duration: Duration(milliseconds: 600), + child: SlideAnimation( + verticalOffset: 50, + child: FadeInAnimation( + child: Card( + elevation: 0, + color: const Color.fromARGB(0, 0, 0, 0), + child: SimpleListTile( + onTap: () { + Navigator.push( + context, + MaterialPageRoute( + builder: (context) => pickscreen( + lis: cse[i].a, + std: CSE[i].l, + ab: t[i].text, + ))); + }, + title: Text( + t[i].text, + style: TextStyle( + color: Color.fromARGB(255, 40, 39, 39), + fontWeight: FontWeight.bold, + fontSize: 20, + ), + ), + trailing: const Icon( + Icons.arrow_forward_ios, + color: Color.fromARGB(255, 143, 141, 142), + ), + leading: Column( + mainAxisAlignment: MainAxisAlignment.center, + children: [ + Image( + width: 30, + height: 30, + image: NetworkImage( + t[i].imgpath, + ), + ) + ], + ), + borderRadius: BorderRadius.circular(20), + tileColor: const Color.fromARGB(255, 242, 240, 240), + circleColor: + const Color.fromARGB(255, 255, 170, 96), + circleDiameter: 60, + gradient: const LinearGradient( + colors: [ + Color.fromARGB(255, 255, 220, 190), + Color.fromARGB(255, 255, 232, 212), + ], + ), + ), + )))); + }), + ), + ), + ); + } +} + +class Artifical extends StatefulWidget { + const Artifical({super.key}); + + @override + State createState() => _ArtificalState(); +} + +class _ArtificalState extends State { + List t = [ + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/1693/1693746.png', + text: 'AI Ethics and Fairness'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/11188/11188796.png', + text: 'AI in Robotics and Automation'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/4616/4616734.png', + text: 'AutoML'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/1239/1239719.png', + text: 'Bayesian Networks'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/2103/2103633.png', + text: 'Clustering Algorithms'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/2103/2103633.png', + text: 'Cognitive Computing'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/1042/1042009.png', + text: 'Decision Trees'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/8637/8637101.png', + text: 'Deep Learning'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/4349/4349297.png', + text: 'Genetic Algorithms'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/9423/9423110.png', + text: 'Image processing'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/9831/9831326.png', + text: 'Natural Language Processing'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/724/724979.png', + text: 'Random Forests'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/8301/8301247.png', + text: 'Recommender Systems'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/9304/9304481.png', + text: 'Reinforcement Learning'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/2604/2604418.png', + text: 'Speech Recognition'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/9193/9193083.png', + text: 'Supervised Learning'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/9240/9240330.png', + text: 'Support Vector Machines'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/2574/2574564.png', + text: 'Time Series Analysis'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/5712/5712448.png', + text: 'Transfer Learning'), + tiles( + imgpath: 'https://cdn-icons-png.flaticon.com/128/11751/11751735.png', + text: 'Unsupervised Learning'), + ]; + @override + Widget build(BuildContext context) { + return MaterialApp( + debugShowCheckedModeBanner: false, + home: Scaffold( + backgroundColor: Color.fromARGB(255, 255, 255, 255), + appBar: AppBar( + title: Text( + 'Artifical Intilligence', + style: TextStyle( + fontStyle: FontStyle.italic, + fontWeight: FontWeight.bold, + fontSize: 23, + color: Colors.black), + ), + centerTitle: true, + backgroundColor: Color.fromARGB(255, 255, 121, 0), + leading: GestureDetector( + onTap: () { + Navigator.pop(context); + }, + child: Icon(Icons.arrow_back_ios)), + ), + body: AnimationLimiter( + child: ListView.builder( + itemCount: t.length, + itemBuilder: (BuildContext context, i) { + return AnimationConfiguration.staggeredList( + position: i, + duration: Duration(milliseconds: 600), + child: SlideAnimation( + verticalOffset: 50, + child: FadeInAnimation( + child: Card( + elevation: 0, + color: const Color.fromARGB(0, 0, 0, 0), + child: SimpleListTile( + onTap: () { + Navigator.push( + context, + MaterialPageRoute( + builder: (context) => pickscreen( + lis: aiml[i].a, + std: AIML[i].l, + ab: t[i].text, + ))); + }, + title: Text( + t[i].text, + style: TextStyle( + color: Color.fromARGB(255, 40, 39, 39), + fontWeight: FontWeight.bold, + fontSize: 20, + ), + ), + trailing: const Icon( + Icons.arrow_forward_ios, + color: Color.fromARGB(255, 143, 141, 142), + ), + leading: Column( + mainAxisAlignment: MainAxisAlignment.center, + children: [ + Image( + width: 30, + height: 30, + image: NetworkImage( + t[i].imgpath, + ), + ) + ], + ), + borderRadius: BorderRadius.circular(20), + tileColor: const Color.fromARGB(255, 242, 240, 240), + circleColor: + const Color.fromARGB(255, 255, 170, 96), + circleDiameter: 60, + gradient: const LinearGradient( + colors: [ + Color.fromARGB(255, 255, 220, 190), + Color.fromARGB(255, 255, 232, 212), + ], + ), + ), + )))); + }), + ), + ), + ); + } +} diff --git a/linux/flutter/generated_plugin_registrant.cc b/linux/flutter/generated_plugin_registrant.cc index f6f23bf..7299b5c 100644 --- a/linux/flutter/generated_plugin_registrant.cc +++ b/linux/flutter/generated_plugin_registrant.cc @@ -6,9 +6,13 @@ #include "generated_plugin_registrant.h" +#include #include void fl_register_plugins(FlPluginRegistry* registry) { + g_autoptr(FlPluginRegistrar) file_selector_linux_registrar = + fl_plugin_registry_get_registrar_for_plugin(registry, "FileSelectorPlugin"); + file_selector_plugin_register_with_registrar(file_selector_linux_registrar); g_autoptr(FlPluginRegistrar) url_launcher_linux_registrar = fl_plugin_registry_get_registrar_for_plugin(registry, "UrlLauncherPlugin"); url_launcher_plugin_register_with_registrar(url_launcher_linux_registrar); diff --git a/linux/flutter/generated_plugins.cmake b/linux/flutter/generated_plugins.cmake index f16b4c3..786ff5c 100644 --- a/linux/flutter/generated_plugins.cmake +++ b/linux/flutter/generated_plugins.cmake @@ -3,6 +3,7 @@ # list(APPEND FLUTTER_PLUGIN_LIST + file_selector_linux url_launcher_linux ) diff --git a/macos/Flutter/GeneratedPluginRegistrant.swift b/macos/Flutter/GeneratedPluginRegistrant.swift index d24127f..145d8ae 100644 --- a/macos/Flutter/GeneratedPluginRegistrant.swift +++ b/macos/Flutter/GeneratedPluginRegistrant.swift @@ -5,11 +5,17 @@ import FlutterMacOS import Foundation +import file_selector_macos +import firebase_auth +import firebase_core import path_provider_foundation import sqflite import url_launcher_macos func RegisterGeneratedPlugins(registry: FlutterPluginRegistry) { + FileSelectorPlugin.register(with: registry.registrar(forPlugin: "FileSelectorPlugin")) + FLTFirebaseAuthPlugin.register(with: registry.registrar(forPlugin: "FLTFirebaseAuthPlugin")) + FLTFirebaseCorePlugin.register(with: registry.registrar(forPlugin: "FLTFirebaseCorePlugin")) PathProviderPlugin.register(with: registry.registrar(forPlugin: "PathProviderPlugin")) SqflitePlugin.register(with: registry.registrar(forPlugin: "SqflitePlugin")) UrlLauncherPlugin.register(with: registry.registrar(forPlugin: "UrlLauncherPlugin")) diff --git a/pubspec.lock b/pubspec.lock index 0fd9a54..e9a3a75 100644 --- a/pubspec.lock +++ b/pubspec.lock @@ -1,6 +1,14 @@ # Generated by pub # See https://dart.dev/tools/pub/glossary#lockfile packages: + _flutterfire_internals: + dependency: transitive + description: + name: _flutterfire_internals + sha256: "8942974ee5dc932427704ede5e0db8b5f2b8f22172964544b56e6bd37f6c3634" + url: "https://pub.dev" + source: hosted + version: "1.3.12" animated_text_kit: dependency: "direct main" description: @@ -129,6 +137,14 @@ packages: url: "https://pub.dev" source: hosted version: "3.1.1" + cross_file: + dependency: transitive + description: + name: cross_file + sha256: "445db18de832dba8d851e287aff8ccf169bed30d2e94243cb54c7d2f1ed2142c" + url: "https://pub.dev" + source: hosted + version: "0.3.3+6" crypto: dependency: transitive description: @@ -201,6 +217,94 @@ packages: url: "https://pub.dev" source: hosted version: "7.0.0" + file_selector_linux: + dependency: transitive + description: + name: file_selector_linux + sha256: "045d372bf19b02aeb69cacf8b4009555fb5f6f0b7ad8016e5f46dd1387ddd492" + url: "https://pub.dev" + source: hosted + version: "0.9.2+1" + file_selector_macos: + dependency: transitive + description: + name: file_selector_macos + sha256: b15c3da8bd4908b9918111fa486903f5808e388b8d1c559949f584725a6594d6 + url: "https://pub.dev" + source: hosted + version: "0.9.3+3" + file_selector_platform_interface: + dependency: transitive + description: + name: file_selector_platform_interface + sha256: "0aa47a725c346825a2bd396343ce63ac00bda6eff2fbc43eabe99737dede8262" + url: "https://pub.dev" + source: hosted + version: "2.6.1" + file_selector_windows: + dependency: transitive + description: + name: file_selector_windows + sha256: d3547240c20cabf205c7c7f01a50ecdbc413755814d6677f3cb366f04abcead0 + url: "https://pub.dev" + source: hosted + version: "0.9.3+1" + firebase_auth: + dependency: "direct main" + description: + name: firebase_auth + sha256: af5a03a0c377af9218c9aa3c6a9ef5207d9621f0f6cd3b5099a5f570e1a03206 + url: "https://pub.dev" + source: hosted + version: "4.13.0" + firebase_auth_platform_interface: + dependency: transitive + description: + name: firebase_auth_platform_interface + sha256: def138b34bb97310ff748d1864f3ccd5b49d7424f35825f0df5455f16218ba99 + url: "https://pub.dev" + source: hosted + version: "7.0.4" + firebase_auth_web: + dependency: transitive + description: + name: firebase_auth_web + sha256: e5fbb3453fbfff0dd8dfed5e3560248391f76a4c59ae9b331704e3443cffde77 + url: "https://pub.dev" + source: hosted + version: "5.8.7" + firebase_core: + dependency: "direct main" + description: + name: firebase_core + sha256: "45f3f9babfc6f56fb94c3cd11584cf3c9672868228373b699b94427010e01dc3" + url: "https://pub.dev" + source: hosted + version: "2.22.0" + firebase_core_platform_interface: + dependency: transitive + description: + name: firebase_core_platform_interface + sha256: c437ae5d17e6b5cc7981cf6fd458a5db4d12979905f9aafd1fea930428a9fe63 + url: "https://pub.dev" + source: hosted + version: "5.0.0" + firebase_core_web: + dependency: transitive + description: + name: firebase_core_web + sha256: "0631a2ec971dbc540275e2fa00c3a8a2676f0a7adbc3c197d6fba569db689d97" + url: "https://pub.dev" + source: hosted + version: "2.8.1" + floating_snackbar: + dependency: "direct main" + description: + name: floating_snackbar + sha256: d3e860f21d6e77e4c2427e62226124957abff7ea4cbccd08f61343c9931342da + url: "https://pub.dev" + source: hosted + version: "1.0.3+1" flutter: dependency: "direct main" description: flutter @@ -214,6 +318,14 @@ packages: url: "https://pub.dev" source: hosted version: "3.3.1" + flutter_custom_clippers: + dependency: "direct main" + description: + name: flutter_custom_clippers + sha256: "473e3daf61c2a6cee0ad137393259a25223239d519a131c7ec1cac04d06e5407" + url: "https://pub.dev" + source: hosted + version: "2.1.0" flutter_floating_bottom_bar: dependency: "direct main" description: @@ -238,6 +350,22 @@ packages: url: "https://pub.dev" source: hosted version: "2.2.1" + flutter_plugin_android_lifecycle: + dependency: transitive + description: + name: flutter_plugin_android_lifecycle + sha256: b068ffc46f82a55844acfa4fdbb61fad72fa2aef0905548419d97f0f95c456da + url: "https://pub.dev" + source: hosted + version: "2.0.17" + flutter_staggered_animations: + dependency: "direct main" + description: + name: flutter_staggered_animations + sha256: "81d3c816c9bb0dca9e8a5d5454610e21ffb068aedb2bde49d2f8d04f75538351" + url: "https://pub.dev" + source: hosted + version: "1.1.1" flutter_test: dependency: "direct dev" description: flutter @@ -248,6 +376,14 @@ packages: description: flutter source: sdk version: "0.0.0" + gradient_borders: + dependency: "direct main" + description: + name: gradient_borders + sha256: "69eeaff519d145a4c6c213ada1abae386bcc8981a4970d923e478ce7ba19e309" + url: "https://pub.dev" + source: hosted + version: "1.0.0" html: dependency: transitive description: @@ -280,6 +416,70 @@ packages: url: "https://pub.dev" source: hosted version: "4.1.3" + image_picker: + dependency: "direct main" + description: + name: image_picker + sha256: "7d7f2768df2a8b0a3cefa5ef4f84636121987d403130e70b17ef7e2cf650ba84" + url: "https://pub.dev" + source: hosted + version: "1.0.4" + image_picker_android: + dependency: transitive + description: + name: image_picker_android + sha256: d6a6e78821086b0b737009b09363018309bbc6de3fd88cc5c26bc2bb44a4957f + url: "https://pub.dev" + source: hosted + version: "0.8.8+2" + image_picker_for_web: + dependency: transitive + description: + name: image_picker_for_web + sha256: "50bc9ae6a77eea3a8b11af5eb6c661eeb858fdd2f734c2a4fd17086922347ef7" + url: "https://pub.dev" + source: hosted + version: "3.0.1" + image_picker_ios: + dependency: transitive + description: + name: image_picker_ios + sha256: "76ec722aeea419d03aa915c2c96bf5b47214b053899088c9abb4086ceecf97a7" + url: "https://pub.dev" + source: hosted + version: "0.8.8+4" + image_picker_linux: + dependency: transitive + description: + name: image_picker_linux + sha256: "4ed1d9bb36f7cd60aa6e6cd479779cc56a4cb4e4de8f49d487b1aaad831300fa" + url: "https://pub.dev" + source: hosted + version: "0.2.1+1" + image_picker_macos: + dependency: transitive + description: + name: image_picker_macos + sha256: "3f5ad1e8112a9a6111c46d0b57a7be2286a9a07fc6e1976fdf5be2bd31d4ff62" + url: "https://pub.dev" + source: hosted + version: "0.2.1+1" + image_picker_platform_interface: + dependency: transitive + description: + name: image_picker_platform_interface + sha256: ed9b00e63977c93b0d2d2b343685bed9c324534ba5abafbb3dfbd6a780b1b514 + url: "https://pub.dev" + source: hosted + version: "2.9.1" + image_picker_windows: + dependency: transitive + description: + name: image_picker_windows + sha256: "6ad07afc4eb1bc25f3a01084d28520496c4a3bb0cb13685435838167c9dcedeb" + url: "https://pub.dev" + source: hosted + version: "0.2.1+1" intl: dependency: transitive description: @@ -344,6 +544,14 @@ packages: url: "https://pub.dev" source: hosted version: "1.9.1" + mime: + dependency: transitive + description: + name: mime + sha256: e4ff8e8564c03f255408decd16e7899da1733852a9110a58fe6d1b817684a63e + url: "https://pub.dev" + source: hosted + version: "1.0.4" octo_image: dependency: transitive description: @@ -469,6 +677,14 @@ packages: description: flutter source: sdk version: "0.0.99" + solid_bottom_sheet: + dependency: "direct main" + description: + name: solid_bottom_sheet + sha256: "7a18ee17da1c57fdad953f785be4cbdaf5e1116650888162ceaccb80e6b6a6aa" + url: "https://pub.dev" + source: hosted + version: "0.1.10" source_span: dependency: transitive description: diff --git a/pubspec.yaml b/pubspec.yaml index 5cf9be3..a0c9225 100644 --- a/pubspec.yaml +++ b/pubspec.yaml @@ -44,7 +44,15 @@ dependencies: lottie: animated_text_kit: ^4.2.2 page_route_animator: ^1.0.3 - animation_list: ^2.2.1 + animation_list: ^2.2.1 + flutter_custom_clippers: ^2.1.0 + firebase_core: ^2.22.0 + firebase_auth: + flutter_staggered_animations: ^1.1.1 + solid_bottom_sheet: + gradient_borders: ^1.0.0 + floating_snackbar: ^1.0.3+1 + image_picker: ^1.0.4 dev_dependencies: flutter_test: @@ -78,6 +86,8 @@ flutter: # To add assets to your application, add an assets section, like this: assets: - assets/appstore.png + - assets\studylottie.json + - assets\testlottie.json # - images/a_dot_ham.jpeg # An image asset can refer to one or more resolution-specific "variants", see diff --git a/test/widget_test.dart b/test/widget_test.dart index 988a59d..3c83a0e 100644 --- a/test/widget_test.dart +++ b/test/widget_test.dart @@ -5,7 +5,7 @@ // gestures. You can also use WidgetTester to find child widgets in the widget // tree, read text, and verify that the values of widget properties are correct. -import 'package:Learner/aptitude.dart'; +import 'package:Learner/widgets/widgets.dart'; import 'package:flutter/material.dart'; import 'package:flutter_test/flutter_test.dart'; diff --git a/windows/flutter/generated_plugin_registrant.cc b/windows/flutter/generated_plugin_registrant.cc index 4f78848..3a3369d 100644 --- a/windows/flutter/generated_plugin_registrant.cc +++ b/windows/flutter/generated_plugin_registrant.cc @@ -6,9 +6,18 @@ #include "generated_plugin_registrant.h" +#include +#include +#include #include void RegisterPlugins(flutter::PluginRegistry* registry) { + FileSelectorWindowsRegisterWithRegistrar( + registry->GetRegistrarForPlugin("FileSelectorWindows")); + FirebaseAuthPluginCApiRegisterWithRegistrar( + registry->GetRegistrarForPlugin("FirebaseAuthPluginCApi")); + FirebaseCorePluginCApiRegisterWithRegistrar( + registry->GetRegistrarForPlugin("FirebaseCorePluginCApi")); UrlLauncherWindowsRegisterWithRegistrar( registry->GetRegistrarForPlugin("UrlLauncherWindows")); } diff --git a/windows/flutter/generated_plugins.cmake b/windows/flutter/generated_plugins.cmake index 88b22e5..b9b24c8 100644 --- a/windows/flutter/generated_plugins.cmake +++ b/windows/flutter/generated_plugins.cmake @@ -3,6 +3,9 @@ # list(APPEND FLUTTER_PLUGIN_LIST + file_selector_windows + firebase_auth + firebase_core url_launcher_windows )