Wiley's Halliday / Resnick / Walker Physics for JEE (Main & Advanced), Vol 1, 2019ed at Meripustak

Wiley's Halliday / Resnick / Walker Physics for JEE (Main & Advanced), Vol 1, 2019ed

Books from same Author: Amit Gupta

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  • General Information  
    Author(s)Amit Gupta
    PublisherWiley
    Edition2019
    ISBN9788126573783
    Pages920
    BindingPaperback
    LanguageEnglish
    Publish YearMarch 2018

    Description

    Wiley Wiley's Halliday / Resnick / Walker Physics for JEE (Main & Advanced), Vol 1, 2019ed by Amit Gupta

    This book has been written to meet the examination need of engineering students enrolling in the first year and is in This first volume of an adaptation of the Resnick, Halliday and Walker’s “Fundamental of Physics”(9th edition) is a must-have resource for JEE ( main & advanced) for JEE aspirants. The book has been designed to help the students overcome the hurdles while preparing for JEE in terms of concepts and problem solving. The book offers a unique combination of authoritative content and stimulating problems. Original book is presented in two volumes in keeping with recommended JEE syllabus.


    Table of Content


    1 Units and Dimensions

    1-1 Introduction

    1-2 Measuring Things

    1-3 The International System of Units

    1-4 Standards of SI Quantities

    1-5 Applications of Dimensional Analysis

     

    2. Vectors and Elementary Calculus

    2-1 Introduction

    2-2 Vector and Scalar Quantities

    2-3 Vector Addition

    2-4 Components of Vectors

    2-5 Unit Vectors

    2-6 Application of Unit Vector Form

    2-7 Vectors and the Laws of Physics

    2-8 Vector Multiplication

    2-9 Calculus

    2-10 Integral Calculus

     

    3. Motion Along a Straight Line

    3-1 Introduction

    3-2 Motion

    3-3 Position and Displacement

    3-4 Average Velocity and Average Speed

    3-5 Instantaneous Velocity and Speed

    3-6 Acceleration

    3-7 Constant Acceleration: A Special Case

    3-8 Another Look at Constant Acceleration

    3-9 Free-Fall Acceleration

    3-10 Graphical Integration in Motion Analysis

     

    4. Motion in Two and Three-Dimensions

    4-1 Introduction

    4-2 Position and Displacement

    4-3 Average Velocity and Instantaneous Velocity

    4-4 Average Acceleration and Instantaneous Acceleration

    4-5 Projectile Motion

    4-6 Projectile Motion Analyzed

    4-7 Projection on Inclined Plane

    4-8 Relative Motion

    4-9 Net Motion

    4-10 Constraint Motion

     

    5. Force and Motion –I

    5-1 Introduction

    5-2 Newtonian Mechanics

    5-3 Newton’s First Law

    5-4 Force

    5-5 Mass

    5-6 Newton’s Second Law

    5-7 Newton’s Third Law

    5-8 Some Particular Forces

    5-9 Applying Newton’s Laws

    5-10 Motion in Accelerated Frames: Fictitious force

     

    6. Force and Motion-II

    6-1 Introduction

    6-2 Properties of Friction

    6-3 Static Friction

    6-4 Kinetic Friction

    6-5 Some More Applications

     

    7. Circular Motion

    7-1 Introduction

    7-2 Angular Variables

    7-3 Relation Between Angular Velocity and Linear Velocity

    7-4 Particle in Uniform Circular Motion

    7-5 Particle in Nonuniform Circular Motion

    7-6 Dynamics of Circular Motion

    7-7 Dynamics of Nonuniform Circular Motion

    7-8 Centrifugal Force

     

    8. Work, Power, and Energy

    8-1 Introduction

    8-2 Kinetic Energy

    8-3 Work

    8-4 Calculation of Work for Uniform Force

    8-5 Work Done by a Spring Force

    8-6 Calculation of Work for Nonuniform Force

    8-7 Validity of Work–Kinetic Energy Theorem in Inertial Reference Frames

    8-8 Work–Kinetic Energy Theorem for a System (Collection of Particles)

    8-9 Potential Energy

    8-10 Work and Potential Energy

    8-11 Path Independence of Conservative Forces

    8-12 Determining Potential Energy Values

    8-13 Work–Mechanical Energy Theorem

    8-14 Conservation of Mechanical Energy

    8-15 Work done on a System by an External Force

    8-16 Conservation of Energy

    8-17 Relation between Conservative Force and Potential Energy

    8-18 Vertical Circular motion

     

    9. Center of Mass

    9-1 Introduction

    9-2 The Center of Mass

    9-3 Newton’s Second Law for a System of Particles

    9-4 Linear Momentum

    9-5 The Linear Momentum of a System of Particles

    9-6 Impulse and Momentum

    9-7 Conservation of Momentum

    9-8 Collisions

    9-9 Inelastic Collisions in One Dimension

    9-10 Elastic Collisions in One Dimension

    9-11 Collisions in Two Dimensions

    9-12 C-Frame

    9-13 Impulse Momentum Equation for Continuous Processes

    9-14 Systems with Varying Mass: A Rocket

    9-15 Some Extra Derivations

     

    10. Rigid Body Dynamics-I

    10-1 Introduction

    10-2 Kinematics of Rigid Body

    10-3 The Rotational Variables

    10-4 Are Angular Quantities Vectors?

    10-5 Rotation with Constant Angular Acceleration

    10-6 Relating the Linear and Angular Variables

    10-7 Kinetic Energy of Rotation

    10-8 Calculating the Moment of Inertia

    10-9 Torque

    10-10 The Vector Product

    10-11 Vector Product and Torque

    10-12 The Center of Gravity

    10-13 The Rigid Object Under Net Torque

    10-14 Work and Rotational Kinetic Energy

    10-15 Angular Momentum

    10-16 Newton’s Second Law in Angular Form

    10-17 The Angular Momentum of a System of Particles

    10-18 The Angular Momentum of a Rigid Body Symmetrically Rotating About a Fixed Axis

    10-19 Conservation of Angular Momentum

     

    11. Rigid Body Dynamics-II

    11-1 Introduction

    11-2 Kinematics of Combined Rotation and Translation

    11-3 Kinetic Energy of Combined Translation and Rotation

    11-4 Forces of Rolling

    11-5 Torque About Center of Mass

    11-6 Angular Momentum of Rigid Body About a Point Lying Outside the Body

    11-7 The Yo-Yo

    11-8 Torque Revisited

    11-9 Problem Solving in Rolling

    11-10 Rigid Body in Equilibrium

    11-11 The Requirements of Equilibrium

    11-12 Some Examples of Static Equilibrium

    11-13 Toppling

    11-14 Instantaneous Center of Zero Velocity

     

    12. Elasticity

    12-1 Introduction

    12-2 Stress and Strain

    12-3 Elastic Potential Energy

    12-4 Poisson’s Ratio

    12-5 Mechanical Properties of Materials

     

    13. Gravitation

    13-1 Introduction

    13-2 Newton’s Law of Gravitation

    13-3 Gravitation and the Principle of Superposition

    13-4 Gravitation Near Earth’s Surface

    13-5 Gravitation Inside Earth

    13-6 Gravitational Potential Energy

    13-7 Planets and Satellites: Kepler’s Laws

    13-8 Satellites: Orbits and Energy

    13-9 Einstein and Gravitation

     

    14. Fluids

    14-1 Introduction

    14-2 Density and Pressure

    14-3 Fluids at Rest

    14-4 Measuring Pressure

    14-5 Pascal’s Principle

    14-6 Archimedes’ Principle

    14-7 Hydrostatic Force on a Curved Surface

    14-8 Linear Accelerated Motion of a Fluid

    14-9 Motion of a Fluid in a Rotating Vessel

    14-10 Buoyant Force

    14-11 Fluid Dynamics

    14-12 Bernoulli’s Equation

     

    15. Oscillations

    15-1 Introduction

    15-2 Simple Harmonic Motion

    15-3 Force Law for Simple Harmonic Motion

    15-4 Simple Harmonic Motion and Uniform Circular Motion

    15-5 Energy in Simple Harmonic Motion

     

    16. Waves-I

    16-1 Introduction

    16-2 Propagation of Distance and Wave Equation

    16-3 Wave Equation

    16-4 Speed of Waves on String

    16-5 General Differential Equation of Wave

    16-6 Phasors

    16-7 Superposition

    16-8 Interference

    16-9 Standing Waves

    16-10 Generation of Standing Wave Due to Reflection of a Travelling Wave

    16-11 Normal Modes of Vibrations

    16-12 Energy and Power of a Wave

    16-13 Propagation of Wave in Two Connected Strings

     

    17. Waves-II

    17-1 Sound

    17-2 The Speed of Sound

    17-3 Traveling Sound Waves

    17-4 Intensity and Characteristics

    17-5 Three-Dimensional Propagation of Waves

    17-6 Standing Waves

    17-7 Interference

    17-8 Beats

    17-9 The Doppler Effect

    17-10 Supersonic Speeds, Shock Waves

     

    18. Temperature and Thermal Expansion

    18-1 Introduction

    18-2 The Zeroth Law of Thermodynamics

    18-3 Measuring Temperature

    18-4 Thermal Expansion

    18-5 Expansion of Solids

    18-6 Expansion of Liquids

     

    19. Heat, Calorimetry, and Heat Transfer

    19-1 Temperature and Heat

    19-2 Thermal Parameters

    19-3 Absorption of Heat

    19-4 Calorimetry

    19-5 Conduction

    19-6 Convection and Radiation

    19-7 Approximate Surface Temperature of the Sun

    19-8 Wien’s Displacement Law

    19-9 Newton’s Law of Cooling

    19-10 Cooling Curves

     

    20. The Kinetic Theory of Gases

    20-1 Introduction

    20-2 Avogadro’s Number

    20-3 Ideal Gases

    20-4 Pressure, Temperature, and RMS Speed

    20-5 Translational Kinetic Energy

    20-6 The Distribution of Molecular Speeds

    20-7 The Equipartition of Energy and Degrees of Freedom

    20-8 A Hint of Quantum Theory

     

    21. First Law of Thermodynamics

    21-1 Work and Heat

    21-2 The First Law of Thermodynamics

    21-3 Some Applications of the First Law of Thermodynamics

    21-4 The Adiabatic Expansion of an Ideal Gas

    21-5 The Carnot Engine

     

    Reasoning Type Questions

    Multiple Choice Questions

    Questions

    Problems

    Additional Problems

    Answers

     

    Appendices

     

    A The International System of Units (SI)

    B Some Fundamental Constants of Physics

    C Some Astronomical Data

    D Conversion Factors

    E Mathematical Formulas

    F Properties of the Elements

    G Solved IIT-JEE problems

     

     

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