Description
Wiley Wiley'S Halliday / Resnick / Walker Physics For Jee (Main & Advanced), Vol Ii, 2019Ed by Manish K Singhal
This book has been written to meet the examination need of engineering students enrolling in the first year and is in This second volume of an adaptation of the Resnick, Halliday and Walker’s “Fundamental of Physics”(9th edition) and 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. This book includes additional topics and sample problems for complete coverage of JEE syllabus.
Table of Contents
Chapter 22: Electric Charge and Electric Field
22-1 What is Physics?
22-2 Electric Charge
22-3 Coulomb’s Law
22-4 Charge Is Quantized
22-5 Charge Is Conserved
22-6 The Electric Field
22-7 Electric Field Lines
22-8 The Electric Field Due to a Point Charge
22-9 The Electric Field Due to Continuous Charge Distribution
22-10 The Electric Field Due to a Charged Disk
22-11 A Point Charge in an Electric Field
22-12 A Dipole in an Electric Field
Chapter 23: Gauss' law
23-1 What Is Physics?
23-2 Flux
23-3 Electric Flux
23-4 Statement of Gauss’ Law
23-5 Gauss’ Law and Coulomb’s Law
23-6 Applying Gauss’ Law: Spherical Symmetry
23-7 Applying Gauss’ Law: Cylindrical Symmetry
23-8 Applying Gauss’ Law: Planar Symmetry
Chapter 24: Electric Potential
24-1 What Is Physics?
24-2 Electric Potential Energy
24-3 Electric Potential
24-4 Equipotential Surfaces
24-5 Calculating the Potential from the Field
24-6 Potential Due to a Point Charge
24-7 Potential Due to a Group of Point Charges
24-8 Potential Due to a Continuous Charge Distribution
24-9 Calculating the Field from the Potential
24-10 Potential Due to an Electric Dipole
Chapter 25: Conductors
25-1 What Is Physics?
25-2 Conductors and Insulators
25-3 Electric Field Inside a Conductor
25-4 A Charged Isolated Conductor
25-5 The Net Electric Field Near the Surface of a Conductor
25-6 Electrostatic Shielding
25-7 Potential of a Charged Isolated Conductor
25-8 Earthing
25-9 Electrostatic Self-Energy
Chapter 26: Capacitance
26-1 What Is Physics?
26-2 Capacitance
26-3 Calculating the Capacitance
26-4 Combination of Capacitors
26-5 Energy Stored in an Electric Field
26-6 Capacitor with a Dielectric
26-7 Dielectrics: An Atomic View
26-8 Dielectrics and Gauss’ Law
Chapter 27: Current and Resistance
27-1 What Is Physics?
27-2 Electric Current
27-3 Current Density
27-4 Resistance and Resistivity
27-5 Ohm’s Law
27-6 AMicroscopic View of Ohm’s Law
27-7 Power in Electric Circuits
27-8 Superconductors
Chapter 28: Circuits
28-1 What Is Physics?
28-2 Work, Energy, and Emf
28-3 Calculating the Current in a Single-Loop Circuit
28-4 Multiloop Circuits
28-5 Electricity-Related Instruments
28-6 RC Circuits
Chapter 29: Magnetic Force
29-1 What Is Physics?
29-2 What Produces a Magnetic Field?
29-3 The Definition of
29-4 A Circulating Charged Particle
29-5 Cyclotrons
29-6 Crossed Fields: Discovery of the Electron
29-7 The Hall Effect and the Force on a Current-Carrying Wire
29-8 Torque on a Current Loop
29-9 The Magnetic Dipole Moment
Chapter 30: Magnetic Fields Due to Currents
30-1 What Is Physics?
30-2 Calculating the Magnetic Field
30-3 Magnetic Field of Moving Charged Particles
30-4 Force Between Two Parallel Currents
30-5 Ampere’s Law
30-6 Solenoids and Toroids
Chapter 31: Electromagnetic Induction
31-1 What Is Physics?
31-2 Gauss’ Law for Magnetic Fields
31-3 Two Experiments
31-4 Faraday’s Law of Induction
31-5 Lenz’s Law
31-6 Motional Emf
31-7 Induction and Energy Transfers
31-8 Induced Electric Fields
31-9 Inductors and Inductance
31-10 Self-Induction
31-11 RL Circuits
31-12 Energy Stored in a Magnetic Field
31-13 Mutual Induction
Chapter 32: Electromagnetic Oscillations and Alternating Current
32-1 What Is Physics?
32-2 LC Oscillations, Qualitatively
32-3 The Electrical—Mechanical Analogy
32-4 LC Oscillations, Quantitatively
32-5 Alternating Current
32-6 Forced Oscillations
32-7 Three Simple Circuits
32-8 The Series RLC Circuit
32-9 Power in Alternating-Current Circuits
32-10 Transformers
Chapter 33: Electromagnetic Waves
33-1 What Is Physics
33-2 Maxwell’s Rainbow
33-3 The Traveling Electromagnetic Wave, Qualitatively
33-4 The Traveling Electromagnetic Wave, Quantitatively
33-5 Energy Transport and the Poynting Vector
33-6 Radiation Pressure
33-7 Polarization
33-8 Reflection and Refraction
33-9 Polarization by Reflection
Chapter 34: Geometrical Optics: Reflection
34-1What Is Physics?
34-2 Principle of Rectilinear Propagation of Light
34-3 Laws of Reflection
34-4 Formation of Image by a Mirror
34-5 Formation of Image by a Spherical Mirror
Chapter 35: Geometrical Optics: Refraction
35-1 What is Physics?
35-2 Snell’s Laws of Refraction
35-3 Apparent Depth and Normal Shift
35-4 Total Internal Reflection
35-5 Refraction at Spherical Surfaces
35-6 Thin Spherical Lens
35-7 Lens Mirror Combination
35-8 Prism
35-9 Chromatic Dispersion
Chapter 36: Interference and Diffraction
36-1 What is Physics?
36-2 Light as a Wave
36-3 Diffraction
36-4 Young’s Interference Experiment
36-5 Coherence
36-6 Intensity in Double-Slit Interference
36-7 Modifications of Young’s Double-Slit Experiment
36-8 Interference from Thin Films
36-9 Diffraction and the Wave Theory of Light
36-10 Diffraction by a Single Slit: Locating the Minima
36-11 Intensity in Single-Slit Diffraction, Quantitatively
36-12 Diffraction by a Circular Aperture
36-13 Diffraction by a Double Slit
Chapter 37: Relativity
37-1 What is Physics?
37-2 The Postulates
37-3 Measuring an Event
37-4 The Relativity of Simultaneity
37-5 The Relativity of Time
37-6 The Relativity of Length
37-7 The Lorentz Transformation
37-8 Some Consequences of the Lorentz Equations
37-9 Electricity and Magnetism
37-10 The Relativity of Velocities
37-11 Doppler Effect for Light
37-12 A New Look at Momentum
37-13 A New Look at Energy
Chapter 38: Photons and Matter Waves
38-1 What is Physics?
38-2 The Photon, the Quantum of Light
38-3 The Photoelectric Effect
38-4 Photons Have Momentum
38-5 Light as a Probability Wave
38-6 Electrons and Matter Waves
38-7 Schrödinger’s Equation
38-8 Heisenberg’s Uncertainty Principle
38-9 Barrier Tunneling
Chapter 39: Hydrogen Atom
39-1 What Is Physics?
39-2 String Waves and Matter Waves
39-3 Energies of a Trapped Electron
39-4 Wave Functions of a Trapped Electron
39-5 The Bohr Model of the Hydrogen Atom
39-6 Spectra of the Hydrogen Atom
39-7 Quantum Numbers for the Hydrogen Atom (Optional)
Chapter 40: All About Atoms
40-1 What Is Physics?
40-2 Some Properties of Atoms
40-3 Electron Spin
40-4 Angular Momenta and Magnetic Dipole Moments
40-5 The Pauli Exclusion Principle
40-6 Building the Periodic Table
40-7 X Rays and the Ordering of the Elements
40-8 Lasers and Laser Light
40-9 How Lasers Work
Chapter 41: The Nucleus
41-1 What Is Physics?
41-2 Discovering the Nucleus
41-3 Some Nuclear Properties
41-4 Radioactive Decay
41-5 Probability of Decay
41-6 Alpha Decay
41-7 Beta Decay
41-8 Gamma Decay
41-9 Radioactive Dating
41-10 Nuclear Models (Optional)
41-11 Nuclear Fission: The Basic Process
41-12 Thermonuclear Fusion: The Basic Process
41-13 Thermonuclear Fusion in the Sun and Other Stars
Reasoning Type Questions
Multiple Choice Questions
Problems
Additional Problems
Answers
Appendices
A The International System of Unit (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
JEE Advanced Mock Test 1
JEE Advanced Mock Test 2