[PDF] Manish K Singhal Physics for JEE (Main & Advanced), Vol II Download
Wiley's Halliday / Resnick / Walker Physics for JEE (Main & Advanced), Vol II, 3ed, 2021 PDF Download
Highlights of This Book:
This book has been written to meet the entrance examination needs of engineering students enrolling in the first year and is in this second volume of an adaptation of the Halliday, Resnick, and Walker’s Principles of Physics (10th 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. The original book is presented in two volumes in keeping with recommended JEE syllabus.
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Wiley's Halliday / Resnick / Walker Physics for JEE (Main & Advanced), Vol II, 3ed, 2021 PDF |
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| Table of Content: Chapter 22: Electric Charges and Fields 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 an Electric Dipole 22.10 The Electric Field Due to a Line of Charge (Continuous Charge Distribution) 22.11 The Electric Field Due to a Charged Disk 22.12 Electric Field Inside a Conductor 22.13 A Point Charge in an Electric Field 22.14 A Dipole in an Electric Field 22.15 Electrostatic Shielding Chapter 23: Gauss’ law 23.1 What is Physics? 23.2 Electric Flux 23.3 Gauss’ Law 23.4 A Charged Isolated Conductor 23.5 Applying Gauss’ Law: Spherical Symmetry 23.6 Applying Gauss’ Law: Cylindrical Symmetry 23.7 Applying Gauss’ Law: Planar Symmetry Chapter 24: Electric Potential 24.1 What is Physics? 24.2 Electric Potential and Electric Potential Energy 24.3 Equipotential Surfaces 24.4 Calculating the Potential from the Field 24.5 Potential Due to a Point Charge 24.6 Potential Due to a Group of Point Charges 24.7 Potential Due to a Continuous Charge Distribution 24.8 Calculating the Field from the Potential 24.9 Potential Due to an Electric Dipole 24.10 Electric Potential Energy of a System of Charged Particles 24.11 Potential of a Charged Isolated Conductor 24.12 Earthing 24.13 Electrostatic Self-Energy
Chapter 25: Capacitance 25 Capacitance 25.1 What is Physics? 25.2 Capacitance 25.3 Calculating the Capacitance 25.4 Capacitors in Parallel and in Series 25.5 Energy Stored in an Electric Field 25.6 Capacitor with a Dielectric 25.7 Dielectrics: An Atomic View 25.8 Dielectrics and Gauss’ Law Chapter 26: Current and Resistance 26.1 What is Physics? 26.2 Electric Current 26.3 Current Density 26.4 Resistance and Resistivity 26.5 Ohm’s Law 26.6 A Microscopic View of Ohm’s Law 26.7 Power in Electric Circuits 26.8 Semiconductors 26.9 Superconductors Chapter 27: Circuits 27.1 What is Physics? 27.2 Work, Energy, and EMF 27.3 Calculating the Current in a Single-Loop Circuit 27.4 Potential Difference Between Two Points 27.5 Multiloop Circuits 27.6 Electricity-Related Instruments 27.7 RC Circuits Chapter 28: Magnetic Force 28.1 What is Physics? 28.2 What Produces a Magnetic Field? 28.3 The Definition of B 28.4 A Circulating Charged Particle 28.5 Cyclotrons 28.6 Crossed Fields: Discovery of the Electron 28.7 The Hall Effect 28.8 Magnetic Force on a Current-Carrying Wire 28.9 Torque on a Current Loop 28.10 The Magnetic Dipole Moment Chapter 29: Magnetic Fields Due to Currents 29.1 What is Physics? 29.2 Calculating the Magnetic Field Due to a Current 29.3 Magnetic Field of Moving Charged Particles 29.4 Force Between Two Parallel Currents 29.5 Ampere’s Law 29.6 Solenoids and Toroids 29.7 Limitations of Ampere’s Law 29.8 A Note About the Frames of Reference Chapter 30: Electromagnetic Induction
Chapter 31: Electromagnetic Oscillations and Alternating Current 31.1 What is Physics? 31.2 LC Oscillations, Qualitatively 31.3 The Electrical–Mechanical Analogy 31.4 LC Oscillations, Quantitatively 31.5 Alternating Current 31.6 Three Simple Circuits 31.7 The Series RLC Circuit 31.8 Power in Alternating-Current Circuits 31.9 Transformers Chapter 32: Electromagnetic Waves 32.1 What is Physics? 32.2 Maxwell’s Rainbow 32.3 The Traveling Electromagnetic Wave, Qualitatively 32.4 The Traveling Electromagnetic Wave, Quantitatively 32.5 Energy Transport and the Poynting Vector 32.6 Radiation Pressure 32.7 Polarization 32.8 Reflection and Refraction 32.9 Polarization by Reflection 32.10 Polarization by Scattering Chapter 33: Geometrical Optics: Reflection 33.1 What is Physics? 33.2 Principle of Rectilinear Propagation of Light 33.3 Laws of Reflection 33.4 Formation of Image by a Mirror 33.5 Formation of Images by Spherical Mirrors Chapter 34: Geometrical Optics: Refraction 34.1 What is Physics? 34.2 Snell’s Laws of Refraction 34.3 Total Internal Reflection 34.4 Spherical Refracting Surfaces 34.5 Thin Spherical Lenses 34.6 Lens Mirror Combination 34.7 Prism 34.8 Chromatic Dispersion
Chapter 35: Interference and Diffraction 35.1 What is Physics? 35.2 Light as a Wave 35.3 Diffraction 35.4 Young’s Interference Experiment 35.5 Coherence 35.6 Intensity in Double-Slit Interference 35.7 Modifications of Young’s Double-Slit Experiment 35.8 Interference from Thin Films 35.9 Diffraction and the Wave Theory of Light 35.10 Diffraction by a Single Slit: Locating the Minima 35.11 Intensity in Single-Slit Diffraction, Quantitatively 35.12 Diffraction by a Circular Aperture 35.13 Diffraction by a Double Slit Chapter 36: Relativity 36.1 What is Physics? 36.2 The Postulates 36.3 Measuring an Event 36.4 The Relativity of Simultaneity 36.5 The Relativity of Time 36.6 The Relativity of Length 36.7 The Lorentz Transformation 36.8 Electricity and Magnetism 36.9 The Relativity of Velocities 36.10 Doppler Effect for Light 36.11 A New Look at Momentum 36.12 A New Look at Energy Chapter 37: Photons and Matter Waves 37.1 What is Physics? 37.2 The Photon, the Quantum of Light 37.3 The Photoelectric Effect 37.4 Photons Have Momentum 37.5 Light as a Probability Wave 37.6 Electrons and Matter Waves 37.7 Schrödinger’s Equation 37.8 Heisenberg’s Uncertainty Principle 37.9 Reflection from a Potential Step 37.10 Tunneling Through a Potential Barrier Chapter 38: Hydrogen Atom 38.1 What is Physics? 38.2 String Waves and Matter Waves 38.3 Energies of a Trapped Electron 38.4 Wave Functions of a Trapped Electron 38.5 The Bohr Model of the Hydrogen Atom 38.6 Quantum Numbers for the Hydrogen
Chapter 39: All About Atoms 39.1 What is Physics? 39.2 Some Properties of Atoms 39.3 Angular Momentum, Magnetic Dipole Moments 39.4 The Pauli Exclusion Principle 39.5 Building the Periodic Table 39.6 X-Rays and the Ordering of the Elements 39.7 Lasers and Laser Light 39.8 How Lasers Work Chapter 40: The Nucleus 40.1 What is Physics? 40.2 Discovering the Nucleus 40.3 Some Nuclear Properties 40.4 Radioactive Decay 40.5 Alpha Decay 40.6 Beta Decay 40.7 Gamma Decay 40.8 Radioactive Dating 40.9 Nuclear Models (Optional) 40.10 Nuclear Fission: The Basic Process 40.11 Thermonuclear Fusion: The Basic Process 40.12 Thermonuclear Fusion in the Sun and Other Stars Review and Summary Problems Practice Questions Answer Key APPENDICES Appendix A The International System of Units (SI) Appendix B Some Fundamental Constants of Physics Appendix C Some Astronomical Data Appendix D Conversion Factors Appendix E Mathematical Formulas Appendix F Properties of the Elements Appendix G JEE Advanced 2019 |
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