Table of Contents

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Chapter 1: Tooling Up

Chapter 2: Straight-Line Motion

Chapter 3: Motion in Two and Three Dimensions

Chapter 4: Newton’s Laws

Chapter 5: Applications of Newton’s Laws

Chapter 6: Work and Kinetic Energy

Chapter 7: Potential Energy and Conservation of Energy

Chapter 8: Linear Momentum, Collisions, and the Center of Mass

Chapter 9: Rotations of Rigid Bodies

Chapter 10: More on Angular Momentum and Torque

Chapter 11: Statics

Chapter 12: Gravitation

Chapter 13: Oscillatory Motion

Chapter 14: Waves

Chapter 15: Superposition and Interference of Waves

Chapter 16: Properties of Fluids

Chapter 17: Temperature and Ideal Gases

Chapter 18: Heat Flow and the First Law of Thermodynamics

Chapter 19: The Molecular Basis of Thermal Physics

Chapter 20: The Second Law of Thermodynamics

Chapter 21: Electric Charge

Chapter 22: Electric Field

Chapter 23: Gauss’ Law

Chapter 24: Electric Potential

Chapter 25: Capacitors and Dielectrics

Chapter 26: Currents in Materials

Chapter 27: Direct-Current Circuits

Chapter 28: The Effects of Magnetic Fields

Chapter 29: The Production and Properties of Magnetic Fields

Chapter 30: Faraday’s Law

Chapter 31: Magnetism and Matter

Chapter 32: Inductance and Circuit Oscillations

Chapter 33: Alternating Currents

Chapter 34: Maxwell’s Equations and Electromagnetic Waves

Chapter 35: Light

Chapter 36: Mirrors and Lenses and Their Uses

Chapter 37: Interference

Chapter 38: Diffraction

Chapter 39: Special Relativity

Chapter 40: Quantum Physics

Chapter 41: Quantization of Angular Momentum and of Energy Values

Chapter 42: Quantum Effects in Large Systems of Fermions and Bosons

Chapter 43: Quantum Engineering

Chapter 44: Nuclear Physics

Chapter 45: Particles and Cosmology

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