Chapter 10 electrostatic field 3

10. 1 Coulomb's Law of Charge 3

10.2 electrostatic field strength 9

10.3 Gauss Theorem of Electrostatic Field 17

Loop theorem of electrostatic field 10.4 2 1

10.5 potential 23

10.6 electric field strength and potential gradient 27

10.7 conductor 28 in electrostatic field

Dielectric in 10.8 electrostatic field 3 1

10.9 capacitance capacitor 38

Chapter 42 Overview

Exercise 43 in this chapter

Chapter 1 1 Current magnetic field 46

1 1. 1 basic magnetic phenomena 47

1 1.2 magnetic field magnetic induction intensity 49

1 1.3 Biot-Savart Law 5 1

1 1.4 Gauss Theorem of Magnetic Field and Ampere Loop Theorem 57

1 1.5 Influence of magnetic field on current-carrying conductor 65

1 1.6 Influence of magnetic medium on magnetic field 73

1 1.7 ferromagnetism 77

Summary of this chapter 79

Exercise 80 in this chapter

Chapter 12 electromagnetic induction 84

12. 1 Faraday's law of electromagnetic induction 85

12.2 dynamic electromotive force and induced electromotive force 89

12.3 self-inductance and mutual inductance 99

12.4 transient process 104

12.5 magnetic field energy 108

12.6 displacement current hypothesis 1 1

Maxwell equations 12.7

Auxiliary Equation of Maxwell Equation 12.8 —— Dielectric Property Equation 120

12.9 electromagnetic wave 12 1

12. 10 materiality of electromagnetic field

Summary of this chapter 127

Exercise in this chapter 128

Chapter V Wave Optics

Chapter 13 Interference and diffraction of mechanical vibration, mechanical waves and light 13 1

13. 1 mechanical vibration 132

13.2 mechanical wave 135

13.3 Young's double-slit interference 137

13.4 thin film interference 14 1

Diffraction of light 15 1

13.6 diffraction grating 157

13.7 x-ray diffraction 16 1

13.8 Introduction to Holography 164

Summary of this chapter 166

Exercise in this chapter 167

Chapter 14 polarization of light

Polarization 14. 1 Marius' law of light 17 1

14.2 polarization of reflected light and refracted light 175

14.3 birefringent polarizing prism 177

14.4 optical rotation 182

14.5 polarized light interference 183

14.6 introduction to nonlinear optics 186

Summary of this chapter 188

Exercise in this chapter 189

Chapter 15 Fundamentals of Quantum Physics 19 1

Planck quantum hypothesis of blackbody radiation15.1191

15.2 photoelectric effect 196

15.3 Compton effect 202

Bohr's hydrogen atom theory 15.4 205

15.5 de Broglie wave uncertainty relation 2 12

15.6 wave function Schrodinger equation 2 16

Summary of this chapter 2 19

Exercise 22 in this chapter1

Appendix 224

Appendix I Table of Common Basic Physical Constants 224

Appendix II Nobel Prize in Physics over the years 226

Appendix Ⅲ Chinese-English Physical Vocabulary 232