- 清华大学出版社
- 9787302225607
- 1-2
- 135471
- 16开
- 2017-01
- 理学
- 物理学
- O4
- 物理
内容简介
A BRIEF INTRODUCTION TO THE CONTENT The content of this volume includes three parts: electromagnetism, wave and optics, and fundamentals of quantum physics. In the part of electromagnetism, the fundamental concepts and principles, as electric field, magnetic field, and electromagnetic induction, are explained explicitly. In the part of wave and optics, the basic characteristics of vibration and wave, and the basic principles of wave optics and geometric optics, are introduced. In the part of fundamentals of quantum physics, the basic concepts as wave\|particle quality, probability wave, uncertainty relation and energy quantization, and the regulations about the states of electrons in atoms and solids are given. At last, a short statement about the nucleus physics including radioactivity, is introduced.
Volume 2 and Volume 1 cover all the pedagogic requirements of physics course in colleges and universities and hence can be used as textbooks of physics. They can also be used as pedagogic references by high\|school teachers or as self\|learning materials by other readers.
Volume 2 and Volume 1 cover all the pedagogic requirements of physics course in colleges and universities and hence can be used as textbooks of physics. They can also be used as pedagogic references by high\|school teachers or as self\|learning materials by other readers.
目录
PART 3 ELECTROMAGNETISM
CHAPTER 11 ELECTROSTATIC FIELD
11.1 Electric Charges
11.2 Electric Field and Electric Field Intensity
11.3 Coulomb's Law and Calculating Electrostatic Field
11.4 Electric Field Lines and Electric Flux
11.5 Gauss' Law
11.6 Finding Electrostatic Field Distribution by Gauss' Law
SUMMARY
QUESTIONS
PROBLEMS
CHAPTER 12 ELECTRIC POTENTIAL
12.1 Conservative Property of Electrostatic Field
12.2 Electric Potential Difference and Electric Potential
12.3 Principle of Superposition of Electric Potential
12.4 Finding Field from Potential
12.5 Electrostatic Energy of Electric Charge in External Electric Field
12.6 Energy of Electrostatic Field
SUMMARY
QUESTIONS
PROBLEMS
CHAPTER 13 ELECTROSTATIC FIELD WITH CONDUCTORS ORDIELECTRICS PRESENT
13.1 Conditions for Electrostatic Equilibrium of a Conductor
13.2 Charge Distribution on a Conductor in Electrostatic Equilibrium State
13.3 Finding Electrostatic Field When Conductors are Present
13.4 Capacitors and Capacitance
13.5 Effect on Dielectrics by Electric Field
13.6 Polarization of Dielectrics
13.7 Electric Displacement Vector D and Its Gauss' Law
13.8 Energy Storedin a Capacitor
SUMMARY
QUESTIONS
PROBLEMS
CHAPTER 14 ELECTRIC CURRENT AND MAGNETIC FIELD
14.1 Electric Current and Current Density
14.2 A Classical Microscopic View of Electric Current
14.3 Ohm's Law
14.4 Magnetic Force and Motion of Electric Charge
14.5 Magnetic Field and Magnetic Induction
14.6 Biot-Savart Law
14.7 Ampere CircuitalTheorem
14.8 Finding Distribution of the Magnetic Field with AmpereCircuital Theorem
14.9 Magnetic Field Associated with Varying Electric Field
SUMMARY
QUESTIONS
PROBLEMS
……
PART 4 WAVE AND OPTICS
PART 5 FUNDAMENTALS OF QUANTUM PHYSICS
CHAPTER 11 ELECTROSTATIC FIELD
11.1 Electric Charges
11.2 Electric Field and Electric Field Intensity
11.3 Coulomb's Law and Calculating Electrostatic Field
11.4 Electric Field Lines and Electric Flux
11.5 Gauss' Law
11.6 Finding Electrostatic Field Distribution by Gauss' Law
SUMMARY
QUESTIONS
PROBLEMS
CHAPTER 12 ELECTRIC POTENTIAL
12.1 Conservative Property of Electrostatic Field
12.2 Electric Potential Difference and Electric Potential
12.3 Principle of Superposition of Electric Potential
12.4 Finding Field from Potential
12.5 Electrostatic Energy of Electric Charge in External Electric Field
12.6 Energy of Electrostatic Field
SUMMARY
QUESTIONS
PROBLEMS
CHAPTER 13 ELECTROSTATIC FIELD WITH CONDUCTORS ORDIELECTRICS PRESENT
13.1 Conditions for Electrostatic Equilibrium of a Conductor
13.2 Charge Distribution on a Conductor in Electrostatic Equilibrium State
13.3 Finding Electrostatic Field When Conductors are Present
13.4 Capacitors and Capacitance
13.5 Effect on Dielectrics by Electric Field
13.6 Polarization of Dielectrics
13.7 Electric Displacement Vector D and Its Gauss' Law
13.8 Energy Storedin a Capacitor
SUMMARY
QUESTIONS
PROBLEMS
CHAPTER 14 ELECTRIC CURRENT AND MAGNETIC FIELD
14.1 Electric Current and Current Density
14.2 A Classical Microscopic View of Electric Current
14.3 Ohm's Law
14.4 Magnetic Force and Motion of Electric Charge
14.5 Magnetic Field and Magnetic Induction
14.6 Biot-Savart Law
14.7 Ampere CircuitalTheorem
14.8 Finding Distribution of the Magnetic Field with AmpereCircuital Theorem
14.9 Magnetic Field Associated with Varying Electric Field
SUMMARY
QUESTIONS
PROBLEMS
……
PART 4 WAVE AND OPTICS
PART 5 FUNDAMENTALS OF QUANTUM PHYSICS
