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University physics beiyou edition
Author: Zhao Jinfang Editor

ISBN: 10[7563507078] 13[9787563507078]

Press: Beijing University of Posts and Telecommunications Press

Release date: February 2006-1

Pricing: ¥26.00 This book is written according to the spirit of the higher education teaching content and curriculum system reform plan of the Ministry of Education facing the 2 1 century. The book is divided into two volumes, the first volume: mechanical basis, relativity, vibration, wave and heat; Volume 2: electromagnetism, wave optics and quantum theory. It is also equipped with the book "Guide to College Physics Learning". They can be used independently of each other or together. As a reform attempt of college physics textbooks for non-physics majors, this book adopts the principle of "high, wide, new, lively and appropriate", that is, selecting classic content from a high viewpoint, trying to broaden the knowledge, trying to reflect the new development of science and technology, paying attention to the active connection between various parts of knowledge, and the content is appropriate in difficulty.

This book can be used as a physics textbook for all majors in higher engineering colleges, or as a textbook or reference book for non-physics majors in comprehensive universities and normal universities, and is equipped with a CD-ROM. Electromagnetic chapter

Chapter VIII Electrostatic Field and Steady Electric Field

8. 1 electric field electric field intensity

8.2 Gauss Theorem of Electric Flux

8.3 Working potential of electric field force

8.4 Relationship between field strength and potential

8.5 Conductor in electrostatic field

8.6 Dielectric in Electrostatic Field

8.7 Capacitance capacitor

8.8 Current steady electric field electromotive force

8.9 electric field energy

Piezoelectric reading material

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Chapter 9 Correlation between Steady Magnetic Field and Electromagnetic Field

9. 1 magnetic field magnetic induction intensity

9.2 Ampere Loop Theorem

9.3 Influence of magnetic field on current-carrying conductor

9.4 Influence of magnetic field on moving charge

*9.5 cyclotron magnetic focusing

9.6 Magnetic Media

Plasma of reading materials and its magnetic confinement

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Chapter 10 electromagnetic induction

10. 1 law of electromagnetic induction

10.2 dynamic electromotive force and induced electromotive force

10.3 eddy current of electron induction accelerator

10.4 self-inductance and mutual inductance

10.5 magnetic field energy

Magnetic monopole of reading material

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Chapter 1 1 Electromagnetic field and electromagnetic wave

The displacement current of Maxwell equations is 1 1. 1

* 1 1.2 electromagnetic wave

* 1 1.3 Energy and momentum of electromagnetic field

Remote sensing technology of reading materials

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wave optics

Chapter 12 interference of light

12. 1 light source coherence

12.2 Young's double-slit interference experiment

12.3 optical path and optical path difference

12.4 thin film interference

12.5 crack tip interference Newton ring

12.6 Michelson interferometer

Holography of reading materials

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Diffraction of Chapter 13 Light

13. 1 huygens-fresnel principle of light diffraction

13.2 single-slit fraunhofer diffraction

13.3 diffraction grating

13.4 resolution of circular diffraction optical instrument

13.5 x-ray diffraction

Optical fiber communication of reading materials

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Chapter 14 polarization of light

14. 1 natural light and polarized light

14.2 Marius polarization law and its analysis

14.3 polarization of light in the process of reflection and refraction

14.4 polarization of scattered light

14.5 birefringence of light

Interference and artificial birefringence of * 14.6 polarized light.

* 14.7 optical rotation phenomenon

Reading material liquid crystal

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quantum theory

The answer to the exercise