Press: Higher Education Press
Publication date: 2003- 10- 1
Words:
Version: 1
Page count: 342 pages
Print time:
Page number: 16 Page number
Print time:
Paper:
Industrial and commercial bank number: 9787040 129755
Packing: paperback
brief Introduction of the content
This book is the research result of the Ministry of Education's "Reform Plan of Teaching Content and Curriculum System of Higher Education Facing 2 1 century", and it is the curriculum textbook of 2 1 century and the "Tenth Five-Year Plan" textbook of general higher education. College physics attempts to re-design the content system of college physics courses with the aim of cultivating talents' knowledge, ability and scientific quality, paying attention to strengthening the introduction of modern physics, reflecting the frontier of physics, trying to reorganize the classical physics content with the viewpoint of modern physics, and paying attention to introducing the thinking method of physics and its practical application in engineering. The book consists of six volumes, divided into two volumes. The first volume includes: introduction, space-time and motion, conservation law, interaction field; The second volume includes: waves, quantum physics, entropy and irreversible processes.
This book can be used as a college physics textbook for engineering majors in colleges and universities, and also as a textbook or reference book for physics courses for non-physics majors in comprehensive universities and normal universities. Introduction to Chapter 1
Chapter I Research Objects and Methods of Physics
1- 1 matter and motion
1-2 physical method
Measurement of physical quantities in 1-3 unit system
utilize
Chapter II Physics and Science and Technology
2- 1 universality of physical laws
2-2 Physics and Modern Science and Technology
utilize
Chapter 2 B- inch space, space and motion
Chapter III Sports Description
3- 1 time and space
3-2 particle kinematics
3-3 Rigid Body Kinematics
utilize
Chapter IV Relativity of Time and Space
4- 1 classical space-time transformation
4-2 Special Relativity Space-time Transformation
4-3 Space-time View of Special Relativity
4-4 speed limit four-dimensional space-time
utilize
Chapter III Law of Conservation
Chapter V Law of Conservation of Momentum
5- 1 momentum conservation law
5-2 momentum theorem
5-3 Newton's Law
utilize
Chapter VI Law of Conservation of Angular Momentum
6- 1 conservation law of angular momentum
6-2 Precession of Fixed Axis Rotation of Rigid Body
utilize
Chapter VII Relativistic Dynamics of Conservation Law of Mechanical Energy
7- 1 kinetic energy theorem
7-2 Law of Conservation of Mechanical Energy
7-3 Quantization of Energy and Angular Momentum
7-4 Relativistic Dynamics
utilize
Chapter VIII Symmetry and Conservation Law
8- 1 Basic Laws of Interaction and Conservation
8-2 Conservation Law and Symmetry
Chapter IV Interactive Field
Chapter 9 Gravitational Field
9- 1 gravitational field strength gravitational potential gradient
9-2 Gauss Theorem and Loop Theorem of Gravitational Field
Basic equation and dynamic properties of 9-3 gravity field
Introduction to 9-4 General Relativity
utilize
Chapter 10 Electrostatic field
10- 1 charge electric field strength
Gauss Theorem and Loop Theorem of 10-2 Electrostatic Field
10-3 interaction between electrostatic field and conductor
10-4 interaction between electrostatic field and dielectric
10-5 charged particles in electrostatic field
utilize
Chapter 11 Constant magnetic field
1 1- 1 electric and magnetic fields of moving charges
1 1-2 constant current magnetic field
Motion of charged particles in a constant magnetic field
1 1-4 interaction between magnetic field and magnetic medium
utilize
Chapter 12 changing electromagnetic field
12- 1 electromagnetic induction
12-2 self-inductance and mutual inductance
12-3 magnetic field energy
Maxwell equations +02-4
12-5 electromagnetic wave
utilize
Chapter 13 Nuclei and Strong and Weak Interaction Fields
13- 1 core
13-2 strong and weak interaction fields
Introduction to 13-3 unified field theory
utilize