大學(xué)物理簡(jiǎn)明教程 (上下冊(cè)) (英文版)
定 價(jià):59 元
叢書名:普通高等教育“十二五”規(guī)劃教材
- 作者:王安安,伏云昌主編
- 出版時(shí)間:2013/1/1
- ISBN:9787030365545
- 出 版 社:科學(xué)出版社
- 中圖法分類:O4
- 頁(yè)碼:
- 紙張:膠版紙
- 版次:2
- 開本:16開
王安安、伏云昌主編的《大學(xué)物理簡(jiǎn)明教程(英文版 第2版)》是按照《理工科類大學(xué)物理課程教學(xué)基本要求(2010年版)》修訂 的,涵蓋了所有A類的內(nèi)容,選擇了部分B類的內(nèi)容,如非慣性系、質(zhì)心、氣體的范德瓦爾斯方程、玻爾茲曼分布、幾何光學(xué)、固體能帶論和激光簡(jiǎn)介等 。
為方便上、下兩學(xué)期的教學(xué)安排,本次改版將原三冊(cè)改編為上、下兩冊(cè)。全書共19章:上冊(cè)為力學(xué)和電磁學(xué);下冊(cè)為熱學(xué)、振動(dòng)與波動(dòng)、光學(xué)和近代物 理。本書配有雙語課件光盤。
《大學(xué)物理簡(jiǎn)明教程(英文版 第2版)》可供理工科非物理專業(yè)112~128學(xué)時(shí)雙語教學(xué)使用,也可供在某一部分內(nèi)容進(jìn)行雙語教學(xué)試點(diǎn)選用,還可供 對(duì)英文物理感興趣的廣大讀者自學(xué)或作參考書用。
更多科學(xué)出版社服務(wù),請(qǐng)掃碼獲取。
王安安、伏云昌主編的《大學(xué)物理簡(jiǎn)明教程(英文版第2版)》是普通高等教育“十二五”規(guī)劃教材。教材分上下兩冊(cè),內(nèi)容包括:力學(xué)、電磁學(xué)、熱學(xué)、振動(dòng)與波動(dòng)、光學(xué)和近代物理?晒├砉た品俏锢韺I(yè)師生作教材使用,也可供對(duì)英文物理感興趣的廣大讀者自學(xué)或作參考書用。
Contents
PartOne Mechanics
Chapter1 Kinematics 2
1.1 Frame of Referenceand Particle 2
1.2 Displacement,Velocity,and Acceleration 4
1.3 Two Types of Problems in Kinematics and Sample Problems 10
1.4 Circular Motion 13
1.5 Relative Motion 17
Questions 19
Problems 20
Chapter2 Dynamics—Newton's Laws of Motion 23
2.1 Newton's Laws,Force,and Inertial Reference Frame 23
2.2 The Forces in Mechanics and the Fundamental Forces in Nature 27
2.3 Fundamental Quantities,Units,and Dimensions 33
2.4 Applying Newton's Laws of Motion 34
2.5 Galilean Transformations 39
2.6 Non-inertial Frame and Inertial Force 40
Questions 44
Problems 45
Chapter3 Work and Energy 49
3.1 Work 49
3.2 Kinetic Energy and the Law of Kinetic Energy 54
3.3 Conservative Force and Potential Energy of Weight 55
3.4 Elastic Potential Energy and Universal Gravitational Potential Energy 58
3.5 Conservation of Mechanical Energy 59
3.6 The Conservation of Energy 64
Questions 65
Problems 66
Chapter4 Momentum 70
4.1 Linear Momentum,Linear Impulse,and Momentum Theorem 70
4.2 Conservation of Momentum 73
4.3 Collision 76
4.4 Conservation of Angular Momentum of a Particle 80
4.5 The Center of Mass 83
Questions 86
Problems 87
Chapter5 Rotation of a Rigid Body 92
5.1 Motion of a Rigid Body 92
5.2 Torque,the Law of Rotation,and Rotational Inertia 94
5.3 Applying the Law of Rotation 99
5.4 Kinetic Energy and Work in Rotational Motion 101
5.5 Angular Momentum of a Rigid Body and Conservation of Angular Momentum 104
Questions 109
Problems 110
PartTwo Electromagnetism
Chapter6 Static Electric Field in a Vacuum 116
6.1 Electric Charge and Coulomb's Law 116
6.2 The Electric Field 118
6.3 Electric Field Lines,Electric Flux,and Gauss'Law 123
6.4 Electric Potential 130
6.5 Equipotential Surface and Potential Gradient 135
6.6 The Electric Force Exerted on a Moving Charged Particle 136
Questions 138
Problems 139
Chapter7 Conductors and Dielectrics in Electrostatic Field 143
7.1 Conductors and Electrostatic Induction 143
7.2 Capacitors and Capacitance 147
7.3 Dielectrics 152
7.4 Gauss'Law in Dielectric 155
7.5 Energy Stored in anElectric Field 159
Questions 161
Problems 162
Chapter8 Magnetic Field of a Steady Current 165
8.1 The Magnetic Phenomena and Ampere's Hypothesis 165
8.2 The Magnetic Field,Magnetic Field Lines,and Magnetic Flux 167
8.3 Magnetic Fields Set Up by a Current and a Moving Charge 169
8.4 Ampere's Law 173
8.5 Motion of a Charged Particle in a Magnetic Field 176
8.6 Magnetic Force on Current-carrying Conductors 178
8.7 Magnetic Torque on a Current-carrying Loop 179
*8.8 The Hall Effect 180
8.9 Magnetic Material 181
8.10 Ampere's Law and Gauss'Law for Magnetism 185
*8.11 Ferromagnetism 188
Questions 193
Problems 194
Chapter9 Electromagnetic Induction 199
9.1 Nonelectrostatic Force,Source and Electromotive Force 199
9.2 Faraday's Law of Induction 202
9.3 Motional Electromotive Force 206
9.4 Induced Electric Fields 209
9.5 Self-induction and Mutual-induction Phenomena 212
9.6 Energy of the Magnetic Field 216
9.7 Displacement Current and Complete Current Law 218
9.8 Maxwell's Equations 223
Questions 226
Problems 228
Appendix1 The International System of Units 234
Appendix2 Some Fundamental Constants of Physics 236
Words 237
Answers to Problems 244