《西尔斯当代大学物理简明教程(英文改编版 原书第13版)》休 ・ D.杨(Hugh D.Young

《西尔斯当代大学物理简明教程(英文改编版 原书第13版)》休 ・ D.杨(Hugh D.Young | PDF下载|ePub下载

西尔斯当代大学物理简明教程(英文改编版 原书第13版) 版权信息

  • 出版社:机械工业出版社
  • 出版时间:2023-10-01
  • ISBN:9787111697121
  • 条形码:9787111697121 ; 978-7-111-69712-1

西尔斯当代大学物理简明教程(英文改编版 原书第13版) 本书特色

《西尔斯当代大学物理》原书第13版,参照教育部高等学校物理基础课程教学指导分委员会制定的《理工科类大学物理课程教学基本要求》(2010年版),依据我国大学生的学习基础和教学大纲的知识点要求改编。

西尔斯当代大学物理简明教程(英文改编版 原书第13版) 内容简介

本书基于SEARS AND ZEMANSKY’S UNIVERSITY PHYSICS WITH MODERN PHYSICS,13E(《西尔斯当代大学物理》原书第13版),参照教育部高等学校物理基础课程教学指导分委员会制定的《理工科类大学物理课程教学基本要求》(2010年版),依据我国大学生的学习基础和教学大纲的知识点要求改编。本书涵盖了上述教学基本要求中的所有A类知识点,主要内容有力学、热学、电磁学、波动光学、相对论和量子物理。本书的特点是,在改编过程中对内容和习题进行了精选,不仅接近继承了原书的特色,还在行文上接近保留了原版教材原汁原味的表述,其内容和阅读量更适合中国理工科类相关专业作为双语教学的教材,同时可供社会读者阅读。

西尔斯当代大学物理简明教程(英文改编版 原书第13版) 目录

前言
1 VECTORS1
1.1 Vectors and Vector Addition1
1.2 Components of Vectors3
1.3 Unit Vectors4
1.4 Products of Vectors5
SUMMARY7
EXERCISES8
2 MOTION9
2.1 Position and Velocity Vectors9
2.2 The Acceleration Vector12
2.3 Motion with Constant Acceleration14
2.4 Velocity and Position by Integration16
2.5 Projectile Motion and Motion in a Circle18
2.6 Relative Velocity21
SUMMARY24
EXERCISES26
3 NEWTON’S LAWS OF MOTION27
3.1 Force and Interactions27
3.2 Newton’s Law28
3.3 Mass and Weight30
3.4 Free-Body Diagrams32
SUMMARY33
EXERCISES34
4 APPLYING NEWTON’S LAWS35
4.1 Using Newton’s Laws35
4.2 Dynamics of Circular Motion39
4.3 The Fundamental Forces of Nature41
SUMMARY43
EXERCISES44
5 WORK AND KINETIC ENERGY45
5.1 Work45
5.2 Work and Energy with Varying Forces48
5.3 Power52
SUMMARY54
EXERCISES55
6 POTENTIAL ENERGY AND ENERGY
CONSERVATION57
6.1 Gravitational Potential Energy 57
6.2 Elastic Potential Energy62
6.3 Conservative and Nonconservative Forces64
6.4 Force and Potential Energy66
6.5 Energy Diagrams69
6.6 The Motion of Satellites70
SUMMARY73
EXERCISES75
7 MOMENTUM, IMPULSE, AND
COLLISIONS77
7.1 Momentum and Impulse77
7.2 Conservation of Momentum81
7.3 Momentum Conservation and Collisions83
7.4 Elastic Collisions87
7.5 Center of Mass89
7.6 Rocket Propulsion93
SUMMARY95
EXERCISES97
8 ROTATION OF RIGID BODIES99
8.1 Angular Velocity and Acceleration99
8.2 Relating Linear and Angular Kinematics103
8.3 Energy in Rotational Motion106
8.4 Parallel-Axis Theorem111
8.5 Moment-of-Inertia Calculations112
SUMMARY114
EXERCISES115
9 DYNAMICS OF ROTATIONAL
MOTION117
9.1 Torque117
9.2 Torque and Angular Acceleration for a
Rigid Body119
9.3 Work and Power in Rotational Motion122
9.4 Angular Momentum124
9.5 Conservation of Angular Momentum127
9.6 Gyroscopes and Precession130
SUMMARY133
EXERCISES134
10 PERIODIC MOTION137
10.1 Describing Oscillation137
10.2 Simple Harmonic Motion139
10.3 Energy in Simple Harmonic Motion146
10.4 Vertical SHM148
10.5 The Simple Pendulum150
10.6 The Physical Pendulum151
10.7 Damped Oscillations152
10.8 Forced Oscillations and Resonance153
SUMMARY155
EXERCISES156
11 MECHANICAL WAVES159
11.1 Types of Mechanical Waves159
11.2 Periodic Waves160
11.3 Mathematical Description of a Wave163
11.4 Speed of a Transverse Wave168
11.5 Energy in Wave Motion169
11.6 Wave Interference, Boundary Conditions, and Superposition171
11.7 Standing Waves on a String174
11.8 Normal Modes of a String178
11.9 Sound Wates and Sound Intensity180
11.10 The Doppler Effect181
11.11 Shock Waves184
SUMMARY185
EXERCISES187
12 TEMPERATURE, HEAT AND THERMAL
PROPERTIES OF MATTER189
12.1 Temperature and Thermal Equilibrium189
12.2 Thermometers and Temperature Scales190
12.3 Gas Thermometers and the Kelvin Scale190
12.4 Quantity of Heat190
12.5 Equations of State192
12.6 Molecular Properties of Matter193
12.7 Kinetic-Molecular Model of an Ideal Gas194
12.8 Heat Capacities199
12.9 Molecular Speeds201
SUMMARY203
EXERCISES204
13 THE FIRST LAW OF THERMODY
NAMICS207
13.1 Thermodynamic Systems207
13.2 Work Done During Volume Changes208
13.3 Paths Between Thermodynamic States209
13.4 Internal Energy and the First Law
of Thermodynamics210
13.5 Kinds of Thermodynamic Processes214
13.6 Internal Energy of an Ideal Gas215
13.7 Heat Capacities of an Ideal Gas216
13.8 Adiabatic Processes for an Ideal Gas219
SUMMARY221
EXERCISES222
14 THE SECOND LAW OF
THERMODYNAMICS225
14.1 Directions of Thermodynamic Processes225
14.2 Heat Engines226
14.3 Internal-Combustion Engines228
14.4 Refrigerators230
14.5 The Second Law of Thermodynamics232
14.6 The Carnot Cycle233
14.7 Entropy236
14.8 Microscopic Interpretation of Entropy240
SUMMARY241
EXERCISES243
15 ELECTRIC CHARGE AND ELECTRIC
FIELD245
15.1 Electric Charge245
15.2 Conductors, Insulators, and
Induced Charges246
15.3 Coulomb’s Law247
15.4 Electric Field and Calculations248
15.5 Electric Field Lines254
15.6 Electric Dipoles255
SUMMARY256
EXERCISES257

西尔斯当代大学物理简明教程(英文改编版 原书第13版) 作者简介

休 ・ D.杨 罗杰 ・ A.弗里德曼 A.路易斯 ・ 福特

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