時代教育·國外高校優秀教材精選:西爾斯當代大學物理(上冊)(英文改編版)(原書第11版) [UNIVERSITY PHYSICS with modern physics(11th Ed.)] pdf epub mobi txt 電子書 下載 2024

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時代教育·國外高校優秀教材精選:西爾斯當代大學物理(上冊)(英文改編版)(原書第11版) [UNIVERSITY PHYSICS with modern physics(11th Ed.)]


[美] 揚,[美] 弗裏德曼 著



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发表于2024-11-23

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齣版社: 機械工業齣版社
ISBN:9787111275336
版次:1
商品編碼:10134099
品牌:機工齣版
包裝:平裝
叢書名: 21世紀普通高等教育基礎課規劃教材
外文名稱:UNIVERSITY PHYSICS with modern physics(11th Ed.)
開本:16開
齣版時間:2009-09-01
用紙:膠版

時代教育·國外高校優秀教材精選:西爾斯當代大學物理(上冊)(英文改編版)(原書第11版) [UNIVERSITY PHYSICS with modern physics(11th Ed.)] epub 下載 mobi 下載 pdf 下載 txt 電子書 下載 2024

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時代教育·國外高校優秀教材精選:西爾斯當代大學物理(上冊)(英文改編版)(原書第11版) [UNIVERSITY PHYSICS with modern physics(11th Ed.)] epub 下載 mobi 下載 pdf 下載 txt 電子書 下載 2024

時代教育·國外高校優秀教材精選:西爾斯當代大學物理(上冊)(英文改編版)(原書第11版) [UNIVERSITY PHYSICS with modern physics(11th Ed.)] pdf epub mobi txt 電子書 下載 2024



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編輯推薦

《西爾斯當代大學物理(上冊·英文改編版)(原書第11版)》配有豐富的教輔資源,索取事宜見書後的“教學支持信息錶”。

內容簡介

本英文改編教材的原書——《西爾斯物理學》是幾代編著者長達半個多世紀物理教育探索與創新的産物,其許多可圈可點的特色在美國乃至世界其他國傢,影響瞭一代又一代的大學師生,是當今世界發行量最大的主流教材之一。
本教材分上下兩冊。《西爾斯當代大學物理(上冊·英文改編版)(原書第11版)》是下冊,主要內容有電磁學、波動光學、近代物理學等。
《西爾斯當代大學物理(上冊·英文改編版)(原書第11版)》既充分體現瞭原書的特色,又在適閤我國國情方麵有瞭新的特點,主要錶現在:對原書取捨得當,篇幅適當,教材內容覆蓋瞭教育部最新教學基本要求建議的75個A類知識點和部分B類知識點;教材95%以上是原書的文字,體現瞭原書教學理念的精華,整個教材體係具有更好的係統性和完整性;內容生動、豐富,圖文並茂,舉例鮮活,趣味性強,聯係實際密切,強調概念理解,注重能力培養;每章的問題引入法、正文探索式的敘述法以及每節的思考題檢測法等多種教學方法並用,將有效調動學生學習的積極性,提高學生學習的效能;所有例題都采用四步解題法:審題(Identify)、破題(Set up)、求解(Excute)和討論(EvaIuate),這種規範、科學的解題方式十分有利於學生形成思維清晰、錶述準確、方法明確的解題習慣,並能逐步獲得較強的解決實際問題的能力;英語行文規範、流暢,原汁原味,代錶瞭當前科技英語文獻的風格,是我國學生學習英文科技寫作的極好範本。
本教材為高等學校理工科各專業學生的大學物理雙語教學專用教材。由於與國內教材有很強的相關對應性,故對於希望瞭解物理知識英文錶述的非雙語教學的師生及其他科技工作者,《西爾斯當代大學物理(上冊·英文改編版)(原書第11版)》也是一本十分有益的參考書。

內頁插圖

目錄

Preface
1 PHYSICAL QUANTITIES AND VECTORS
1.1 The Nature of Physics
1.2 Idealized Models
1.3 Standards and Units
1.4 Uncertainty and Significant Figures
1.5 Vectors and Scalars
1.6 Vector Algebra
1.7 Unit Vectors and Component
Expression
Answer to Chapter Opening Question
Exercises

2 KINEMATICS
2.1 Particle Kinematics
2.2 Position Vector and Displacement
2.3 Velocity and Acceleration
2.4 Rectilinear Motion
2.5 Two Fundamental Problems in Kinematics
2.6 Relative Motion
Answer to Chapter Opening Question
Exercises

3 DYNAMICS
3.1 Particle Dynamics
3.2 Newton s Laws
3.3 Understanding Forces
3.4 Dynamics of Circular Motion
3.5 Non-inertial Frame and Inertial Forces
Answer to Chapter Opening Question
Exercises

4 WORK AND ENERGY
4.1 Kinetic Energy and Work
4.2 Calculating the Work
4.3 Path Independence of Conservative Forces
4.4 Potential Energy
4.5 Conservation of Mechanical Energy
4.6 Find the Conservative Force from Potential Energy
Answer to Chapter Opening Question
Exercises

5 MOMENTUM AND IMPULSE
5.1 Definition of Momentum
5.2 Conservation of Momentum
5.3 Impulse
5.4 Collisions
5.5 Center of Mass
5.6 Rocket Propulsion
5.7 Problem-Solving Strategy ISEE
Answer to Chapter Opening Question
Exercises

6 ROTATION OF RIGID BODIES
6.1 Angular Velocity and Acceleration
6.2 Rotation with Constant Angular Acceleration
6.3 Relating Linear and Angular Kinematics
6.4 Energy in Rotational Motion
6.5 Parallel-Axis Theorem
6.6 Moment of Inertia Calculations
Answer to Chapter Opening Question
Answers to Test Your Understanding
Questions
Exercises

7 DYNAMICS OF ROTATIONAL MOTION
7.1 Torque
7.2 Torque and Angular Acceleration fora Rigid Body
7.3 Rigid-Body Rotation About a MovingAxis
7.4 Work and Power in RotationalMotion
7.5 Angular Momentum
7.6 Conservation of Angular Momentum
7.7 Gyroscopes and Precession
Answer to Chapter Opening Question
Answers to Test Your Understanding
Questions
Exercises

8 PERIODIC MOTION
8.1 Describing Oscillation
8.2 Simple Harmonic Motion
8.3 Energy in Simple Harmonic Motion
8.4 Applications of Simple Harmonic Motion
8.5 The Simple Pendulum
8.6 The Physical Pendulum
8.7 Damped Oscillations
8.8 Forced Oscillations and Resonance
Answer to Chapter Opening Question
Answers to Test Your Understanding
Questions
Exercises

9 MECHANICAL WAVES
9.1 Types of Mechanical Waves
9.2 Periodic Waves
9.3 Mathematical Description of a Wave
9.4 Energy in Wave Motion
9.5 Wave Interference,Boundary Conditions and Superposition
9.6 Standing Waves on a String
9.7 Normal Modes of a String
9.8 Beats
9.9 The Doppler Effect
Answer to Chapter Opening Question
Answers to Test Your Understanding
Questions
Exercises

10 TEMPERATURE AND HEAT
10.1 Temperature and Thermal Equilibrium
10.2 Thermometers and Temperature Scales
10.3 Gas Thermometers and the Kelvin Scale
10.4 Quantity of Heat
10.5 Calorimetry and Phase Changes
10.6 Mechanisms of Heat Transfer
Answer to Chapter Opening Question
Answers to Test Your Understanding
Questions
Exercises

11 THERMAL PROPERTIES OF MATTER
11.1 Equations of State
11.2 Molecular Properties of Matter
11.3 Kinetic-Molecular Model of an Ideal Gas
11.4 Heat Capacities
11.5 Molecular Speeds
Answer to Chapter Opening Question
Answers to Test Your Understanding
Oestions
Exercises

12 THE FIRST LAW OF THERMODYNAMICS
12.1 Thermodynamic Systems
12.2 Work Done During Volume Changes
12.3 Paths Between Thermodynamic States
12.4 Internal Enerzv and the First Law of Thermodynamics
12.5 Kinds of Thermodynamic Processes
12.6 Internal Energy of an Ideal Gas
12.7 Heat Capacities of an Ideal Gas
12.8 Adiabatic Processes for an Ideal Gas
Answer to Chapter Opening Question
Answers to Test Your Understanding
Questions
Exercises

13 THE SECOND LAW OF THERMODYNAMICS
13.1 Directions of Thermodynamic Processes
13.2 Heat Engines
13.3 Refrigerators
13.4 The Second Law of Thermodynamics
13.5 The Carnot Cycle
13.6 Entropy
13.7 Microscopic Interpretation of Entropy
Answer to Chapter Opening Question
Answers to Test Your Understanding
Exercises

14 ELECTRIC CHARGE AND ELECTRIC FIELD
14.1 Electric Charge
14.2 Conductors,Insulators and Induced Charges
14.3 Coulomb s Law
14.4 Electric Field and Electric Forces
14.5 Electric Field Calculations
14.6 Electric Field Lines
14.7 Electric Dipoles
Answer to Chapter Opening Question
Answers to Test Your Understanding
Questions
Exercises

15 GAUSS S LAW
15.1 Charge and Electric Flux
15.2 Calculating Electric Flux
15.3 Gauss s Law
15.4 Applications of Gauss s Law
15.5 Charges on Conductors
Answer to Chapter Opening Question
Answers to Test Your Understanding
Questions
Exercises

16 ELECTRIC POTENTIAL
16.1 Electric Potential Energy
16.2 Electric Potential
16.3 Calculating Electric Potential
16.4 Equipotential Surfaces
16.5 Potential Gradient
Answer to Chapter Opening Question
Answers to Test Your Understanding
Questions
Exercises

17 CAPACITANCE AND DIELECTRICS
17. 1 Capacitors and Capacitance
17.2 Energy Storage in Capacitors and Electric-Field Energy
17.3 Dielectrics
17.4 Molecular Model of Induced Charge
17.5 Gauss s Law In Dielectrics
Answer to Chapter Opening Question
Answers to Test Your Understanding
Questions
Exercises

18 CURRENT, RESISTANCE AND ELECTROMOTIVE FORCE
18.1 Current
18.2 Resistivity
18.3 Resistance
18.4 Electromotive Force and Internal Resistance
18.5 Theory of Metallic Conduction
Answer to Chapter Opening Question
Answers to Test Your Understanding
Questions
Exercises
APPENDICES
Appendix A The International System of Units
Appendix B Useful Mathematical Relations
Appendix C The Greek Alphabet
Appendix D Periodic Table of the Elements
Appendix E Unit Conversion Factors
Appendix F Numerical Constants
Appendix G Answers to Exercises
教學支持信息錶(填寫本錶,獲取本書教輔資源)

精彩書摘

As we learned in Section 1.1, physics is an experimental science. Experiments require meas-urements, and we generally use numbers to describe the results of measurements. Any number thatis used to describe a physical phenomenon quantitatively is called a physical quantity. For exam-ple, two physical quantities that describe you are your weight and your height. Some physical quan-tities are so fundamental that we can define them only by describing how to measure them. Such adefinition is called an operational definition. Some examples are measuring a distance by using aruler, and measuring a time interval by using a stopwatch.In other cases we define a physicalquantity by describing how to calculate it from other quantities that we can measure. Thus we mightdefine the average speed of a moving object as the distance traveled (measured with a ruler) divid-ed by the time of travel (measured with a stopwatch).
When we measure a quantity, we always compare it with some reference standard.Such astandard defines a unit of the quantity. The meter is a unit of distance, and the second is a unit oftime. When we use a number to describe a physical quantity, we must always specify the unit thatwe are using; to describe a distance simply as "4.56"wouldnt mean anything.
To make accurate, reliable measurements, we need units of measurement that do not changeand that can be duplicated by o 時代教育·國外高校優秀教材精選:西爾斯當代大學物理(上冊)(英文改編版)(原書第11版) [UNIVERSITY PHYSICS with modern physics(11th Ed.)] 下載 mobi epub pdf txt 電子書
時代教育·國外高校優秀教材精選:西爾斯當代大學物理(上冊)(英文改編版)(原書第11版) [UNIVERSITY PHYSICS with modern physics(11th Ed.)] pdf epub mobi txt 電子書 下載
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