Physics for Scientists & Engineers, Chapters 1-37, 4th Edition

基本信息出版社:Prentice Hall; 4 (2007年12月20日)精装:1104页正文语种:英语ISBN:0132275597条形码:9780132275590商品尺寸:28.5 x 22.1 x 3.9 cm商品重量:2.4 KgASIN:0132275597商品描述内容简介Key Message:This book aims to explain physics in a readable and interesting manner that is accessible and clear, and to teach readers by anticipating their needs and difficulties without oversimplifying. Physics is a description of reality, and thus each topic begins with concrete observations and experiences that readers can directly relate to. We then move on to the generalizations and more formal treatment of the topic. Not only does this make the material more interesting and easier to understand, but it is closer to the way physics is actually practiced.

Key Topics:

INTRODUCTION, MEASUREMENT, ESTIMATING, DESCRIBING MOTION: KINEMATICS IN ONE DIMENSION, KINEMATICS IN TWO OR THREE DIMENSIONS; VECTORS, DYNAMICS: NEWTON’S LAWS OF MOTION , USING NEWTON’S LAWS: FRICTION, CIRCULAR MOTION, DRAG FORCES , GRAVITATION AND NEWTON’S6 SYNTHESIS , WORK AND ENERGY , CONSERVATION OF ENERGY , LINEAR MOMENTUM , ROTATIONAL MOTION , ANGULAR MOMENTUM; GENERAL ROTATION , STATIC EQUILIBRIUM; ELASTICITY AND FRACTURE , FLUIDS , OSCILLATIONS , WAVE MOTION, SOUND , TEMPERATURE, THERMAL EXPANSION, AND THE IDEAL GAS LAW

KINETIC THEORY OF GASES , HEAT AND THE FIRST LAW OF THERMODYNAMICS , SECOND LAW OF THERMODYNAMICS

ELECTRIC CHARGE AND ELECTRIC FIELD, GAUSS’S LAW , ELECTRIC POTENTIAL , CAPACITANCE, DIELECTRICS, ELECTRIC ENERGY STORAGE , ELECTRIC CURRENTS AND RESISTANCE , DC CIRCUITS, MAGNETISM, SOURCES OF MAGNETIC FIELD, ELECTROMAGNETIC INDUCTION AND FARADAY’S LAW, INDUCTANCE, ELECTROMAGNETIC OSCILLATIONS, AND AC CIRCUITS

MAXWELL’S EQUATIONS AND ELECTROMAGNETIC WAVES, LIGHT: REFLECTION AND REFRACTION, LENSES AND OPTICAL INSTRUMENTS, THE WAVE NATURE OF LIGHT; INTERFERENCE, DIFFRACTION AND POLARIZATION, SPECIAL THEORY OF RELATIVITY

EARLY QUANTUM THEORY AND MODELS OF THE ATOM

Market Description:This book is written for readers interested in learning the basics of physics.

目录

CONTENTS OF VOLUME 1

APPLICATIONS LIST xii

PREFACE xiv

AVAILABLE SUPPLEMENTS AND MEDIA xxii

NOTES TO STUDENTS (AND INSTRUCTORS) ON THE FORMAT xxiv

COLOR USE: VECTORS, FIELDS, AND SYMBOLS xxv

CHAPTER1: INTRODUCTION, MEASUREMENT, ESTIMATING

1—1 The Nature of Science

1—2 Models, Theories, and Laws

1—3 Measurement and Uncertainty; Significant Figures

1—4 Units, Standards, and the SI System

1—5 Converting Units

1—6 Order of Magnitude: Rapid Estimating

*1—7 Dimensions and Dimensional Analysis

SUMMARY

QUESTIONS

PROBLEMS

GENERAL PROBLEMS

CHAPTER 2: DESCRIBING MOTION: KINEMATICS IN ONE DIMENSION

2—1 Reference Frames and Displacement

2—2 Average Velocity

2—3 Instantaneous Velocity

2—4 Acceleration

2—5 Motion at Constant Acceleration

2—6 Solving Problems

2—7 Freely Falling Objects

*2—8 Variable Acceleration; Integral Calculus

*2—9 Graphical Analysis and Numerical Integration

SUMMARY

QUESTIONS

PROBLEMS

GENERAL PROBLEMS

CHAPTER 3: KINEMATICS IN TWO OR THREE DIMENSIONS; VECTORS

3—1 Vectors and Scalars

3—2 Addition of Vectors–Graphical Methods

3—3 Subtraction of Vectors, and Multiplication of a Vector by a Scalar

3—4 Adding Vectors by Components

3—5 Unit Vectors

3—6 Vector Kinematics

3—7 Projectile Motion

3—8 Solving Problems Involving Projectile Motion

3—9 Relative Velocity

SUMMARY

QUESTIONS

PROBLEMS

GENERAL PROBLEMS

CHAPTER 4: DYNAMICS: NEWTON’S LAWS OF MOTION

4—1 Force

4—2 Newton’s First Law of Motion

4—3 Mass

4—4 Newton’s Second Law of Motion

4—5 Newton’s Third Law of Motion

4—6 Weight–the Force of Gravity; and the Normal Force

4—7 Solving Problems with Newton’s Laws: Free-Body Diagrams

4—8 Problem Solving–A General Approach

SUMMARY

QUESTIONS

PROBLEMS

GENERAL PROBLEMS

CHAPTER 5: USING NEWTON’S LAWS: FRICTION, CIRCULAR MOTION, DRAG FORCES

5—1 Applications of Newton’s Laws Involving Friction

5—2 Uniform Circular Motion–Kinematics

5—3 Dynamics of Uniform Circular Motion

5—4 Highway Curves: Banked and Unbanked

*5—5 Nonuniform Circular Motion

*5—6 Velocity-Dependent Forces: Drag and Terminal Velocity

SUMMARY

QUESTIONS

PROBLEMS

GENERAL PROBLEMS

CHAPTER 6: GRAVITATION AND NEWTON’S6 SYNTHESIS

6—1 Newton’s Law of Universal Gravitation

6—2 Vector Form of Newton’s Law of Universal Gravitation

6—3 Gravity Near the Earth’s Surface; Geophysical Applications

6—4 Satellites and “Weightlessness”

6—5 Kepler’s Laws and Newton’s Synthesis

*6—6 Gravitational Field

6—7 Types of Forces in Nature

*6—8 Principle of Equivalence; Curvature of Space; Black Holes

SUMMARY

QUESTIONS

PROBLEMS

GENERAL PROBLEMS

CHAPTER 7: WORK AND ENERGY

7—1 Work Done by a Constant Force

7—2 Scalar Product of Two Vectors

7—3 Work Done by a Varying Force

7—4 Kinetic Energy and the Work-Energy Principle

SUMMARY

QUESTIONS

PROBLEMS

GENERAL PROBLEMS

CHAPTER 8: CONSERVATION OF ENERGY

8—1 Conservative and Nonconservative Forces

8—2 Potential Energy

8—3 Mechanical Energy and Its Conservation

8—4 Problem Solving Using Conservation of Mechanical Energy

8—5 The Law of Conservation of Energy

8—6 Energy Conservation with Dissipative Forces: Solving Problems

8—7 Gravitational Potential Energy and Escape Velocity

8—8 Power

*8—9 Potential Energy Diagrams; Stable and Unstable Equilibrium

SUMMARY

QUESTIONS

PROBLEMS

GENERAL PROBLEMS

CHAPTER 9: LINEAR MOMENTUM

9—1 Momentum and Its Relation to Force

9—2 Conservation of Momentum

9—3 Collisions and Impulse

9—4 Conservation of Energy and Momentum in Collisions

9—5 Elastic Collisions in One Dimension

9—6 Inelastic Collisions

9—7 Collisions in Two or Three Dimensions

9—8 Center of Mass (CM)

9—9 Center of Mass and Translational Motion

*9—10 Systems of Variable Mass; Rocket Propulsion

SUMMARY

QUESTIONS

PROBLEMS

GENERAL PROBLEMS

CHAPTER 10: ROTATIONAL MOTION

10—1 Angular Quantities

10—2 Vector Nature of Angular Quantities

10—3 Constant Angular Acceleration

10—4 Torque

10—5 Rotational Dynamics; Torque and Rotational Inertia

10—6 Solving Problems in Rotational Dynamics

10—7 Determining Moments of Inertia

10—8 Rotational Kinetic Energy

10—9 Rotational Plus Translational Motion; Rolling

*10—10 Why Does a Rolling Sphere Slow Down?

SUMMARY

QUESTIONS

PROBLEMS

GENERAL PROBLEMS

CHAPTER 11: ANGULAR MOMENTUM; GENERAL ROTATION

11—1 Angular Momentum–Object Rotating About a Fixed Axis

11—2 Vector Cross Product; Torque as a Vector

11—3 Angular Momentum of a Particle

11—4 Angular Momentum and Torque for a System of Particles; General Motion

11—5 Angular Momentum and Torque for a Rigid Object

11—6 Conservation of Angular Momentum

*11—7 The Spinning Top and Gyroscope

*11—8 Rotating Frames of Reference; Inertial Forces

*11—9 The Coriolis Effect