| Preface1 PHYSICAL QUANTITIES AND VECTORS1.1 The Nature of Physics1.2 Idealized Models1.3 Standards and Units1.4 Uncertainty and Significant Figures1.5 Vectors and Scalars1.6 Vector Algebra1.7 Unit Vectors and Component ExpressionAnswer to Chapter Opening QuestionExercises2 KINEMATICS2.1 Particle Kinematics2.2 Position Vector and Displacement 2.3 Velocity and Acceleration2.4 Rectilinear Motion2.5 Two Fundamental Problems in Kinematics2.6 Relative MotionAnswer to Chapter Opening QuestionExercises3 DYNAMICS3.1 Particle Dynamics3.2 Newton' s Laws3.3 Understanding Forces3.4 Dynamics of Circular Motion3.5 Non-inertial Frame and Inertial ForcesAnswer to Chapter Opening QuestionExercises4 WORK AND ENERGY4.1 Kinetic Energy and Work4.2 Calculating the Work4.3 Path Independence of Conservative Forces4.4 Potential Energy4.5 Conservation of Mechanical Energy4.6 Find the Conservative Force from Potential EnergyAnswer to Chapter Opening QuestionExercises5 MOMENTUM AND IMPULSE5.1 Definition of Momentum5.2 Conservation of Momentum5.3 Impulse5.4 Collisions5.5 Center of Mass5.6 Rocket Propulsion5.7 Problem-Solving Strategy ISEEAnswer to Chapter Opening QuestionExercises6 ROTATION OF RIGID BODIES6.1 Angular Velocity and Acceleration 6.2 Rotation with Constant Angular Acceleration6.3 Relating Linear and Angular Kinematics6.4 Energy in Rotational Motion6.5 Parallel-Axis Theorem6.6 Moment of Inertia CalculationsAnswer to Chapter Opening QuestionAnswers to Test Your UnderstandingQuestionsExercises7 DYNAMICS OF ROTATIONAL MOTION7.1 Torque7.2 Torque and Angular Acceleration fora Rigid Body7.3 Rigid-Body Rotation About a MovingAxis7.4 Work and Power in RotationalMotion7.5 Angular Momentum7.6 Conservation of Angular Momentum7.7 Gyroscopes and PrecessionAnswer to Chapter Opening QuestionAnswers to Test Your UnderstandingQuestionsExercises8 PERIODIC MOTION8.1 Describing Oscillation8.2 Simple Harmonic Motion8.3 Energy in Simple Harmonic Motion8.4 Applications of Simple Harmonic Motion8.5 The Simple Pendulum8.6 The Physical Pendulum8.7 Damped Oscillations8.8 Forced Oscillations and ResonanceAnswer to Chapter Opening QuestionAnswers to Test Your UnderstandingQuestionsExercises9 MECHANICAL WAVES9.1 Types of Mechanical Waves9.2 Periodic Waves9.3 Mathematical Description of a Wave 9.4 Energy in Wave Motion 9.5 Wave Interference,Boundary Conditions and Superposition9.6 Standing Waves on a String9.7 Normal Modes of a String9.8 Beats9.9 The Doppler EffectAnswer to Chapter Opening QuestionAnswers to Test Your UnderstandingQuestionsExercises10 TEMPERATURE AND HEAT10.1 Temperature and Thermal Equilibrium10.2 Thermometers and Temperature Scales10.3 Gas Thermometers and the Kelvin Scale10.4 Quantity of Heat10.5 Calorimetry and Phase Changes10.6 Mechanisms of Heat TransferAnswer to Chapter Opening QuestionAnswers to Test Your UnderstandingQuestionsExercises11 THERMAL PROPERTIES OF MATTER11.1 Equations of State 11.2 Molecular Properties of Matter11.3 Kinetic-Molecular Model of an Ideal Gas 11.4 Heat Capacities11.5 Molecular SpeedsAnswer to Chapter Opening QuestionAnswers to Test Your UnderstandingOestionsExercises12 THE FIRST LAW OF THERMODYNAMICS12.1 Thermodynamic Systems12.2 Work Done During Volume Changes12.3 Paths Between Thermodynamic States12.4 Internal Enerzv and the First Law of Thermodynamics12.5 Kinds of Thermodynamic Processes12.6 Internal Energy of an Ideal Gas12.7 Heat Capacities of an Ideal Gas12.8 Adiabatic Processes for an Ideal Gas Answer to Chapter Opening QuestionAnswers to Test Your UnderstandingQuestionsExercises13 THE SECOND LAW OF THERMODYNAMICS13.1 Directions of Thermodynamic Processes13.2 Heat Engines13.3 Refrigerators13.4 The Second Law of Thermodynamics13.5 The Carnot Cycle13.6 Entropy13.7 Microscopic Interpretation of EntropyAnswer to Chapter Opening QuestionAnswers to Test Your UnderstandingExercises 14 ELECTRIC CHARGE AND ELECTRIC FIELD14.1 Electric Charge14.2 Conductors,Insulators and Induced Charges14.3 Coulomb' s Law14.4 Electric Field and Electric Forces14.5 Electric Field Calculations14.6 Electric Field Lines14.7 Electric DipolesAnswer to Chapter Opening QuestionAnswers to Test Your UnderstandingQuestionsExercises15 GAUSS' S LAW15.1 Charge and Electric Flux15.2 Calculating Electric Flux15.3 Gauss' s Law15.4 Applications of Gauss' s Law15.5 Charges on ConductorsAnswer to Chapter Opening QuestionAnswers to Test Your UnderstandingQuestionsExercises16 ELECTRIC POTENTIAL16.1 Electric Potential Energy16.2 Electric Potential16.3 Calculating Electric Potential16.4 Equipotential Surfaces16.5 Potential GradientAnswer to Chapter Opening QuestionAnswers to Test Your UnderstandingQuestionsExercises17 CAPACITANCE AND DIELECTRICS17. 1 Capacitors and Capacitance17.2 Energy Storage in Capacitors and Electric-Field Energy17.3 Dielectrics17.4 Molecular Model of Induced Charge17.5 Gauss' s Law In DielectricsAnswer to Chapter Opening QuestionAnswers to Test Your UnderstandingQuestionsExercises18 CURRENT, RESISTANCE AND ELECTROMOTIVE FORCE18.1 Current 18.2 Resistivity18.3 Resistance18.4 Electromotive Force and Internal Resistance18.5 Theory of Metallic ConductionAnswer to Chapter Opening QuestionAnswers to Test Your UnderstandingQuestionsExercisesAPPENDICESAppendix A The International System of UnitsAppendix B Useful Mathematical RelationsAppendix C The Greek AlphabetAppendix D Periodic Table of the ElementsAppendix E Unit Conversion FactorsAppendix F Numerical ConstantsAppendix G Answers to Exercises教学支持信息表(填写本表,获取本书教辅资源) |
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