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Mathematics & Science
College Physics
SERWAY, VULLE 지음 | 2011
| ISBN | 9781111427450 |
|---|---|
| Author | SERWAY, VULLE |
| Copyright | 2011 |
| Edition | 9e |
| Page | 1120쪽 |
| Bookseller |
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PART 1 | Mechanics
CHAPTER 1 Introduction 1
1.1 Standards of Length, Mass, and Time 1
1.2 The Building Blocks of Matter 4
1.3 Dimensional Analysis 5
1.4 Uncertainty in Measurement and Significant Figures 7
1.5 Conversion of Units 10
1.6 Estimates and Order-of-Magnitude Calculations 12
1.7 Coordinate Systems 14
1.8 Trigonometry 15
1.9 Problem-Solving Strategy 17
Summary 18
CHAPTER 2 Motion in One Dimension 25
2.1 Displacement 26
2.2 Velocity 27
2.3 Acceleration 33
2.4 Motion Diagrams 35
2.5 One-Dimensional Motion with Constant Acceleration 36
2.6 Freely Falling Objects 43
Summary 47
CHAPTER 3 Vectors and Two-Dimensional
Motion 56
3.1 Vectors and Their Properties 56
3.2 Components of a Vector 58
3.3 Displacement, Velocity, and Acceleration in Two Dimensions 62
3.4 Motion in Two Dimensions 63
3.5 Relative Velocity 71
Summary 75
CHAPTER 4 The Laws of Motion 86
4.1 Forces 87
4.2 Newton’s First Law 88
4.3 Newton’s Second Law 89
4.4 Newton’s Third Law 95
4.5 Applications of Newton’s Laws 98
4.6 Forces of Friction 105
Summary 112
CHAPTER 5 Energy 124
5.1 Work 124
5.2 Kinetic Energy and the Work–Energy Theorem 129
5.3 Gravitational Potential Energy 132
5.4 Spring Potential Energy 140
5.5 Systems and Energy Conservation 145
5.6 Power 147
5.7 Work Done by a Varying Force 152
Summary 154
CHAPTER 6 Momentum and Collisions 167
6.1 Momentum and Impulse 167
6.2 Conservation of Momentum 172
6.3 Collisions 175
6.4 Glancing Collisions 182
6.5 Rocket Propulsion 184
Summary 187
CHAPTER 7 Rotational Motion and the Law of Gravity 198
7.1 Angular Speed and Angular Acceleration 198
7.2 Rotational Motion Under Constant Angular Acceleration 202
7.3 Relations Between Angular
and Linear Quantities 203
7.4 Centripetal Acceleration 207
7.5 Newtonian Gravitation 214
7.6 Kepler’s Laws 221
Summary 224
CHAPTER 8 Rotational Equilibrium and Rotational Dynamics 235
8.1 Torque 236
8.2 Torque and the Two Conditions for Equilibrium 240
8.3 The Center of Gravity 241
8.4 Examples of Objects in Equilibrium 244
8.5 Relationship Between Torque and Angular Acceleration 247
8.6 Rotational Kinetic Energy 254
8.7 Angular Momentum 257
Summary 261
CHAPTER 9 Solids and Fluids 277
9.1 States of Matter 277
9.2 Density and Pressure 279
9.3 The Deformation of Solids 282
9.4 Variation of Pressure with Depth 288
9.5 Pressure Measurements 292
9.6 Buoyant Forces and Archimedes’ Principle 293
9.7 Fluids in Motion 299
9.8 Other Applications of Fluid Dynamics 305
9.9 Surface Tension, Capillary Action, and Viscous Fluid Flow 308
9.10 Transport Phenomena 315
Summary 319
PART 2 | Thermodynamics
CHAPTER 10 Thermal Physics 331
10.1 Temperature and the Zeroth Law of Thermodynamics 332
10.2 Thermometers and Temperature Scales 333
10.3 Thermal Expansion of Solids and Liquids 337
10.4 Macroscopic Description of an Ideal Gas 343
10.5 The Kinetic Theory of Gases 348
Summary 354
CHAPTER 11 Energy in Thermal Processes 362
11.1 Heat and Internal Energy 362
11.2 Specific Heat 365
11.3 Calorimetry 367
11.4 Latent Heat and Phase Change 369
11.5 Energy Transfer 375
11.6 Global Warming and Greenhouse Gases 385
Summary 386
CHAPTER 12 The Laws of Thermodynamics 395
12.1 Work in Thermodynamic Processes 395
12.2 The First Law of Thermodynamics 398
12.3 Thermal Processes 401
12.4 Heat Engines and the Second Law of Thermodynamics 410
12.5 Entropy 418
12.6 Human Metabolism 424
Summary 427
PART 3 | Vibrations and Waves
CHAPTER 13 Vibrations and Waves 437
13.1 Hooke’s Law 437
13.2 Elastic Potential Energy 441
13.3 Comparing Simple Harmonic Motion with Uniform Circular Motion 445
13.4 Position, Velocity, and Acceleration as a Function of Time 449
13.5 Motion of a Pendulum 451
13.6 Damped Oscillations 454
13.7 Waves 455
13.8 Frequency, Amplitude, and Wavelength 458
13.9 The Speed of Waves on Strings 459
13.10 Interference of Waves 461
13.11 Reflection of Waves 462
Summary 463
CHAPTER 14 Sound 473
14.1 Producing a Sound Wave 473
14.2 Characteristics of Sound Waves 474
14.3 The Speed of Sound 476
14.4 Energy and Intensity of Sound Waves 478
14.5 Spherical and Plane Waves 481
14.6 The Doppler Effect 482
14.7 Interference of Sound Waves 488
14.8 Standing Waves 489
14.9 Forced Vibrations and Resonance 494
14.10 Standing Waves in Air Columns 495
14.11 Beats 499
14.12 Quality of Sound 500
14.13 The Ear 502
Summary 503
PART 4 | Electricity and Magnetism
CHAPTER 15 Electric Forces and Electric Fields 513
15.1 Properties of Electric Charges 514
15.2 Insulators and Conductors 515
15.3 Coulomb’s Law 517
15.4 The Electric Field 522
15.5 Electric Field Lines 526
15.6 Conductors in Electrostatic Equilibrium 529
15.7 The Millikan Oil-Drop Experiment 531
15.8 The Van de Graaff Generator 532
15.9 Electric Flux and Gauss’s Law 533
Summary 539
CHAPTER 16 Electrical Energy and Capacitance 548
16.1 Potential Difference and Electric Potential 548
16.2 Electric Potential and Potential Energy Due to Point Charges 555
16.3 Potentials and Charged Conductors 558
16.4 Equipotential Surfaces 559
16.5 Applications 560
16.6 Capacitance 562
16.7 The Parallel-Plate Capacitor 563
16.8 Combinations of Capacitors 565
16.9 Energy Stored in a Charged Capacitor 571
16.10 Capacitors with Dielectrics 573
Summary 579
CHAPTER 17 Current and Resistance 590
17.1 Electric Current 590
17.2 A Microscopic View: Current and Drift Speed 593
17.3 Current and Voltage Measurements In Circuits 595
17.4 Resistance, Resistivity, and Ohm’s Law 596
17.5 Temperature Variation of Resistance 599
17.6 Electrical Energy and Power 601
17.7 Superconductors 604
17.8 Electrical Activity in the Heart 605
Summary 608
CHAPTER 18 Direct-Current Circuits 616
18.1 Sources of emf 616
18.2 Resistors in Series 617
18.3 Resistors in Parallel 620
18.4 Kirchhoff’s Rules and Complex DC Circuits 625
18.5 RC Circuits 629
18.6 Household Circuits 633
18.7 Electrical Safety 634
18.8 Conduction of Electrical Signals by Neurons 635
Summary 638
CHAPTER 19 Magnetism 648
19.1 Magnets 648
19.2 Earth’s Magnetic Field 650
19.3 Magnetic Fields 652
19.4 Magnetic Force on a Current-Carrying Conductor 655
19.5 Torque on a Current Loop and Electric Motors 658
19.6 Motion of a Charged Particle in a Magnetic Field 661
19.7 Magnetic Field of a Long, Straight Wire and Ampère’s Law 664
19.8 Magnetic Force Between Two Parallel Conductors 667
19.9 Magnetic Fields of Current Loops and Solenoids 669
19.10 Magnetic Domains 673
Summary 675
CHAPTER 20 Induced Voltages and Inductance 688
20.1 Induced emf and Magnetic Flux 688
20.2 Faraday’s Law of Induction and Lenz’s Law 691
20.3 Motional emf 697
20.4 Generators 701
20.5 Self-Inductance 705
20.6 RL Circuits 707
20.7 Energy Stored in a Magnetic Field 711
Summary 712
CHAPTER 21 Alternating-Current Circuits and Electromagnetic Waves 723
21.1 Resistors in an AC Circuit 723
21.2 Capacitors in an AC Circuit 727
21.3 Inductors in an AC Circuit 728
21.4 The RLC Series Circuit 730
21.5 Power in an AC Circuit 734
21.6 Resonance in a Series RLC Circuit 735
21.7 The Transformer 737
21.8 Maxwell
CHAPTER 1 Introduction 1
1.1 Standards of Length, Mass, and Time 1
1.2 The Building Blocks of Matter 4
1.3 Dimensional Analysis 5
1.4 Uncertainty in Measurement and Significant Figures 7
1.5 Conversion of Units 10
1.6 Estimates and Order-of-Magnitude Calculations 12
1.7 Coordinate Systems 14
1.8 Trigonometry 15
1.9 Problem-Solving Strategy 17
Summary 18
CHAPTER 2 Motion in One Dimension 25
2.1 Displacement 26
2.2 Velocity 27
2.3 Acceleration 33
2.4 Motion Diagrams 35
2.5 One-Dimensional Motion with Constant Acceleration 36
2.6 Freely Falling Objects 43
Summary 47
CHAPTER 3 Vectors and Two-Dimensional
Motion 56
3.1 Vectors and Their Properties 56
3.2 Components of a Vector 58
3.3 Displacement, Velocity, and Acceleration in Two Dimensions 62
3.4 Motion in Two Dimensions 63
3.5 Relative Velocity 71
Summary 75
CHAPTER 4 The Laws of Motion 86
4.1 Forces 87
4.2 Newton’s First Law 88
4.3 Newton’s Second Law 89
4.4 Newton’s Third Law 95
4.5 Applications of Newton’s Laws 98
4.6 Forces of Friction 105
Summary 112
CHAPTER 5 Energy 124
5.1 Work 124
5.2 Kinetic Energy and the Work–Energy Theorem 129
5.3 Gravitational Potential Energy 132
5.4 Spring Potential Energy 140
5.5 Systems and Energy Conservation 145
5.6 Power 147
5.7 Work Done by a Varying Force 152
Summary 154
CHAPTER 6 Momentum and Collisions 167
6.1 Momentum and Impulse 167
6.2 Conservation of Momentum 172
6.3 Collisions 175
6.4 Glancing Collisions 182
6.5 Rocket Propulsion 184
Summary 187
CHAPTER 7 Rotational Motion and the Law of Gravity 198
7.1 Angular Speed and Angular Acceleration 198
7.2 Rotational Motion Under Constant Angular Acceleration 202
7.3 Relations Between Angular
and Linear Quantities 203
7.4 Centripetal Acceleration 207
7.5 Newtonian Gravitation 214
7.6 Kepler’s Laws 221
Summary 224
CHAPTER 8 Rotational Equilibrium and Rotational Dynamics 235
8.1 Torque 236
8.2 Torque and the Two Conditions for Equilibrium 240
8.3 The Center of Gravity 241
8.4 Examples of Objects in Equilibrium 244
8.5 Relationship Between Torque and Angular Acceleration 247
8.6 Rotational Kinetic Energy 254
8.7 Angular Momentum 257
Summary 261
CHAPTER 9 Solids and Fluids 277
9.1 States of Matter 277
9.2 Density and Pressure 279
9.3 The Deformation of Solids 282
9.4 Variation of Pressure with Depth 288
9.5 Pressure Measurements 292
9.6 Buoyant Forces and Archimedes’ Principle 293
9.7 Fluids in Motion 299
9.8 Other Applications of Fluid Dynamics 305
9.9 Surface Tension, Capillary Action, and Viscous Fluid Flow 308
9.10 Transport Phenomena 315
Summary 319
PART 2 | Thermodynamics
CHAPTER 10 Thermal Physics 331
10.1 Temperature and the Zeroth Law of Thermodynamics 332
10.2 Thermometers and Temperature Scales 333
10.3 Thermal Expansion of Solids and Liquids 337
10.4 Macroscopic Description of an Ideal Gas 343
10.5 The Kinetic Theory of Gases 348
Summary 354
CHAPTER 11 Energy in Thermal Processes 362
11.1 Heat and Internal Energy 362
11.2 Specific Heat 365
11.3 Calorimetry 367
11.4 Latent Heat and Phase Change 369
11.5 Energy Transfer 375
11.6 Global Warming and Greenhouse Gases 385
Summary 386
CHAPTER 12 The Laws of Thermodynamics 395
12.1 Work in Thermodynamic Processes 395
12.2 The First Law of Thermodynamics 398
12.3 Thermal Processes 401
12.4 Heat Engines and the Second Law of Thermodynamics 410
12.5 Entropy 418
12.6 Human Metabolism 424
Summary 427
PART 3 | Vibrations and Waves
CHAPTER 13 Vibrations and Waves 437
13.1 Hooke’s Law 437
13.2 Elastic Potential Energy 441
13.3 Comparing Simple Harmonic Motion with Uniform Circular Motion 445
13.4 Position, Velocity, and Acceleration as a Function of Time 449
13.5 Motion of a Pendulum 451
13.6 Damped Oscillations 454
13.7 Waves 455
13.8 Frequency, Amplitude, and Wavelength 458
13.9 The Speed of Waves on Strings 459
13.10 Interference of Waves 461
13.11 Reflection of Waves 462
Summary 463
CHAPTER 14 Sound 473
14.1 Producing a Sound Wave 473
14.2 Characteristics of Sound Waves 474
14.3 The Speed of Sound 476
14.4 Energy and Intensity of Sound Waves 478
14.5 Spherical and Plane Waves 481
14.6 The Doppler Effect 482
14.7 Interference of Sound Waves 488
14.8 Standing Waves 489
14.9 Forced Vibrations and Resonance 494
14.10 Standing Waves in Air Columns 495
14.11 Beats 499
14.12 Quality of Sound 500
14.13 The Ear 502
Summary 503
PART 4 | Electricity and Magnetism
CHAPTER 15 Electric Forces and Electric Fields 513
15.1 Properties of Electric Charges 514
15.2 Insulators and Conductors 515
15.3 Coulomb’s Law 517
15.4 The Electric Field 522
15.5 Electric Field Lines 526
15.6 Conductors in Electrostatic Equilibrium 529
15.7 The Millikan Oil-Drop Experiment 531
15.8 The Van de Graaff Generator 532
15.9 Electric Flux and Gauss’s Law 533
Summary 539
CHAPTER 16 Electrical Energy and Capacitance 548
16.1 Potential Difference and Electric Potential 548
16.2 Electric Potential and Potential Energy Due to Point Charges 555
16.3 Potentials and Charged Conductors 558
16.4 Equipotential Surfaces 559
16.5 Applications 560
16.6 Capacitance 562
16.7 The Parallel-Plate Capacitor 563
16.8 Combinations of Capacitors 565
16.9 Energy Stored in a Charged Capacitor 571
16.10 Capacitors with Dielectrics 573
Summary 579
CHAPTER 17 Current and Resistance 590
17.1 Electric Current 590
17.2 A Microscopic View: Current and Drift Speed 593
17.3 Current and Voltage Measurements In Circuits 595
17.4 Resistance, Resistivity, and Ohm’s Law 596
17.5 Temperature Variation of Resistance 599
17.6 Electrical Energy and Power 601
17.7 Superconductors 604
17.8 Electrical Activity in the Heart 605
Summary 608
CHAPTER 18 Direct-Current Circuits 616
18.1 Sources of emf 616
18.2 Resistors in Series 617
18.3 Resistors in Parallel 620
18.4 Kirchhoff’s Rules and Complex DC Circuits 625
18.5 RC Circuits 629
18.6 Household Circuits 633
18.7 Electrical Safety 634
18.8 Conduction of Electrical Signals by Neurons 635
Summary 638
CHAPTER 19 Magnetism 648
19.1 Magnets 648
19.2 Earth’s Magnetic Field 650
19.3 Magnetic Fields 652
19.4 Magnetic Force on a Current-Carrying Conductor 655
19.5 Torque on a Current Loop and Electric Motors 658
19.6 Motion of a Charged Particle in a Magnetic Field 661
19.7 Magnetic Field of a Long, Straight Wire and Ampère’s Law 664
19.8 Magnetic Force Between Two Parallel Conductors 667
19.9 Magnetic Fields of Current Loops and Solenoids 669
19.10 Magnetic Domains 673
Summary 675
CHAPTER 20 Induced Voltages and Inductance 688
20.1 Induced emf and Magnetic Flux 688
20.2 Faraday’s Law of Induction and Lenz’s Law 691
20.3 Motional emf 697
20.4 Generators 701
20.5 Self-Inductance 705
20.6 RL Circuits 707
20.7 Energy Stored in a Magnetic Field 711
Summary 712
CHAPTER 21 Alternating-Current Circuits and Electromagnetic Waves 723
21.1 Resistors in an AC Circuit 723
21.2 Capacitors in an AC Circuit 727
21.3 Inductors in an AC Circuit 728
21.4 The RLC Series Circuit 730
21.5 Power in an AC Circuit 734
21.6 Resonance in a Series RLC Circuit 735
21.7 The Transformer 737
21.8 Maxwell