Physics

Contents Applications in the Text xxi Preface: To the Instructor xxv Preface: To the Student xxxix Guide to Features of the Text xl 1 Introduction to Physics 1 1-1 Physics and the Laws of Nature 2 1-2 Units of Length, Mass, and Time 2 1-3 Dimensional Analysis 4 1-4 Significant Figures 5 1-5 Converting Units 8 1-6 Order-of-Magnitude Calculations 10 1-7 Scalars and Vectors 11 1-8 Problem Solving in Physics 11 Chapter Summary 13 Conceptual Questions 14 Conceptual Exercises 14 Problems 14 PART I MECHANICS 2 One-Dimensional Kinematics 17 2-1 Position, Distance, and Displacement 18 2-2 Average Speed and Velocity 19 2-3 Instantaneous Velocity 23 2-4 Acceleration 25 2-5 Motion with Constant Acceleration 29 2-6 Applications of the Equations of Motion 35 2-7 Freely Falling Objects 37 Chapter Summary 43 Problem-Solving Summary 45 Conceptual Questions 46 Conceptual Exercises 46 Problems 47 3 Vectors in Physics 57 3-1 Scalars Versus Vectors 58 3-2 The Components of a Vector 58 3-3 Adding and Subtracting Vectors 63 3-4 Unit Vectors 66 3-5 Position, Displacement, Velocity, and Acceleration Vectors 67 3-6 Relative Motion 71 Chapter Summary 73 Problem-Solving Summary 74 Conceptual Questions 74 Conceptual Exercises 75 Problems 75 4 Two-Dimensional Kinematics 81 4-1 Motion in Two Dimensions 82 4-2 Projectile Motion: Basic Equations 85 4-3 Zero Launch Angle 86 4-4 General Launch Angle 91 4-5 Projective Motion: Key Characteristics 95 Chapter Summary 99 Problem-Solving Summary 101 Conceptual Questions 101 Conceptual Exercises 102 Problems 103 5 Newton's Laws of Motion 109 5-1 Force and Mass 110 5-2 Newton's First Law of Motion 110 5-3 Newton's Second Law of Motion 112 5-4 Newton's Third Law of Motion 120 5-5 The Vector Nature of Forces: Forces in Two Dimensions 123 5-6 Weight 126 5-7 Normal Forces 130 Chapter Summary 134 Problem-Solving Summary 135 Conceptual Questions 135 Conceptual Exercises 137 Problems 138 6 Applications of Newton's Laws 143 6-1 Frictional Forces 144 6-2 Strings and Springs 152 6-3 Translational Equilibrium 156 6-4 Connected Objects 160 6-5 Circular Motion 164 Chapter Summary 169 Problem-Solving Summary 170 Conceptual Questions 170 Conceptual Exercises 171 Problems 172 7 Work and Kinetic Energy 179 7-1 Work Done by a Constant Force 180 7-2 Kinetic Energy and the Work-Energy Theorem 186 7-3 Work Done by a Variable Force 190 7-4 Power 195 Chapter Summary 197 Problem-Solving Summary 198 Conceptual Questions 199 Conceptual Exercises 199 Problems 200 8 Potential Energy and Conservation of Energy 205 8-1 Conservative and Nonconservative Forces 206 8-2 Potential Energy and the Work Done by Conservative Forces 209 8-3 Conservation of Mechanical Energy 215 8-4 Work Done by Nonconservative Forces 223 8-5 Potential Energy Curves and Equipotentials 228 Chapter Summary 231 Problem-Solving Summary 232 Conceptual Questions 232 Conceptual Exercises 233 Problems 234 9 Linear Momentum and Collisions 241 9-1 Linear Momentum 242 9-2 Momentum and Newton's Second Law 244 9-3 Impulse 245 9-4 Conservation of Linear Momentum 249 9-5 Inelastic Collisions 254 9-6 Elastic Collisions 260 9-7 Center of Mass 265 *9-8 Systems with Changing Mass: Rocket Propulsion 270 Chapter Summary 272 Problem-Solving Summary 274 Conceptual Questions 274 Conceptual Exercises 275 Problems 276 10 Rotational Kinematics and Energy 283 10-1 Angular Position, Velocity, and Acceleration 284 10-2 Rotational Kinematics 288 10-3 Connections Between Linear and Rotational Quantities 291 10-4 Rolling Motion 296 10-5 Rotational Kinetic Energy and the Moment of Inertia 297 10-6 Conservation of Energy 301 Chapter Summary 306 Problem-Solving Summary 308 Conceptual Questions 309 Conceptual Exercises 309 Problems 310 11 Rotational Dynamics and Static Equilibrium 317 11-1 Torque 318 11-2 Torque and Angular Acceleration 321 11-3 Zero Torque and Static Equilibrium 325 11-4 Center of Mass and Balance 332 11-5 Dynamic Applications of Torque 335 11-6 Angular Momentum 337 11-7 Conservation of Angular Momentum 340 11-8 Rotational Work and Power 345 *11-9 The Vector Nature of Rotational Motion 346 Chapter Summary 348 Problem-Solving Summary 350 Conceptual Questions 350 Conceptual Exercises 350 Problems 352 12 Gravity 360 12-1 Newton's Law of Universal Gravitation 361 12-2 Gravitational Attraction of Spherical Bodies 364 12-3 Kepler's Laws of Orbital Motion 369 12-4 Gravitational Potential Energy 376 12-5 Energy Conservation 379 *12-6 Tides 386 Chapter Summary 388 Problem-Solving Summary 390 Conceptual Questions 390 Conceptual Exercises 390 Problems 391 13 Oscillations About Equilibrium 396 13-1 Periodic Motion 397 13-2 Simple Harmonic Motion 398 13-3 Connections Between Uniform Circular Motion and Simple Harmonic Motion 401 13-4 The Period of a Mass on a Spring 407 13-5 Energy Conservation in Oscillatory Motion 411 13-6 The Pendulum 414 13-7 Damped Oscillations 420 13-8 Driven Oscillations and Resonance 421 Chapter Summary 423 Problem-Solving Summary 425 Conceptual Questions 425 Conceptual Exercises 426 Problems 427 14 Waves and Sound 433 14-1 Types of Waves 434 14-2 Waves on a String 436 *14-3 Harmonic Wave Functions 439 14-4 Sound Waves 440 14-5 Sound Intensity 444 14-6 The Doppler Effect 449 14-7 Superposition and Interference 455 14-8 Standing Waves 458 14-9 Beats 466 Chapter Summary 468 Problem-Solving Summary 470 Conceptual Questions 470 Conceptual Exercises 470 Problems 471 15 Fluids 479 15-1 Density 480 15-2 Pressure 480 15-3 Static Equilibrium in Fluids: Pressure and Depth 484 15-4 Archimedes' Principle and Buoyancy 489 15-5 Applications of Archimedes' Principle 491 15-6 Fluid Flow and Continuity 496 15-7 Bernoulli's Equation 498 15-8 Applications of Bernoulli's Equation 501 *15-9 Viscosity and Surface Tension 504 Chapter Summary 507 Problem-Solving Summary 509 Conceptual Questions 509 Conceptual Exercises 510 Problems 511 PART II THERMAL PHYSICS 16 Temperature and Heat 517 16-1 Temperature and the Zeroth Law of Thermodynamics 518 16-2 Temperature Scales 519 16-3 Thermal Expansion 523 16-4 Heat and Mechanical Work 529 16-5 Specific Heats 531 16-6 Conduction, Convection, and Radiation 534 Chapter Summary 542 Problem-Solving Summary 544 Conceptual Questions 544 Conceptual Exercises 545 Problems 546 17 Phases and Phase Changes 551 17-1 Ideal Gases 552 17-2 Kinetic Theory 558 17-3 Solids and Elastic Deformation 563 17-4 Phase Equilibrium and Evaporation 568 17-5 Latent Heats 574 17-6 Phase Changes and Energy Conservation 577 Chapter Summary 579 Problem-Solving Summary 581 Conceptual Questions 581 Conceptual Exercises 582 Problems 582 18 The Laws of Thermodynamics 588 18-1 The Zeroth Law of Thermodynamics 589 18-2 The First Law of Thermodynamics 589 18-3 Thermal Processes 594 18-4 Specific Heats for an Ideal Gas: Constant Pressure, Constant Volume 599 18-5 The Second Law of Thermodynamics 603 18-6 Heat Engines and the Carnot Cycle 603 18-7 Refrigerators, Air Conditioners, and Heat Pumps 607 18-8 Entropy 611 18-9 Order, Disorder, and Entropy 615 18-10 The Third Law of Thermodynamics 617 Chapter Summary 618 Problem-Solving Summary 620 Conceptual Questions 620 Conceptual Exercises 621 Problems 622

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Contents Applications in the Text xxi Preface: To the Instructor xxv Preface: To the Student xxxix Guide to Features of the Text xl PART III ELECTROMAGNETISM 19 Electric Charges, Forces, and Fields 625 19-1 Electric Charge 626 19-2 Insulators and Conductors 629 19-3 Coulomb's Law 630 19-4 The Electric Field 637 19-5 Electric Field Lines 643 19-6 Shielding and Charging by Induction 646 19-7 Electric Flux and Gauss's Law 649 Chapter Summary 653 Problem-Solving Summary 654 Conceptual Questions 655 Conceptual Exercises 655 Problems 657 20 Electric Potential and Electric Potential Energy 662 20-1 Electric Potential Energy and the Electric Potential 663 20-2 Energy Conservation 666 20-3 The Electric Potential of Point Charges 669 20-4 Equipotential Surfaces and the Electric Field 673 20-5 Capacitors and Dielectrics 677 20-6 Electrical Energy Storage 683 Chapter Summary 685 Problem-Solving Summary 687 Conceptual Questions 687 Conceptual Exercises 688 Problems 689 21 Electric Current and Direct-Current Circuits 695 21-1 Electric Current 696 21-2 Resistance and Ohm's Law 702 21-3 Energy and Power in Electric Circuits 705 21-4 Resistors in Series and Parallel 708 21-5 Kirchoff's Rules 714 21-6 Circuits Containing Capacitors 717 21-7 RC Circuits 720 *21-8 Anmeters and Voltmeters 723 Chapter Summary 724 Problem-Solving Summary 726 Conceptual Questions 727 Conceptual Exercises 727 Problems 729 22 Magnetism 735 21-1 The Magnetic Field 736 22-2 The Magnetic Force on Moving Charges 738 22-3 The Motion of Charged Particles in a Magnetic Field 742 22-4 The Magnetic Force Exerted on a Current-Carrying Wire 747 22-5 Loops of Current and Magnetic Torque 749 22-6 Electric Currents, Magnetic Fields, and Ampere's Law 751 22-7 Current Loops and Solenoids 755 22-8 Magnetism in Matter 758 Chapter Summary 760 Problem-Solving Summary 763 Conceptual Questions 763 Conceptual Exercises 763 Problems 765 23 Magnetic Flux and Faraday's Law of Induction 771 23-1 Induced Electromotive Force 772 23-2 Magnetic Flux 773 23-3 Faraday's Law of Induction 775 23-4 Lenz's Law 778 23-5 Mechanical Work and Electrical Energy 781 23-6 Generators and Motors 784 23-7 Inductance 787 23-8 RL Circuits 790 23-9 Energy Stored in a Magnetic Field 791 23-10 Transformers 793 Chapter Summary 796 Problem-Solving Summary 798 Conceptual Questions 798 Conceptual Exercises 799 Problems 800 24 Alternating-Current Circuits 806 24-1 Alternating Voltages and Currents 807 24-2 Capacitors in AC Circuits 812 24-3 RC Circuits 815 24-4 Inductors in AC Circuits 820 24-5 RLC Circuits 823 24-6 Resonance in Electrical Circuits 827 Chapter Summary 832 Problem-Solving Summary 834 Conceptual Questions 834 Conceptual Exercises 864 Problems 835 PART IV LIGHT AND OPTICS 25 Electromagnetic Waves 25-1 The Production of Electromagnetic Waves 25-2 The Propagation of Electromagnetic Waves 25-3 The Electromagnetic Spectrum 25-4 Energy and Momentum in Electromagnetic Waves 25-5 Polarization Chapter Summary 760 Problem-Solving Summary 763 Conceptual Questions 763 Conceptual Exercises 763 Problems 765 26 Geometrical Optics 26-1 The Reflection of Light 26-2 Forming Images with a Plane Mirror 26-3 Spherical Mirrors 26-4 Ray Tracing and the Mirror Equation 26-5 The Refraction of Light 26-6 Ray Tracing for Lenses 26-7 The Thin-Lens Equation 26-8 Dispersion and the Rainbow Chapter Summary 760 Problem-Solving Summary 763 Conceptual Questions 763 Conceptual Exercises 763 Problems 765 27 Optical Instruments 27-1 The Human Eye and the Camera 27-2 Lenses in Combination and Corrective Optics 27-3 The Magnifying Glass 27-4 The Compound Microscope 27-5 Telescopes 27-6 Lens Aberrations Chapter Summary 760 Problem-Solving Summary 763 Conceptual Questions 763 Conceptual Exercises 763 Problems 765 28 Physical Optics: Interference and Diffraction 28-1 Superposition and Interference 28-2 Young's Two-Slit Experiment 28-3 Interference in Reflected Waves 28-4 Diffraction 28-5 Resolution 28-6 Diffraction Gratings Chapter Summary 760 Problem-Solving Summary 763 Conceptual Questions 763 Conceptual Exercises 763 Problems 765 PART V MODERN PHYSICS 29 Relativity 29-1 The Postulates of Special Relativity 29-2 The Relativity of Time and Time Dilation 29-3 The Relativity of Length and Length Contraction 29-4 The Relativistic Addition of Velocities 29-5 Relativistic Momentum 29-6 Relativistic Energy and E = mc2 29-7 The Relativistic Universe 29-8 General Relativity Chapter Summary 760 Problem-Solving Summary 763 Conceptual Questions 763 Conceptual Exercises 763 Problems 765 30 Quantum Physics 30-1 Blackbody Radiation and Planck's Hypothesis of Quantized Energy 30-2 Photons and the Photoelectric Effect 30-3 The Mass and Momentum of a Photos 30-4 Photon Scattering and the Compton Effect 30-5 The de Broglie Hypothesis and Wave-Particle Duality 30-6 The Heisenberg Uncertainty Principle 30-7 Quantum Tunneling Chapter Summary 760 Problem-Solving Summary 763 Conceptual Questions 763 Conceptual Exercises 763 Problems 765 31 Atomic Physics 31-1 Early Models of the Atom 31-2 The Spectrum of Atomic Hydrogen 31-3 Bohr's Model of the Hydrogen Atom 31-4 de Broglie Waves and the Bohr Model 31-5 The Quantum Mechanical Hydrogen Atom 31-6 Multielectron Atoms and the Periodic Table 31-7 Atomic Radiation Chapter Summary 760 Problem-Solving Summary 763 Conceptual Questions 763 Conceptual Exercises 763 Problems 765 32 Nuclear Physics and Nuclear Radiation 32-1 The Constituents and Structure of Nuclei 32-2 Radioactivity 32-3 Half-Life and Radioactive Dating 32-4 Nuclear Binding Energy 32-5 Nuclear Fission 32-6 Nuclear Fusion 32-7 Practical Applications of Nuclear Physics 32-8 Elementary Particles 32-9 Unified Forces and Cosmology Chapter Summary 760 Problem-Solving Summary 763 Conceptual Questions 763 Conceptual Exercises 763 Problems 765 Appendices Appendix A Basic Mathematical Tools A-1 Appendix B Typical Values A-11 Appendix C Planetary Data A-12 Appendix D Elements of Electrical Circuits A-13 Appendix E Periodic Table of the Elements A-14 Appendix F Properties of Selected Isotopes A-15 Answers to Your Turn Problems ANS-1 Answers to Odd-Numbered Conceptual Questions ANS-21 Answers to Odd-Numbered Conceptual Exercises ANS-28 Answers to Odd-Numbered Problems ANS-35 Photo Credits P-1 Index I-1