Fundamentals of Physics Volume TWO 12th Edition by David Halliday, ISBN-13: 978-1119801269

Cover

Title Page

Copyright Page

PREFACE

ACKNOWLEDGMENTS

CHAPTER 21: Coulomb’s Law

21.1 COULOMB’S LAW

21.2 CHARGE IS QUANTIZED

21.3 CHARGE IS CONSERVED

Chapter 21 Review & Summary

Chapter 21 Questions

Chapter 21 Problems

CHAPTER 22: Electric Fields

22.1 THE ELECTRIC FIELD

22.2 THE ELECTRIC FIELD DUE TO A CHARGED PARTICLE

22.3 THE ELECTRIC FIELD DUE TO A DIPOLE

22.4 THE ELECTRIC FIELD DUE TO A LINE OF CHARGE

22.5 THE ELECTRIC FIELD DUE TO A CHARGED DISK

22.6 A POINT CHARGE IN AN ELECTRIC FIELD

22.7 A DIPOLE IN AN ELECTRIC FIELD

Chapter 22 Review & Summary

Chapter 22 Questions

Chapter 22 Problems

CHAPTER 23: Gauss’ Law

23.1 ELECTRIC FLUX

23.2 GAUSS’ LAW

23.3 A CHARGED ISOLATED CONDUCTOR

23.4 APPLYING GAUSS’ LAW: CYLINDRICAL SYMMETRY

23.5 APPLYING GAUSS’ LAW: PLANAR SYMMETRY

23.6 APPLYING GAUSS’ LAW: SPHERICAL SYMMETRY

Chapter 23 Review & Summary

Chapter 23 Questions

Chapter 23 Problems

CHAPTER 24: Electric Potential

24.1 ELECTRIC POTENTIAL

24.2 EQUIPOTENTIAL SURFACES AND THE ELECTRIC FIELD

24.3 POTENTIAL DUE TO A CHARGED PARTICLE

24.4 POTENTIAL DUE TO AN ELECTRIC DIPOLE

24.5 POTENTIAL DUE TO A CONTINUOUS CHARGE DISTRIBUTION

24.6 CALCULATING THE FIELD FROM THE POTENTIAL

24.7 ELECTRIC POTENTIAL ENERGY OF A SYSTEM OF CHARGED PARTICLES

24.8 POTENTIAL OF A CHARGED ISOLATED CONDUCTOR

Chapter 24 Review & Summary

Chapter 24 Questions

Chapter 24 Problems

CHAPTER 25: Capacitance

25.1 CAPACITANCE

25.2 CALCULATING THE CAPACITANCE

25.3 CAPACITORS IN PARALLEL AND IN SERIES

25.4 ENERGY STORED IN AN ELECTRIC FIELD

25.5 CAPACITOR WITH A DIELECTRIC

25.6 DIELECTRICS AND GAUSS’ LAW

Chapter 25 Review & Summary

Chapter 25 Questions

Chapter 25 Problems

CHAPTER 26: Current and Resistance

26.1 ELECTRIC CURRENT

26.2 CURRENT DENSITY

26.3 RESISTANCE AND RESISTIVITY

26.4 OHM’S LAW

26.5 POWER, SEMICONDUCTORS, SUPERCONDUCTORS

Chapter 26 Review & Summary

Chapter 26 Questions

Chapter 26 Problems

CHAPTER 27: Circuits

27.1 SINGLE-LOOP CIRCUITS

27.2 MULTILOOP CIRCUITS

27.3 THE AMMETER AND THE VOLTMETER

27.4 RC CIRCUITS

Chapter 27 Review & Summary

Chapter 27 Questions

Chapter 27 Problems

CHAPTER 28: Magnetic Fields

28.1 MAGNETIC FIELDS AND THE DEFINITION OF B→

28.2 CROSSED FIELDS: DISCOVERY OF THE ELECTRON

28.3 CROSSED FIELDS: THE HALL EFFECT

28.4 A CIRCULATING CHARGED PARTICLE

28.5 CYCLOTRONS AND SYNCHROTRONS

28.6 MAGNETIC FORCE ON A CURRENT-CARRYING WIRE

28.7 TORQUE ON A CURRENT LOOP

28.8 THE MAGNETIC DIPOLE MOMENT

Chapter 28 Review & Summary

Chapter 28 Questions

Chapter 28 Problems

CHAPTER 29: Magnetic Fields Due to Currents

29.1 MAGNETIC FIELD DUE TO A CURRENT

29.2 FORCE BETWEEN TWO PARALLEL CURRENTS

29.3 AMPERE’s LAW

29.4 SOLENOIDS AND TOROIDS

29.5 A CURRENT-CARRYING COIL AS A MAGNETIC DIPOLE

Chapter 29 Review & Summary

Chapter 29 Questions

Chapter 29 Problems

CHAPTER 30: Induction and Inductance

30.1 FARADAY’S LAW AND LENZ’S LAW

30.2 INDUCTION AND ENERGY TRANSFERS

30.3 INDUCED ELECTRIC FIELDS

30.4 INDUCTORS AND INDUCTANCE

30.5 SELF-INDUCTION

30.6 RL CIRCUITS

30.7 ENERGY STORED IN A MAGNETIC FIELD

30.8 ENERGY DENSITY OF A MAGNETIC FIELD

30.9 MUTUAL INDUCTION

Chapter 30 Review & Summary

Chapter 30 Questions

Chapter 30 Problems

CHAPTER 31: Electromagnetic Oscillations and Alternating Current

31.1 LC OSCILLATIONS

31.2 DAMPED OSCILLATIONS IN AN RLC CIRCUIT

31.3 FORCED OSCILLATIONS OF THREE SIMPLE CIRCUITS

31.4 THE SERIES RLC CIRCUIT

31.5 POWER IN ALTERNATING-CURRENT CIRCUITS

31.6 TRANSFORMERS

Chapter 31 Review & Summary

Chapter 31 Questions

Chapter 31 Problems

CHAPTER 32: Maxwell’s Equations; Magnetism of Matter

32.1 GAUSS’ LAW FOR MAGNETIC FIELDS

32.2 INDUCED MAGNETIC FIELDS

32.3 DISPLACEMENT CURRENT

32.4 MAGNETS

32.5 MAGNETISM AND ELECTRONS

32.6 DIAMAGNETISM

32.7 PARAMAGNETISM

32.8 FERROMAGNETISM

Chapter 32 Review & Summary

Chapter 32 Questions

Chapter 32 Problems

CHAPTER 33: Electromagnetic Waves

33.1 ELECTROMAGNETIC WAVES

33.2 ENERGY TRANSPORT AND THE POYNTING VECTOR

33.3 RADIATION PRESSURE

33.4 POLARIZATION

33.5 REFLECTION AND REFRACTION

33.6 TOTAL INTERNAL REFLECTION

33.7 POLARIZATION BY REFLECTION

Chapter 33 Review & Summary

Chapter 33 Questions

Chapter 33 Problems

CHAPTER 34: Images

34.1 IMAGES AND PLANE MIRRORS

34.2 SPHERICAL MIRRORS

34.3 SPHERICAL REFRACTING SURFACES

34.4 THIN LENSES

34.5 OPTICAL INSTRUMENTS

34.6 THREE PROOFS

Chapter 34 Review & Summary

Chapter 34 Questions

Chapter 34 Problems

CHAPTER 35 Interference

35.1 LIGHT AS A WAVE

35.2 YOUNG’S INTERFERENCE EXPERIMENT

35.3 INTERFERENCE AND DOUBLE-SLIT INTENSITY

35.4 INTERFERENCE FROM THIN FILMS

35.5 MICHELSON’S INTERFEROMETER

Chapter 35 Review & Summary

Chapter 35 Questions

Chapter 35 Problems

CHAPTER 36: Diffraction

36.1 SINGLE-SLIT DIFFRACTION

36.2 INTENSITY IN SINGLE-SLIT DIFFRACTION

36.3 DIFFRACTION BY A CIRCULAR APERTURE

36.4 DIFFRACTION BY A DOUBLE SLIT

36.5 DIFFRACTION GRATINGS

36.6 GRATINGS: DISPERSION AND RESOLVING POWER

36.7 X-RAY DIFFRACTION

Chapter 36 Review & Summary

Chapter 36 Questions

Chapter 36 Problems

CHAPTER 37: Relativity

37.1 SIMULTANEITY AND TIME DILATION

37.2 THE RELATIVITY OF LENGTH

37.3 THE LORENTZ TRANSFORMATION

37.4 THE RELATIVITY OF VELOCITIES

37.5 DOPPLER EFFECT FOR LIGHT

37.6 MOMENTUM AND ENERGY

Chapter 37 Review & Summary

Chapter 37 Questions

Chapter 37 Problems

CHAPTER 38: Photons and Matter Waves

38.1 THE PHOTON, THE QUANTUM OF LIGHT

38.2 THE PHOTOELECTRIC EFFECT

38.3 PHOTONS, MOMENTUM, COMPTON SCATTERING, LIGHT INTERFERENCE

38.4 THE BIRTH OF QUANTUM PHYSICS

38.5 ELECTRONS AND MATTER WAVES

38.6 SCHRÖDINGER’S EQUATION

38.7 HEISENBERG’S UNCERTAINTY PRINCIPLE

38.8 REFLECTION FROM A POTENTIAL STEP

38.9 TUNNELING THROUGH A POTENTIAL BARRIER

Chapter 38 Review & Summary

Chapter 38 Questions

Chapter 38 Problems

CHAPTER 39: More About Matter Waves

39.1 ENERGIES OF A TRAPPED ELECTRON

39.2 WAVE FUNCTIONS OF A TRAPPED ELECTRON

39.3 AN ELECTRON IN A FINITE WELL

39.4 TWO- AND THREE-DIMENSIONAL ELECTRON TRAPS

39.5 THE HYDROGEN ATOM

Chapter 39 Review & Summary

Chapter 39 Questions

Chapter 39 Problems

CHAPTER 40: All About Atoms

40.1 PROPERTIES OF ATOMS

40.2 THE STERN–GERLACH EXPERIMENT

40.3 MAGNETIC RESONANCE

40.4 EXCLUSION PRINCIPLE AND MULTIPLE ELECTRONS IN A TRAP

40.5 BUILDING THE PERIODIC TABLE

40.6 X RAYS AND THE ORDERING OF THE ELEMENTS

40.7 LASERS

Chapter 40 Review & Summary

Chapter 40 Questions

Chapter 40 Problems

CHAPTER 41: Conduction of Electricity in Solids

41.1 THE ELECTRICAL PROPERTIES OF METALS

41.2 SEMICONDUCTORS AND DOPING

41.3 THE p-n JUNCTION AND THE TRANSISTOR

Chapter 41 Review & Summary

Chapter 41 Questions

Chapter 41 Problems

CHAPTER 42: Nuclear Physics

42.1 DISCOVERING THE NUCLEUS

42.2 SOME NUCLEAR PROPERTIES

42.3 RADIOACTIVE DECAY

42.4 ALPHA DECAY

42.5 BETA DECAY

42.6 RADIOACTIVE DATING

42.7 MEASURING RADIATION DOSAGE

42.8 NUCLEAR MODELS

Chapter 42 Review & Summary

Chapter 42 Questions

Chapter 42 Problems

CHAPTER 43: Energy from the Nucleus

43.1 NUCLEAR FISSION

43.2 THE NUCLEAR REACTOR

43.3 A NATURAL NUCLEAR REACTOR

43.4 THERMONUCLEAR FUSION: THE BASIC PROCESS

43.5 THERMONUCLEAR FUSION IN THE SUN AND OTHER STARS

43.6 CONTROLLED THERMONUCLEAR FUSION

Chapter 43 Review & Summary

Chapter 43 Questions

Chapter 43 Problems

CHAPTER 44: Quarks, Leptons, and the Big Bang

44.1 GENERAL PROPERTIES OF ELEMENTARY PARTICLES

44.2 LEPTONS, HADRONS, AND STRANGENESS

44.3 QUARKS AND MESSENGER PARTICLES

44.4 COSMOLOGY

Chapter 44 Review & Summary

Chapter 44 Questions

Chapter 44 Problems

APPENDICES

APPENDIX A: THE INTERNATIONAL SYSTEM OF UNITS (SI)

APPENDIX B: SOME FUNDAMENTAL CONSTANTS OF PHYSICS

APPENDIX C: SOME ASTRONOMICAL DATA

APPENDIX D: CONVERSION FACTORS

APPENDIX E: MATHEMATICAL FORMULAS

APPENDIX F: PROPERTIES OF THE ELEMENTS

APPENDIX G: PERIODIC TABLE OF THE ELEMENTS

ANSWERS: To Checkpoints and Odd-Numbered Questions and Problems

INDEX

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