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Fundamentals of Physics Extended

Fundamentals of Physics Extended

Höfundur David Halliday

Útgefandi Wiley Global Education US

Snið Page Fidelity

Print ISBN 9781118230725

Útgáfa 10

Útgáfuár 2014

5.890 kr.

Description

Efnisyfirlit

  • Title Page
  • Copyright Page
  • PREFACE
  • ACKNOWLEDGMENTS
  • Contents
  • 1 Measurement
  • 1-1 MEASURING THINGS, INCLUDING LENGTHS
  • 1-2 TIME
  • 1-3 MASS
  • REVIEW & SUMMARY
  • PROBLEMS
  • 2 Motion Along a Straight Line
  • 2-1 POSITION, DISPLACEMENT, AND AVERAGE VELOCITY
  • 2-2 INSTANTANEOUS VELOCITY AND SPEED
  • 2-3 ACCELERATION
  • 2-4 CONSTANT ACCELERATION
  • 2-5 FREE-FALL ACCELERATION
  • 2-6 GRAPHICAL INTEGRATION IN MOTION ANALYSIS
  • REVIEW & SUMMARY
  • QUESTIONS
  • PROBLEMS
  • 3 Vectors
  • 3-1 VECTORS AND THEIR COMPONENTS
  • 3-2 UNIT VECTORS, ADDING VECTORS BY COMPONENTS
  • 3-3 MULTIPLYING VECTORS
  • REVIEW & SUMMARY
  • QUESTIONS
  • PROBLEMS
  • 4 Motion in Two and Three Dimensions
  • 4-1 POSITION AND DISPLACEMENT
  • 4-2 AVERAGE VELOCITY AND INSTANTANEOUS VELOCITY
  • 4-3 AVERAGE ACCELERATION AND INSTANTANEOUS ACCELERATION
  • 4-4 PROJECTILE MOTION
  • 4-5 UNIFORM CIRCULAR MOTION
  • 4-6 RELATIVE MOTION IN ONE DIMENSION
  • 4-7 RELATIVE MOTION IN TWO DIMENSIONS
  • REVIEW & SUMMARY
  • QUESTIONS
  • PROBLEMS
  • 5 Force and Motion—I
  • 5-1 NEWTON’S FIRST AND SECOND LAWS
  • 5-2 SOME PARTICULAR FORCES
  • 5-3 APPLYING NEWTON’S LAWS
  • REVIEW & SUMMARY
  • QUESTIONS
  • PROBLEMS
  • 6 Force and Motion—II
  • 6-1 FRICTION
  • 6-2 THE DRAG FORCE AND TERMINAL SPEED
  • 6-3 UNIFORM CIRCULAR MOTION
  • REVIEW & SUMMARY
  • QUESTIONS
  • PROBLEMS
  • 7 Kinetic Energy and Work
  • 7-1 KINETIC ENERGY
  • 7-2 WORK AND KINETIC ENERGY
  • 7-3 WORK DONE BY THE GRAVITATIONAL FORCE
  • 7-4 WORK DONE BY A SPRING FORCE
  • 7-5 WORK DONE BY A GENERAL VARIABLE FORCE
  • 7-6 POWER
  • REVIEW & SUMMARY
  • QUESTIONS
  • PROBLEMS
  • 8 Potential Energy and Conservation of Energy
  • 8-1 POTENTIAL ENERGY
  • 8-2 CONSERVATION OF MECHANICAL ENERGY
  • 8-3 READING A POTENTIAL ENERGY CURVE
  • 8-4 WORK DONE ON A SYSTEM BY AN EXTERNAL FORCE
  • 8-5 CONSERVATION OF ENERGY
  • REVIEW & SUMMARY
  • QUESTIONS
  • PROBLEMS
  • 9 Center of Mass and Linear Momentum
  • 9-1 CENTER OF MASS
  • 9-2 NEWTON’S SECOND LAW FOR A SYSTEM OF PARTICLES
  • 9-3 LINEAR MOMENTUM
  • 9-4 COLLISION AND IMPULSE
  • 9-5 CONSERVATION OF LINEAR MOMENTUM
  • 9-6 MOMENTUM AND KINETIC ENERGY IN COLLISIONS
  • 9-7 ELASTIC COLLISIONS IN ONE DIMENSION
  • 9-8 COLLISIONS IN TWO DIMENSIONS
  • 9-9 SYSTEMS WITH VARYING MASS: A ROCKET
  • REVIEW & SUMMARY
  • QUESTIONS
  • PROBLEMS
  • 10 Rotation
  • 10-1 ROTATIONAL VARIABLES
  • 10-2 ROTATION WITH CONSTANT ANGULAR ACCELERATION
  • 10-3 RELATING THE LINEAR AND ANGULAR VARIABLES
  • 10-4 KINETIC ENERGY OF ROTATION
  • 10-5 CALCULATING THE ROTATIONAL INERTIA
  • 10-6 TORQUE
  • 10-7 NEWTON’S SECOND LAW FOR ROTATION
  • 10-8 WORK AND ROTATIONAL KINETIC ENERGY
  • REVIEW & SUMMARY
  • QUESTIONS
  • PROBLEMS
  • 11 Rolling, Torque, and Angular Momentum
  • 11-1 ROLLING AS TRANSLATION AND ROTATION COMBINED
  • 11-2 FORCES AND KINETIC ENERGY OF ROLLING
  • 11-3 THE YO-YO
  • 11-4 TORQUE REVISITED
  • 11-5 ANGULAR MOMENTUM
  • 11-6 NEWTON’S SECOND LAW IN ANGULAR FORM
  • 11-7 ANGULAR MOMENTUM OF A RIGID BODY
  • 11-8 CONSERVATION OF ANGULAR MOMENTUM
  • 11-9 PRECESSION OF A GYROSCOPE
  • REVIEW & SUMMARY
  • QUESTIONS
  • PROBLEMS
  • 12 Equilibrium and Elasticity
  • 12-1 EQUILIBRIUM
  • 12-2 SOME EXAMPLES OF STATIC EQUILIBRIUM
  • 12-3 ELASTICITY
  • REVIEW & SUMMARY
  • QUESTIONS
  • PROBLEMS
  • 13 Gravitation
  • 13-1 NEWTON’S LAW OF GRAVITATION
  • 13-2 GRAVITATION AND THE PRINCIPLE OF SUPERPOSITION
  • 13-3 GRAVITATION NEAR EARTH’S SURFACE
  • 13-4 GRAVITATION INSIDE EARTH
  • 13-5 GRAVITATIONAL POTENTIAL ENERGY
  • 13-6 PLANETS AND SATELLITES: KEPLER’S LAWS
  • 13-7 SATELLITES: ORBITS AND ENERGY
  • 13-8 EINSTEIN AND GRAVITATION
  • REVIEW & SUMMARY
  • QUESTIONS
  • PROBLEMS
  • 14 Fluids
  • 14-1 FLUIDS, DENSITY, AND PRESSURE
  • 14-2 FLUIDS AT REST
  • 14-3 MEASURING PRESSURE
  • 14-4 PASCAL’S PRINCIPLE
  • 14-5 ARCHIMEDES’ PRINCIPLE
  • 14-6 THE EQUATION OF CONTINUITY
  • 14-7 BERNOULLI’S EQUATION
  • REVIEW & SUMMARY
  • QUESTIONS
  • PROBLEMS
  • 15 Oscillations
  • 15-1 SIMPLE HARMONIC MOTION
  • 15-2 ENERGY IN SIMPLE HARMONIC MOTION
  • 15-3 AN ANGULAR SIMPLE HARMONIC OSCILLATOR
  • 15-4 PENDULUMS, CIRCULAR MOTION
  • 15-5 DAMPED SIMPLE HARMONIC MOTION
  • 15-6 FORCED OSCILLATIONS AND RESONANCE
  • REVIEW & SUMMARY
  • QUESTIONS
  • PROBLEMS
  • 16 Waves—I
  • 16-1 TRANSVERSE WAVES
  • 16-2 WAVE SPEED ON A STRETCHED STRING
  • 16-3 ENERGY AND POWER OF A WAVE TRAVELING ALONG A STRING
  • 16-4 THE WAVE EQUATION
  • 16-5 INTERFERENCE OF WAVES
  • 16-6 PHASORS
  • 16-7 STANDING WAVES AND RESONANCE
  • REVIEW & SUMMARY
  • QUESTIONS
  • PROBLEMS
  • 17 Waves—II
  • 17-1 SPEED OF SOUND
  • 17-2 TRAVELING SOUND WAVES
  • 17-3 INTERFERENCE
  • 17-4 INTENSITY AND SOUND LEVEL
  • 17-5 SOURCES OF MUSICAL SOUND
  • 17-6 BEATS
  • 17-7 THE DOPPLER EFFECT
  • 17-8 SUPERSONIC SPEEDS, SHOCK WAVES
  • REVIEW & SUMMARY
  • QUESTIONS
  • PROBLEMS
  • 18 Temperature, Heat, and the First Law of Thermodynamics
  • 18-1 TEMPERATURE
  • 18-2 THE CELSIUS AND FAHRENHEIT SCALES
  • 18-3 THERMAL EXPANSION
  • 18-4 ABSORPTION OF HEAT
  • 18-5 THE FIRST LAW OF THERMODYNAMICS
  • 18-6 HEAT TRANSFER MECHANISMS
  • REVIEW & SUMMARY
  • QUESTIONS
  • PROBLEMS
  • 19 The Kinetic Theory of Gases
  • 19-1 AVOGADRO’S NUMBER
  • 19-2 IDEAL GASES
  • 19-3 PRESSURE, TEMPERATURE, AND RMS SPEED
  • 19-4 TRANSLATIONAL KINETIC ENERGY
  • 19-5 MEAN FREE PATH
  • 19-6 THE DISTRIBUTION OF MOLECULAR SPEEDS
  • 19-7 THE MOLAR SPECIFIC HEATS OF AN IDEAL GAS
  • 19-8 DEGREES OF FREEDOM AND MOLAR SPECIFIC HEATS
  • 19-9 THE ADIABATIC EXPANSION OF AN IDEAL GAS
  • REVIEW & SUMMARY
  • QUESTIONS
  • PROBLEMS
  • 20 Entropy and the Second Law of Thermodynamics
  • 20-1 ENTROPY
  • 20-2 ENTROPY IN THE REAL WORLD: ENGINES
  • 20-3 REFRIGERATORS AND REAL ENGINES
  • 20-4 A STATISTICAL VIEW OF ENTROPY
  • REVIEW & SUMMARY
  • QUESTIONS
  • PROBLEMS
  • 21 Coulomb’s Law
  • 21-1 COULOMB’S LAW
  • 21-2 CHARGE IS QUANTIZED
  • 21-3 CHARGE IS CONSERVED
  • REVIEW & SUMMARY
  • QUESTIONS
  • PROBLEMS
  • 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
  • REVIEW & SUMMARY
  • QUESTIONS
  • PROBLEMS
  • 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
  • REVIEW & SUMMARY
  • QUESTIONS
  • PROBLEMS
  • 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
  • REVIEW & SUMMARY
  • QUESTIONS
  • PROBLEMS
  • 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
  • REVIEW & SUMMARY
  • QUESTIONS
  • PROBLEMS
  • 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
  • REVIEW & SUMMARY
  • QUESTIONS
  • PROBLEMS
  • 27 Circuits
  • 27-1 SINGLE-LOOP CIRCUITS
  • 27-2 MULTILOOP CIRCUITS
  • 27-3 THE AMMETER AND THE VOLTMETER
  • 27-4 RC CIRCUITS
  • REVIEW & SUMMARY
  • QUESTIONS
  • PROBLEMS
  • 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
  • REVIEW & SUMMARY
  • QUESTIONS
  • PROBLEMS
  • 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
  • REVIEW & SUMMARY
  • QUESTIONS
  • PROBLEMS
  • 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
  • REVIEW & SUMMARY
  • QUESTIONS
  • PROBLEMS
  • 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
  • REVIEW & SUMMARY
  • QUESTIONS
  • PROBLEMS
  • 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
  • REVIEW & SUMMARY
  • QUESTIONS
  • PROBLEMS
  • 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
  • REVIEW & SUMMARY
  • QUESTIONS
  • PROBLEMS
  • 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
  • REVIEW & SUMMARY
  • QUESTIONS
  • PROBLEMS
  • 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
  • REVIEW & SUMMARY
  • QUESTIONS
  • PROBLEMS
  • 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
  • REVIEW & SUMMARY
  • QUESTIONS
  • PROBLEMS
  • 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
  • REVIEW & SUMMARY
  • QUESTIONS
  • PROBLEMS
  • 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
  • REVIEW & SUMMARY
  • QUESTIONS
  • PROBLEMS
  • 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
  • REVIEW & SUMMARY
  • QUESTIONS
  • PROBLEMS
  • 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
  • REVIEW & SUMMARY
  • QUESTIONS
  • PROBLEMS
  • 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
  • REVIEW & SUMMARY
  • QUESTIONS
  • PROBLEMS
  • 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
  • REVIEW & SUMMARY
  • QUESTIONS
  • PROBLEMS
  • 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
  • REVIEW & SUMMARY
  • QUESTIONS
  • PROBLEMS
  • 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
  • REVIEW & SUMMARY
  • QUESTIONS
  • PROBLEMS
  • APPENDICES
  • A: The International System of Units (SI)
  • B: Some Fundamental Constants of Physics
  • C: Some Astronomical Data
  • D: Conversion Factors
  • E: Mathematical Formulas
  • F: Properties of The Elements
  • G: Periodic Table of The Elements
  • ANSWERS: To Checkpoints and Odd-Numbered Questions and Problems
  • INDEX
  • EULA
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