9781118230725.pdf

1 Measurement CONTENTS

1-1MEASURING THINGS, INCLUDING LENGTHS

What Is Physics?

Measuring Things

The International System of Units

Changing Units

Length

Significant Figures and Decimal Places

1-2TIME

Time

1-3MASS

Mass

REVIEW & SUMMARY 8 PROBLEMS

2 Motion Along a Straight Line

2-1POSITION, DISPLACEMENT, AND AVERAGE VELOCITY

What Is Physics?

Motion

Position and Displacement

Average Velocity and Average Speed

2-2INSTANTANEOUS VELOCITY AND SPEED

Instantaneous Velocity and Speed

2-3ACCELERATION

Acceleration

2-4CONSTANT ACCELERATION

Constant Acceleration: A Special Case

Another Look at Constant Acceleration

2-5FREE-FALL ACCELERATION

Free-Fall Acceleration

2-6GRAPHICAL INTEGRATION IN MOTION ANALYSIS

Graphical Integration in Motion Analysis

REVIEW & SUMMARY 30 QUESTIONS 31 PROBLEMS

3 Vectors

3-1VECTORS AND THEIR COMPONENTS

What Is Physics?

Vectors and Scalars

Adding Vectors Geometrically

Components of Vectors

3-2UNIT VECTORS, ADDING VECTORS BY COMPONENTS

Unit Vectors

Adding Vectors by Components

Vectors and the Laws of Physics

3-3MULTIPLYING VECTORS

Multiplying Vectors

4 Motion in Two and Three Dimensions

4-1POSITION AND DISPLACEMENT

What Is Physics?

Position and Displacement

4-2AVERAGE VELOCITY AND INSTANTANEOUS VELOCITY

Average Velocity and Instantaneous Velocity

4-3AVERAGE ACCELERATION AND INSTANTANEOUS ACCELERATION

Average Acceleration and Instantaneous Acceleration

4-4PROJECTILE MOTION

Projectile Motion

4-5UNIFORM CIRCULAR MOTION

Uniform Circular Motion

4-6RELATIVE MOTION IN ONE DIMENSION

Relative Motion in One Dimension

4-7RELATIVE MOTION IN TWO DIMENSIONS

Relative Motion in Two Dimensions

5 Force and Motion—I

5-1NEWTON’S FIRST AND SECOND LAWS

What Is Physics?

Newtonian Mechanics

Newton’s First Law

Force

Mass

Newton’s Second Law

5-2SOME PARTICULAR FORCES

Some Particular Forces

5-3APPLYING NEWTON’S LAWS

Newton’s Third Law

Applying Newton’s Laws

6 Force and Motion—II CONTENTS vii

6-1FRICTION

What Is Physics?

Friction

Properties of Friction

6-2THE DRAG FORCE AND TERMINAL SPEED

The Drag Force and Terminal Speed

6-3UNIFORM CIRCULAR MOTION

Uniform Circular Motion

7 Kinetic Energy and Work

7-1KINETIC ENERGY

What Is Physics?

What Is Energy?

Kinetic Energy

7-2WORK AND KINETIC ENERGY

Work

Work and Kinetic Energy

7-3WORK DONE BY THE GRAVITATIONAL FORCE

Work Done by the Gravitational Force

7-4WORK DONE BY A SPRING FORCE

Work Done by a Spring Force

7-5WORK DONE BY A GENERAL VARIABLE FORCE

Work Done by a General Variable Force

7-6POWER

Power

8 Potential Energy and Conservation of Energy

8-1POTENTIAL ENERGY

What Is Physics?

Work and Potential Energy

Path Independence of Conservative Forces

Determining Potential Energy Values

8-2CONSERVATION OF MECHANICAL ENERGY

Conservation of Mechanical Energy

8-3READING A POTENTIAL ENERGY CURVE

Reading a Potential Energy Curve

8-4WORK DONE ON A SYSTEM BY AN EXTERNAL FORCE

Work Done on a System by an External Force

8-5CONSERVATION OF ENERGY

Conservation of Energy

9 Center of Mass and Linear Momentum

9-1CENTER OF MASS

What Is Physics?

The Center of Mass

9-2NEWTON’S SECOND LAW FOR A SYSTEM OF PARTICLES

Newton’s Second Law for a System of Particles

9-3LINEAR MOMENTUM

Linear Momentum

The Linear Momentum of a System of Particles

9-4COLLISION AND IMPULSE

Collision and Impulse

9-5CONSERVATION OF LINEAR MOMENTUM

Conservation of Linear Momentum

9-6MOMENTUM AND KINETIC ENERGY IN COLLISIONS

Momentum and Kinetic Energy in Collisions

Inelastic Collisions in One Dimension

9-7ELASTIC COLLISIONS IN ONE DIMENSION

Elastic Collisions in One Dimension

9-8COLLISIONS IN TWO DIMENSIONS

Collisions in Two Dimensions

9-9SYSTEMS WITH VARYING MASS: A ROCKET

Systems with Varying Mass: A Rocket

10 Rotation

10-1ROTATIONAL VARIABLES

What Is Physics?

Rotational Variables

Are Angular Quantities Vectors?

10-2ROTATION WITH CONSTANT ANGULAR ACCELERATION

Rotation with Constant Angular Acceleration

10-3RELATING THE LINEAR AND ANGULAR VARIABLES

Relating the Linear and Angular Variables

10-4KINETIC ENERGY OF ROTATION viii CONTENTS

Kinetic Energy of Rotation

10-5CALCULATING THE ROTATIONAL INERTIA

Calculating the Rotational Inertia

10-6TORQUE

Torque

10-7NEWTON’S SECOND LAW FOR ROTATION

Newton’s Second Law for Rotation

10-8WORK AND ROTATIONAL KINETIC ENERGY

Work and Rotational Kinetic Energy

11 Rolling, Torque, and Angular Momentum

11-1ROLLING AS TRANSLATION AND ROTATION COMBINED

What Is Physics?

Rolling as Translation and Rotation Combined

11-2FORCES AND KINETIC ENERGY OF ROLLING

The Kinetic Energy of Rolling

The Forces of Rolling

11-3THE YO-YO

The Yo-Yo

11-4TORQUE REVISITED

Torque Revisited

11-5ANGULAR MOMENTUM

Angular Momentum

11-6NEWTON’S SECOND LAW IN ANGULAR FORM

Newton’s Second Law in Angular Form

11-7ANGULAR MOMENTUM OF A RIGID BODY

The Angular Momentum of a System of Particles

The Angular Momentum of a Rigid Body Rotating About a Fixed Axis

11-8CONSERVATION OF ANGULAR MOMENTUM

Conservation of Angular Momentum

11-9PRECESSION OF A GYROSCOPE

Precession of a Gyroscope

12 Equilibrium and Elasticity

12-1EQUILIBRIUM

What Is Physics?

Equilibrium

The Requirements of Equilibrium

The Center of Gravity

12-2SOME EXAMPLES OF STATIC EQUILIBRIUM

Some Examples of Static Equilibrium

12-3ELASTICITY

Indeterminate Structures

Elasticity

13 Gravitation

13-1NEWTON’S LAW OF GRAVITATION

What Is Physics?

Newton’s Law of Gravitation

13-2GRAVITATION AND THE PRINCIPLE OF SUPERPOSITION

Gravitation and the Principle of Superposition

13-3GRAVITATION NEAR EARTH’S SURFACE

Gravitation Near Earth’s Surface

13-4GRAVITATION INSIDE EARTH

Gravitation Inside Earth

13-5GRAVITATIONAL POTENTIAL ENERGY

Gravitational Potential Energy

13-6PLANETS AND SATELLITES: KEPLER’S LAWS

Planets and Satellites: Kepler’s Laws

13-7SATELLITES: ORBITS AND ENERGY

Satellites: Orbits and Energy

13-8EINSTEIN AND GRAVITATION

Einstein and Gravitation

14 Fluids

14-1FLUIDS, DENSITY, AND PRESSURE

What Is Physics?

What Is a Fluid?

Density and Pressure

14-2FLUIDS AT REST

Fluids at Rest

14-3MEASURING PRESSURE

Measuring Pressure

14-4PASCAL’S PRINCIPLE CONTENTS ix

Pascal’s Principle

14-5ARCHIMEDES’ PRINCIPLE

Archimedes’ Principle

14-6THE EQUATION OF CONTINUITY

Ideal Fluids in Motion

The Equation of Continuity

14-7BERNOULLI’S EQUATION

Bernoulli’s Equation

15 Oscillations

15-1SIMPLE HARMONIC MOTION

What Is Physics?

Simple Harmonic Motion

The Force Law for Simple Harmonic Motion

15-2ENERGY IN SIMPLE HARMONIC MOTION

Energy in Simple Harmonic Motion

15-3AN ANGULAR SIMPLE HARMONIC OSCILLATOR

An Angular Simple Harmonic Oscillator

15-4PENDULUMS, CIRCULAR MOTION

Pendulums

Simple Harmonic Motion and Uniform Circular Motion

15-5DAMPED SIMPLE HARMONIC MOTION

Damped Simple Harmonic Motion

15-6FORCED OSCILLATIONS AND RESONANCE

Forced Oscillations and Resonance

16 Waves—I

16-1TRANSVERSE WAVES

What Is Physics?

Types of Waves

Transverse and Longitudinal Waves

Wavelength and Frequency

The Speed of a Traveling Wave

16-2WAVE SPEED ON A STRETCHED STRING

Wave Speed on a Stretched String

A STRING 16-3ENERGY AND POWER OF A WAVE TRAVELING ALONG

Energy and Power of a Wave Traveling Along a String

16-4THE WAVE EQUATION

The Wave Equation

16-5INTERFERENCE OF WAVES

The Principle of Superposition for Waves

Interference of Waves

16-6PHASORS

Phasors

16-7STANDING WAVES AND RESONANCE

Standing Waves

Standing Waves and Resonance

17 Waves—II

17-1SPEED OF SOUND

What Is Physics?

Sound Waves

The Speed of Sound

17-2TRAVELING SOUND WAVES

Traveling Sound Waves

17-3INTERFERENCE

Interference

17-4INTENSITY AND SOUND LEVEL

Intensity and Sound Level

17-5SOURCES OF MUSICAL SOUND

Sources of Musical Sound

17-6BEATS

Beats

17-7THE DOPPLER EFFECT

The Doppler Effect

17-8SUPERSONIC SPEEDS, SHOCK WAVES

Supersonic Speeds, Shock Waves

18 Temperature, Heat, and the First Law of Thermodynamics

18-1TEMPERATURE

What Is Physics?

Temperature

The Zeroth Law of Thermodynamics

Measuring Temperature

18-2THE CELSIUS AND FAHRENHEIT SCALES

The Celsius and Fahrenheit Scales

18-3THERMAL EXPANSION x CONTENTS

Thermal Expansion

18-4ABSORPTION OF HEAT

Temperature and Heat

The Absorption of Heat by Solids and Liquids

18-5THE FIRST LAW OF THERMODYNAMICS

A Closer Look at Heat and Work

The First Law of Thermodynamics

Thermodynamics Some Special Cases of the First Law of

18-6HEAT TRANSFER MECHANISMS

Heat Transfer Mechanisms

19 The Kinetic Theory of Gases

19-1AVOGADRO’S NUMBER

What Is Physics?

Avogadro’s Number

19-2IDEAL GASES

Ideal Gases

19-3PRESSURE, TEMPERATURE, AND RMS SPEED

Pressure, Temperature, and RMS Speed

19-4TRANSLATIONAL KINETIC ENERGY

Translational Kinetic Energy

19-5MEAN FREE PATH

Mean Free Path

19-6THE DISTRIBUTION OF MOLECULAR SPEEDS

The Distribution of Molecular Speeds

19-7THE MOLAR SPECIFIC HEATS OF AN IDEAL GAS

The Molar Specific Heats of an Ideal Gas

19-8DEGREES OF FREEDOM AND MOLAR SPECIFIC HEATS

Degrees of Freedom and Molar Specific Heats

A Hint of Quantum Theory

19-9THE ADIABATIC EXPANSION OF AN IDEAL GAS

The Adiabatic Expansion of an Ideal Gas

20 Entropy and the Second Law of Thermodynamics

20-1ENTROPY

What Is Physics?

Irreversible Processes and Entropy

Change in Entropy

The Second Law of Thermodynamics

20-2ENTROPY IN THE REAL WORLD: ENGINES

Entropy in the Real World: Engines

20-3REFRIGERATORS AND REAL ENGINES

Entropy in the Real World: Refrigerators

The Efficiencies of Real Engines

20-4A STATISTICAL VIEW OF ENTROPY

A Statistical View of Entropy

21 Coulomb’s Law

21-1COULOMB’S LAW

What Is Physics?

Electric Charge

Conductors and Insulators

Coulomb’s Law

21-2CHARGE IS QUANTIZED

Charge Is Quantized

21-3CHARGE IS CONSERVED

Charge Is Conserved

22 Electric Fields

22-1THE ELECTRIC FIELD

What Is Physics?

The Electric Field

Electric Field Lines

22-2THE ELECTRIC FIELD DUE TO A CHARGED PARTICLE

The Electric Field Due to a Point Charge

22-3THE ELECTRIC FIELD DUE TO A DIPOLE

The Electric Field Due to an Electric Dipole

22-4THE ELECTRIC FIELD DUE TO A LINE OF CHARGE

The Electric Field Due to Line of Charge

22-5THE ELECTRIC FIELD DUE TO A CHARGED DISK

The Electric Field Due to a Charged Disk

22-6A POINT CHARGE IN AN ELECTRIC FIELD

A Point Charge in an Electric Field

22-7A DIPOLE IN AN ELECTRIC FIELD

A Dipole in an Electric Field

23 Gauss’ Law CONTENTS xi

23-1ELECTRIC FLUX

What Is Physics

Electric Flux

23-2GAUSS’ LAW

Gauss’ Law

Gauss’ Law and Coulomb’s Law

23-3A CHARGED ISOLATED CONDUCTOR

A Charged Isolated Conductor

23-4APPLYING GAUSS’ LAW: CYLINDRICAL SYMMETRY

Applying Gauss’ Law: Cylindrical Symmetry

23-5APPLYING GAUSS’ LAW: PLANAR SYMMETRY

Applying Gauss’ Law: Planar Symmetry

23-6APPLYING GAUSS’ LAW: SPHERICAL SYMMETRY

Applying Gauss’ Law: Spherical Symmetry

24 Electric Potential

24-1ELECTRIC POTENTIAL

What Is Physics?

Electric Potential and Electric Potential Energy

24-2EQUIPOTENTIAL SURFACES AND THE ELECTRIC FIELD

Equipotential Surfaces

Calculating the Potential from the Field

24-3POTENTIAL DUE TO A CHARGED PARTICLE

Potential Due to a Charged Particle

Potential Due a Group of Charged Particles

24-4POTENTIAL DUE TO AN ELECTRIC DIPOLE

Potential Due to an Electric Dipole

24-5POTENTIAL DUE TO A CONTINUOUS CHARGE DISTRIBUTION

Potential Due to a Continuous Charge Distribution

24-6CALCULATING THE FIELD FROM THE POTENTIAL

Calculating the Field from the Potential

CHARGED PARTICLES 24-7ELECTRIC POTENTIAL ENERGY OF A SYSTEM OF

Electric Potential Energy of a System of Charged Particles

24-8POTENTIAL OF A CHARGED ISOLATED CONDUCTOR

Potential of Charged Isolated Conductor

25 Capacitance

25-1CAPACITANCE

What Is Physics?

Capacitance

25-2CALCULATING THE CAPACITANCE

Calculating the Capacitance

25-3CAPACITORS IN PARALLEL AND IN SERIES

Capacitors in Parallel and in Series

25-4ENERGY STORED IN AN ELECTRIC FIELD

Energy Stored in an Electric Field

25-5CAPACITOR WITH A DIELECTRIC

Capacitor with a Dielectric

Dielectrics: An Atomic View

25-6DIELECTRICS AND GAUSS’ LAW

Dielectrics and Gauss’ Law

26 Current and Resistance

26-1ELECTRIC CURRENT

What Is Physics?

Electric Current

26-2CURRENT DENSITY

Current Density

26-3RESISTANCE AND RESISTIVITY

Resistance and Resistivity

26-4OHM’S LAW

Ohm’s Law

A Microscopic View of Ohm’s Law

26-5POWER, SEMICONDUCTORS, SUPERCONDUCTORS

Power in Electric Circuits

Semiconductors

Superconductors

27 Circuits

27-1SINGLE-LOOP CIRCUITS

What Is Physics?

“Pumping” Charges

Work, Energy, and Emf

Calculating the Current in a Single-Loop Circuit

Other Single-Loop Circuits

Potential Difference Between Two Points

27-2MULTILOOP CIRCUITS xii CONTENTS

Multiloop Circuits

27-3THE AMMETER AND THE VOLTMETER

The Ammeter and the Voltmeter

27-4RC CIRCUITS

RC Circuits

28 Magnetic Fields

28-1MAGNETIC FIELDS AND THE DEFINITION OF

What Is Physics?

What Produces a Magnetic Field?

The Definition of

28-2CROSSED FIELDS: DISCOVERY OF THE ELECTRON

Crossed Fields: Discovery of the Electron

28-3CROSSED FIELDS: THE HALL EFFECT

Crossed Fields: The Hall Effect

28-4A CIRCULATING CHARGED PARTICLE

A Circulating Charged Particle

28-5CYCLOTRONS AND SYNCHROTRONS

Cyclotrons and Synchrotrons

28-6MAGNETIC FORCE ON A CURRENT-CARRYING WIRE

Magnetic Force on a Current-Carrying Wire

28-7TORQUE ON A CURRENT LOOP

Torque on a Current Loop

28-8THE MAGNETIC DIPOLE MOMENT

The Magnetic Dipole Moment

29 Magnetic Fields Due to Currents

29-1MAGNETIC FIELD DUE TO A CURRENT

What Is Physics?

Calculating the Magnetic Field Due to a Current

29-2FORCE BETWEEN TWO PARALLEL CURRENTS

Force Between Two Parallel Currents

29-3AMPERE’S LAW

Ampere’s Law

29-4SOLENOIDS AND TOROIDS

Solenoids and Toroids

29-5A CURRENT-CARRYING COIL AS A MAGNETIC DIPOLE :

A Current-Carrying Coil as a Magnetic Dipole

30 Induction and Inductance

30-1FARADAY’S LAW AND LENZ’S LAW

What Is Physics

Two Experiments

Faraday’s Law of Induction

Lenz’s Law

30-2INDUCTION AND ENERGY TRANSFERS

Induction and Energy Transfers

30-3INDUCED ELECTRIC FIELDS

Induced Electric Fields

30-4INDUCTORS AND INDUCTANCE

Inductors and Inductance

30-5SELF-INDUCTION

Self-Induction

30-6RLCIRCUITS

RLCircuits

30-7ENERGY STORED IN A MAGNETIC FIELD

Energy Stored in a Magnetic Field

30-8ENERGY DENSITY OF A MAGNETIC FIELD

Energy Density of a Magnetic Field

30-9MUTUAL INDUCTION

Mutual Induction

31 Electromagnetic Oscillations and Alternating Current

31-1LCOSCILLATIONS

What Is Physics?

LCOscillations, Qualitatively

The Electrical-Mechanical Analogy

LCOscillations, Quantitatively

31-2DAMPED OSCILLATIONS IN AN RLCCIRCUIT

Damped Oscillations in an RLCCircuit

31-3FORCED OSCILLATIONS OF THREE SIMPLE CIRCUITS

Alternating Current

Forced Oscillations

Three Simple Circuits

31-4THE SERIES RLCCIRCUIT

The Series RLCCircuit

31-5POWER IN ALTERNATING-CURRENT CIRCUITS CONTENTS xiii

Power in Alternating-Current Circuits

31-6TRANSFORMERS

Transformers

32 Maxwell’s Equations; Magnetism of Matter

32-1GAUSS’ LAW FOR MAGNETIC FIELDS

What Is Physics?

Gauss’ Law for Magnetic Fields

32-2INDUCED MAGNETIC FIELDS

Induced Magnetic Fields

32-3DISPLACEMENT CURRENT

Displacement Current

Maxwell’s Equations

32-4MAGNETS

Magnets

32-5MAGNETISM AND ELECTRONS

Magnetism and Electrons

Magnetic Materials

32-6DIAMAGNETISM

Diamagnetism

32-7PARAMAGNETISM

Paramagnetism

32-8FERROMAGNETISM

Ferromagnetism

33 Electromagnetic Waves

33-1ELECTROMAGNETIC WAVES

What Is Physics?

Maxwell’s Rainbow

The Traveling Electromagnetic Wave, Qualitatively

The Traveling Electromagnetic Wave, Quantitatively

33-2ENERGY TRANSPORT AND THE POYNTING VECTOR

Energy Transport and the Poynting Vector

33-3RADIATION PRESSURE

Radiation Pressure

33-4POLARIZATION

Polarization

33-5REFLECTION AND REFRACTION

Reflection and Refraction

33-6TOTAL INTERNAL REFLECTION

Total Internal Reflection

33-7POLARIZATION BY REFLECTION

Polarization by Reflection

34 Images

34-1IMAGES AND PLANE MIRRORS

What Is Physics?

Two Types of Image

Plane Mirrors

34-2SPHERICAL MIRRORS

Spherical Mirrors

Images from Spherical Mirrors

34-3SPHERICAL REFRACTING SURFACES

Spherical Refracting Surfaces

34-4THIN LENSES

Thin Lenses

34-5OPTICAL INSTRUMENTS

Optical Instruments

34-6THREE PROOFS

35 Interference

35-1LIGHT AS A WAVE

What Is Physics?

Light as a Wave

35-2YOUNG’S INTERFERENCE EXPERIMENT

Diffraction

Young’s Interference Experiment

35-3INTERFERENCE AND DOUBLE-SLIT INTENSITY

Coherence

Intensity in Double-Slit Interference

35-4INTERFERENCE FROM THIN FILMS

Interference from Thin Films

35-5MICHELSON’S INTERFEROMETER

Michelson’s Interferometer

36 Diffraction xiv CONTENTS

36-1SINGLE-SLIT DIFFRACTION

What Is Physics?

Diffraction and the Wave Theory of Light

Diffraction by a Single Slit: Locating the Minima

36-2INTENSITY IN SINGLE-SLIT DIFFRACTION

Intensity in Single-Slit Diffraction

Intensity in Single-Slit Diffraction, Quantitatively

36-3DIFFRACTION BY A CIRCULAR APERTURE

Diffraction by a Circular Aperture

36-4DIFFRACTION BY A DOUBLE SLIT

Diffraction by a Double Slit

36-5DIFFRACTION GRATINGS

Diffraction Gratings

36-6GRATINGS: DISPERSION AND RESOLVING POWER

Gratings: Dispersion and Resolving Power

36-7X-RAY DIFFRACTION

X-Ray Diffraction

37 Relativity

37-1SIMULTANEITY AND TIME DILATION

What Is Physics?

The Postulates

Measuring an Event

The Relativity of Simultaneity

The Relativity of Time

37-2THE RELATIVITY OF LENGTH

The Relativity of Length

37-3THE LORENTZ TRANSFORMATION

The Lorentz Transformation

Some Consequences of the Lorentz Equations

37-4THE RELATIVITY OF VELOCITIES

The Relativity of Velocities

37-5DOPPLER EFFECT FOR LIGHT

Doppler Effect for Light

37-6MOMENTUM AND ENERGY

A New Look at Momentum

A New Look at Energy

38 Photons and Matter Waves

38-1THE PHOTON, THE QUANTUM OF LIGHT

What Is Physics?

The Photon, the Quantum of Light

38-2THE PHOTOELECTRIC EFFECT

The Photoelectric Effect
- INTERFERENCE 38-3PHOTONS, MOMENTUM, COMPTON SCATTERING, LIGHT

Photons Have Momentum

Light as a Probability Wave

38-4THE BIRTH OF QUANTUM PHYSICS

The Birth of Quantum Physics

38-5ELECTRONS AND MATTER WAVES

Electrons and Matter Waves

38-6SCHRÖDINGER’S EQUATION

Schrödinger’s Equation

38-7HEISENBERG’S UNCERTAINTY PRINCIPLE

Heisenberg’s Uncertainty Principle

38-8REFLECTION FROM A POTENTIAL STEP

Reflection from a Potential Step

38-9TUNNELING THROUGH A POTENTIAL BARRIER

Tunneling Through a Potential Barrier

39 More About Matter Waves

39-1ENERGIES OF A TRAPPED ELECTRON

What Is Physics?

String Waves and Matter Waves

Energies of a Trapped Electron

39-2WAVE FUNCTIONS OF A TRAPPED ELECTRON

Wave Functions of a Trapped Electron

39-3AN ELECTRON IN A FINITE WELL

An Electron in a Finite Well

39-4TWO- AND THREE-DIMENSIONAL ELECTRON TRAPS

More Electron Traps

Two- and Three-Dimensional Electron Traps

39-5THE HYDROGEN ATOM

The Hydrogen Atom Is an Electron Trap

The Bohr Model of Hydrogen, a Lucky Break

Schrödinger’s Equation and the Hydrogen Atom

40 All About Atoms CONTENTS xv

40-1PROPERTIES OF ATOMS

What Is Physics?

Some Properties of Atoms

Angular Momentum, Magnetic Dipole Moments

40-2THE STERN-GERLACH EXPERIMENT

The Stern-Gerlach Experiment

40-3MAGNETIC RESONANCE

Magnetic Resonance

40-4EXCLUSION PRINCIPLE AND MULTIPLE ELECTRONS IN A TRAP

The Pauli Exclusion Principle

Multiple Electrons in Rectangular Traps

40-5BUILDING THE PERIODIC TABLE

Building the Periodic Table

40-6X RAYS AND THE ORDERING OF THE ELEMENTS

X Rays and the Ordering of the Elements

40-7LASERS

Lasers and Laser Light

How Lasers Work

41 Conduction of Electricity in Solids

41-1THE ELECTRICAL PROPERTIES OF METALS

What Is Physics?

The Electrical Properties of Solids

Energy Levels in a Crystalline Solid

Insulators

Metals

41-2SEMICONDUCTORS AND DOPING

Semiconductors

Doped Semiconductors

41-3THE p-nJUNCTION AND THE TRANSISTOR

The p-nJunction

The Junction Rectifier

The Light-Emitting Diode (LED)

The Transistor

42 Nuclear Physics

42-1DISCOVERING THE NUCLEUS

What Is Physics?

Discovering the Nucleus

42-2SOME NUCLEAR PROPERTIES

Some Nuclear Properties

42-3RADIOACTIVE DECAY

Radioactive Decay

42-4ALPHA DECAY

Alpha Decay

42-5BETA DECAY

Beta Decay

42-6RADIOACTIVE DATING

Radioactive Dating

42-7MEASURING RADIATION DOSAGE

Measuring Radiation Dosage

42-8NUCLEAR MODELS

Nuclear Models

43 Energy from the Nucleus

43-1NUCLEAR FISSION

What Is Physics?

Nuclear Fission: The Basic Process

A Model for Nuclear Fission

43-2THE NUCLEAR REACTOR

The Nuclear Reactor

43-3A NATURAL NUCLEAR REACTOR

A Natural Nuclear Reactor

43-4THERMONUCLEAR FUSION: THE BASIC PROCESS

Thermonuclear Fusion: The Basic Process

43-5THERMONUCLEAR FUSION IN THE SUN AND OTHER STARS

Thermonuclear Fusion in the Sun and Other Stars

43-6CONTROLLED THERMONUCLEAR FUSION

Controlled Thermonuclear Fusion

44 Quarks, Leptons, and the Big Bang

44-1GENERAL PROPERTIES OF ELEMENTARY PARTICLES

What Is Physics?

Particles, Particles, Particles

An Interlude

44-2LEPTONS, HADRONS, AND STRANGENESS

The Leptons

The Hadrons xvi CONTENTS

Still Another Conservation Law

The Eightfold Way

44-3QUARKS AND MESSENGER PARTICLES

The Quark Model

Basic Forces and Messenger Particles

44-4COSMOLOGY

A Pause for Reflection

The Universe Is Expanding

The Cosmic Background Radiation

Dark Matter

The Big Bang

A Summing Up

AThe International System of Units (SI) A- APPENDICES

BSome Fundamental Constants of Physics A-

CSome Astronomical Data A-

DConversion Factors A-

EMathematical Formulas A-

FProperties of The Elements A-

GPeriodic Table of The Elements A-

to Checkpoints and Odd-Numbered Questions and Problems AN- ANSWERS

INDEX I-

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