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The Cosmic Perspective, Fifth Edition

by Jeffrey Bennett; Megan Donahue; Nicholas Schneider; Mark Voit

Publisher: Addison-Wesley

Publishing Date: 2007/12/05

eText ISBN-10

0-321-54263-0

eText ISBN-13

978-0-321-54263-2

Print ISBN-10

0-321-50567-0

Print ISBN-13

978-0-321-50567-5

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The Cosmic Perspective, Fifth Edition

by Jeffrey Bennett; Megan Donahue; Nicholas Schneider; Mark Voit

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Table of Contents

About the Authors, xxii

How to Succeed in Your Astronomy Course, xxiv

Foreword by Neil deGrasse Tyson, xxvi

Part I. Developing Perspective, 1

1. Our Place in the Universe, 1

Learning Goals, 1

1.1. Our Modern View of the Universe, 2

Cosmic Context Figure 1.2: Our Cosmic Origins, 4

Common Misconceptions: The Meaning of a Light-Year, 7

Mathematical Insight 1.1: How Far Is a Light-Year?, 8

1.2. The Scale of the Universe, 9

Special Topic: How Many Planets Are There in Our Solar System?, 10

Mathematical Insight 1.2: The Scale of Space and Time, 12

Common Misconceptions: Confusing Very Different Things, 13

1.3. Spaceship Earth, 15

Mathematical Insight 1.3: Order of Magnitude Estimation, 17

Mathematical Insight 1.4: Speeds of Rotation and Orbit, 18

1.4. The Human Adventure of Astronomy, 21

The Big Picture, 22

Summary of Key Concepts, 22

Exercises and Problems, 23

2. Discovering the Universe for Yourself, 27

Learning Goals, 27

2.1. Patterns in the Night Sky, 28

Common Misconceptions: The Moon Illusion, 31

Mathematical Insight 2.1: Angular Size, Physical Size, and Distance, 32

Common Misconceptions: Stars in the Daytime, 33

Common Misconceptions: What Makes the North Star Special?, 36

2.2. The Reason for Seasons, 36

Common Misconceptions: The Cause of Seasons, 38

Common Misconceptions: High Noon, 39

Common Misconceptions: Sun Signs, 42

2.3. The Moon, Our Constant Companion, 42

Common Misconceptions: The “Dark Side” of the Moon, 44

Common Misconceptions: Moon in the Daytime and Stars on the Moon, 45

Special Topic: Does the Moon Influence Human Behavior?, 48

2.4. The Ancient Mystery of the Planets, 49

Special Topic: Who First Proposed a Sun-Centered Solar System?, 52

The Big Picture, 53

Summary of Key Concepts, 53

Exercises and Problems, 54

3. The Science of Astronomy, 58

Learning Goals, 58

3.1. The Ancient Roots of Science, 59

3.2. Ancient Greek Science, 65

Special Topic: Eratosthenes Measures Earth, 68

Common Misconceptions: Columbus and a Flat Earth, 69

3.3. The Copernican Revolution, 70

Special Topic: Aristotle, 71

Mathematical Insight 3.1: Eccentricity and Planetary Orbits, 75

Mathematical Insight 3.2: Kepler’s Third Law, 76

3.4. The Nature of Science, 78

Cosmic Context Figure 3.27: The Copernican Revolution, 80

Special Topic: And Yet It Moves, 82

Common Misconceptions: Eggs on the Equinox, 83

Special Topic: Logic and Science, 84

3.5. Astrology, 84

The Big Picture, 87

Summary and Key Concepts, 87

Exercises and Problems, 88

Media Explorations, 91

S1. Celestial Timekeeping and Navigation, 92

Learning Goals, 92

S1.1 Astronomical Time Periods, 93

Mathematical Insight S1.1: The Copernican Layout of the Solar System, 96

Special Topic: Solar Days and the Analemma, 100

S1.2 Celestial Coordinates and Motion in the Sky, 101

Mathematical Insight S1.2: Time by the Stars, 104

S1.3 Principles of Celestial Navigation, 111

Common Misconceptions: Compass Directions, 113

The Big Picture, 113

Summary of Key Concepts, 114

Exercises and Problems, 114

Media Explorations, 117

Cosmic Context Part I: Our Expanding Perspective, 118

Part II. Key Concepts for Astronomy, 120

4. Making Sense of the Universe: Understanding Motion, Energy, and Gravity, 120

Learning Goals, 120

4.1. Describing Motion: Examples from Daily Life, 121

4.2. Newton’s Laws of Motion, 124

Common Misconceptions: No Gravity in Space?, 125

Common Misconceptions: What Makes a Rocket Launch?, 128

4.3. Conservation Laws in Astronomy, 128

Mathematical Insight 4.1: Units of Force, Mass, and Weight, 128

Mathematical Insight 4.2: Mass-Energy, 133

4.4. The Universal Law of Gravitation, 134

4.5. Orbits, Tides, and the Acceleration of Gravity, 136

Mathematical Insight 4.3: Newton’s Version of Kepler’s Third Law, 137

Mathematical Insight 4.4: Escape Velocity, 139

Common Misconceptions: The Origin of Tides, 141

Mathematical Insight 4.5: The Acceleration of Gravity, 143

The Big Picture, 143

Summary of Key Concepts, 144

Exercises and Problems, 145

Media Explorations, 148

5. Light and Matter: Reading Messages from the Cosmos, 149

Learning Goals, 149

5.1. Light in Everyday Life, 150

5.2. Properties of Light, 152

Special Topic: What Do Polarized Sunglasses Have to Do with Astronomy?, 154

Mathematical Insight 5.1: Wavelength, Frequency, and Energy, 156

Common Misconceptions: Can You Hear Radio Waves?, 157

Common Misconceptions: What Could You See with X-Ray Vision?, 157

5.3. Properties of Matter, 157

Common Misconceptions: Is Radiation Dangerous?, 158

Common Misconceptions: The Illusion of Solidity, 159

Common Misconceptions: One Phase at a Time?, 160

5.4. Learning from Light, 163

Mathematical Insight 5.2: Laws of Thermal Radiation, 169

Cosmic Context Figure 5.21: Interpreting a Spectrum, 170

5.5. The Doppler Shift, 172

Mathematical Insight 5.3: The Doppler Shift, 173

The Big Picture, 174

Summary of Key Concepts, 175

Exercises and Problems, 176

Media Explorations, 179

6. Telescopes: Portals of Discovery, 180

Learning Goals, 180

6.1. Eyes and Cameras: Everyday Light Sensors, 181

6.2. Telescopes: Giant Eyes, 183

Common Misconceptions: Magnification and Telescopes, 184

Mathematical Insight 6.1: Angular Resolution, 185

Mathematical Insight 6.2: The Diffraction Limit, 186

6.3. Telescopes and the Atmosphere, 191

Special Topic: Would You Like Your Own Telescope?, 192

Common Misconceptions: Twinkle, Twinkle, Little Star, 193

6.4. Telescopes and Technology, 195

Common Misconceptions: Closer to the Stars?, 196

The Big Picture, 201

Summary of Key Concepts, 201

Exercises and Problems, 202

Media Explorations, 205

Cosmic Context Part II: The Universality of Physics, 206

Part III. Learning from Other Worlds, 208

7. Our Planetary System, 208

Learning Goals, 208

7.1. Studying the Solar System, 209

Cosmic Context Figure 7.1: The Solar System, 210

7.2. Patterns in the Solar System, 212

Special Topic: How Did We Learn the Scale of the Solar System?, 225

7.3. Spacecraft Exploration of the Solar System, 226

The Big Picture, 230

Summary of Key Concepts, 230

Exercises and Problems, 231

Media Explorations, 233

8. Formation of the Solar System, 234

Learning Goals, 234

8.1. The Search for Origins, 235

8.2. The Birth of the Solar System, 236

8.3. The Formation of Planets, 239

Common Misconceptions: Solar Gravity and the Density of Planets, 243

8.4. The Aftermath of Planet Formation, 243

8.5. The Age of the Solar System, 248

Mathematical Insight 8.1: Radiometric Dating, 249

Special Topic: What Started the Collapse of the Solar Nebula?, 250

The Big Picture, 250

Summary of Key Concepts, 250

Exercises and Problems, 251

Media Explorations, 254

9. Planetary Geology: Earth and the Other Terrestrial Worlds, 255

Learning Goals, 255

9.1. Connecting Planetary Interiors and Surfaces, 256

Special Topic: How Do We Know What’s Inside a Planet?, 258

Common Misconceptions: Earth Is Not Full of Molten Lava, 260

Common Misconceptions: Pressure and Temperature, 262

Mathematical Insight 9.1: The Surface Area-to-Volume Ratio, 263

9.2. Shaping Planetary Surfaces, 264

9.3. Geology of the Moon and Mercury, 271

9.4. Geology of Mars, 275

9.5. Geology of Venus, 280

9.6. The Unique Geology of Earth, 283

The Big Picture, 289

Summary of Key Concepts, 290

Exercises and Problems, 291

Media Explorations, 294

10. Planetary Atmospheres: Earth and the Other Terrestrial Worlds, 295

Learning Goals, 295

10.1. Atmospheric Basics, 296

Common Misconceptions: The Greenhouse Effect Is Bad, 302

Mathematical Insight 10.1: “No Greenhouse” Temperatures, 302

Common Misconceptions: Why Is the Sky Blue?, 305

Common Misconceptions: Higher Altitudes Are Always Colder, 305

Special Topic: Weather and Chaos, 307

10.2. Weather and Climate, 307

Common Misconceptions: Toilets in the Southern Hemisphere, 310

10.3. Atmospheres of the Moon and Mercury, 314

Mathematical Insight 10.2: Thermal Escape from an Atmosphere, 315

10.4. The Atmospheric History of Mars, 316

10.5. The Atmospheric History of Venus, 321

10.6. Earth’s Unique Atmosphere, 324

Common Misconceptions: Ozone—Good or Bad?, 325

The Big Picture, 331

Summary of Key Concepts, 331

Exercises and Problems, 333

Media Explorations, 336

11. Jovian Planet Systems, 337

Learning Goals, 337

11.1. A Different Kind of Planet, 338

Special Topic: How Were Uranus, Neptune, and Pluto Discovered?, 340

11.2. A Wealth of Worlds: Satellites of Ice and Rock, 349

11.3. Jovian Planet Rings, 359

The Big Picture, 363

Summary of Key Concepts, 364

Exercises and Problems, 365

Media Explorations, 367

12. Asteroids, Comets, and Dwarf Planets: Their Nature, Orbits, and Impacts, 368

Learning Goals, 368

12.1. Asteroids and Meteorites, 369

Common Misconceptions: Dodge Those Asteroids!, 372

12.2. Comets, 375

12.3. Pluto: Lone Dog No More, 381

12.4. Cosmic Collisions: Small Bodies Versus the Planets, 385

The Big Picture, 389

Summary of Key Concepts, 390

Exercises and Problems, 391

Media Explorations, 393

13. Other Planetary Systems: The New Science of Distant Worlds, 394

Learning Goals, 394

13.1. Detecting Extrasolar Planets, 395

Special Topic: How Did We Learn That Other Stars Are Suns?, 396

Special Topic: The Names of Extrasolar Planets, 398

Mathematical Insight 13.1: Finding Orbital Distances for Extrasolar Planets, 401

Mathematical Insight 13.2: Finding Masses of Extrasolar Planets, 402

13.2. The Nature of Extrasolar Planets, 405

Cosmic Context Figure 13.10: Detecting Extrasolar Planets, 406

Mathematical Insight 13.3: Finding Sizes of Extrasolar Planets, 408

13.3. The Formation of Other Solar Systems, 412

13.4. Finding More New Worlds, 414

The Big Picture, 416

Summary of Key Concepts, 417

Exercises and Problems, 418

Media Explorations, 421

Cosmic Context Part III: Learning from Other Worlds, 422

Part IV. A Deeper Look at Nature, 424

S2. Space and Time, 424

Learning Goals, 424

S2.1 Einstein’s Revolution, 425

S2.2 Relative Motion, 427

Special Topic: What If Light Can’t Catch You?, 431

S2.3 The Reality of Space and Time, 432

Mathematical Insight S2.1: The Time Dilation Formula, 434

Mathematical Insight S2.2: Formulas of Special Relativity, 438

Special Topic: Measuring the Speed of Light, 440

S2.4 Toward a New Common Sense, 441

Mathematical Insight S2.3: DerivingE = mc², 441

The Big Picture, 443

Summary of Key Concepts, 443

Exercises and Problems, 444

Media Explorations, 447

S3. Spacetime and Gravity, 448

Learning Goals, 448

S3.1 Einstein’s Second Revolution, 449

S3.2 Understanding Spacetime, 451

Special Topic: Einstein’s Leap, 452

Mathematical Insight S3.1: Spacetime Geometry, 455

S3.3 A New View of Gravity, 458

S3.4 Testing General Relativity, 461

Special Topic: The Twin Paradox, 462

S3.5 Hyperspace, Wormholes, and Warp Drive, 465

S3.6 The Last Word, 466

The Big Picture, 467

Summary of Key Concepts, 467

Exercises and Problems, 468

Media Explorations, 471

S4. Building Blocks of the Universe, 472

Learning Goals, 472

S4.1 The Quantum Revolution, 473

S4.2 Fundamental Particles and Forces, 474

Special Topic: What Is String Theory?, 478

S4.3 Uncertainty and Exclusion in the Quantum Realm, 479

Mathematical Insight S4.1: Electron Waves in Atoms, 481

Special Topic: Does God Play Dice?, 482

S4.4 Key Quantum Effects in Astronomy, 483

The Big Picture, 487

Summary of Key Concepts, 488

Exercises and Problems, 488

Media Exploration, 491

Cosmic Context Part IV: A Deeper Look at Nature, 492

Part V. Stellar Alchemy, 494

14. Our Star, 494

Learning Goals, 494

14.1. A Closer Look at the Sun, 495

Common Misconceptions: The Sun Is Not on Fire, 498

14.2. The Cosmic Crucible, 499

Mathematical Insight 14.1: Mass-Energy Conversion in Hydrogen Fusion, 501

Mathematical Insight 14.2: Pressure in the Sun: The Ideal Gas Law, 503

14.3. The Sun-Earth Connection, 507

The Big Picture, 513

Summary of Key Concepts, 513

Exercises and Problems, 514

Media Explorations, 517

15. Surveying the Stars, 518

Learning Goals, 518

15.1. Properties of the Stars, 519

Mathematical Insight 15.1: The Inverse Square Law for Light, 521

Mathematical Insight 15.2: The Parallax Formula, 522

Mathematical Insight 15.3: The Modern Magnitude Scale, 523

Common Misconceptions: Photos of Stars, 525

15.2. Patterns Among Stars, 529

Mathematical Insight 15.4: Measuring Stellar Masses, 529

Mathematical Insight 15.5: Calculating Stellar Radii, 532

15.3. Star Clusters, 536

The Big Picture, 538

Summary of Key Concepts, 538

Exercises and Problems, 539

Media Explorations, 542

16. Star Birth, 543

Learning Goals, 543

16.1. Stellar Nurseries, 544

Mathematical Insight 16.1: Gravity Versus Pressure, 549

16.2. Stages of Star Birth, 552

16.3. Masses of Newborn Stars, 557

The Big Picture, 559

Summary of Key Concepts, 560

Exercises and Problems, 560

Media Explorations, 563

17. Star Stuff, 564

Learning Goals, 564

17.1. Lives in the Balance, 565

17.2. Life as a Low-Mass Star, 566

17.3. Life as a High-Mass Star, 572

Special Topic: How Long Is 5 Billion Years?, 573

17.4. The Roles of Mass and Mass Exchange, 579

Cosmic Context Figure 17.20: Stellar Lives, 580

The Big Picture, 582

Summary of Key Concepts, 583

Exercises and Problems, 584

Media Explorations, 586

18. The Bizarre Stellar Graveyard, 587

Learning Goals, 587

18.1. White Dwarfs, 588

18.2. Neutron Stars, 592

18.3. Black Holes: Gravity’s Ultimate Victory, 595

Mathematical Insight 18.1: The Schwarzschild Radius, 597

Common Misconceptions: Black Holes Don’t Suck, 599

Special Topic: Too Strange to Be True?, 600

18.4. The Origin of Gamma-Ray Bursts, 601

The Big Picture, 603

Summary of Key Concepts, 603

Exercises and Problems, 604

Media Explorations, 607

Cosmic Context Part V: Balancing Pressure and Gravity, 608

Part VI. Galaxies and Beyond, 610

19. Our Galaxy, 610

Learning Goals, 610

19.1. The Milky Way Revealed, 611

Special Topic: How Did We Learn the Structure of the Milky Way?, 612

Special Topic: How Do We Determine Stellar Orbits?, 613

Mathematical Insight 19.1: Using Stellar Orbits to Measure Galactic Mass, 614

19.2. Galactic Recycling, 615

Common Misconceptions: The Sound of Space, 618

Common Misconceptions: What Is a Nebula?, 621

19.3. The History of the Milky Way, 625

19.4. The Mysterious Galactic Center, 628

The Big Picture, 629

Summary of Key Concepts, 630

Exercises and Problems, 630

Media Explorations, 633

20. Galaxies and the Foundation of Modern Cosmology, 634

Learning Goals, 634

20.1. Islands of Stars, 635

20.2. Measuring Galactic Distances, 640

Mathematical Insight 20.1: Standard Candles, 641

20.3. Hubble’s Law, 644

Mathematical Insight 20.2: Redshift, 647

Mathematical Insight 20.3: Understanding Hubble’s Law, 648

Mathematical Insight 20.4: Age from Hubble’s Constant, 650

Common Misconceptions: Beyond the Horizon, 652

Mathematical Insight 20.5: Cosmological Redshift and the Stretching of Light, 652

The Big Picture, 653

Summary of Key Concepts, 653

Exercises and Problems, 654

Media Explorations, 657

21. Galaxy Evolution, 658

Learning Goals, 658

21.1. Looking Back Through Time, 659

21.2. The Lives of Galaxies, 661

21.3. Quasars and Other Active Galactic Nuclei, 667

Mathematical Insight 21.1: Feeding a Black Hole, 672

Mathematical Insight 21.2: Weighing Supermassive Black Holes, 674

The Big Picture, 675

Summary of Key Concepts, 676

Exercises and Problems, 676

Media Explorations, 679

22. Dark Matter, Dark Energy, and the Fate of the Universe, 680

Learning Goals, 680

22.1. Unseen Influences in the Cosmos, 681

22.2. Evidence for Dark Matter, 682

Mathematical Insight 22.1: Mass-to-Light Ratio, 685

Mathematical Insight 22.2: Cluster Masses from Galaxy Orbits, 686

Special Topic: Pioneers of Science, 687

Mathematical Insight 22.3: Cluster Masses from Gas Temperature, 688

22.3. Structure Formation, 692

22.4. The Fate of the Universe, 695

Special Topic: Einstein’s Greatest Blunder, 698

The Big Picture, 699

Cosmic Context Figure 22.19: Dark Matter and Dark Energy, 700

Summary of Key Concepts, 702

Exercises and Problems, 703

Media Explorations, 705

23. The Beginning of Time, 706

Learning Goals, 706

23.1. The Big Bang, 707

Cosmic Context Figure 23.19: The Early Universe, 712

23.2. Evidence for the Big Bang, 714

Special Topic: The Steady State Universe, 714

Mathematical Insight 23.1: Temperature and Wavelength of Background Radiation, 717

23.3. The Big Bang and Inflation, 719

23.4. Observing the Big Bang for Yourself, 723

Special Topic: How Will the Universe End?, 724

The Big Picture, 725

Summary of Key Concepts, 726

Exercises and Problems, 726

Media Explorations, 729

Cosmic Context Part VI: Galaxy Evolution, 730

Part VII. Life on Earth and Beyond, 732

24. Life in the Universe, 732

Learning Goals, 732

24.1. Life on Earth, 733

Special Topic: Evolution and the Schools, 738

Special Topic: What Is Life?, 742

24.2. Life in the Solar System, 742

24.3. Life Around Other Stars, 744

24.4. The Search for Extraterrestrial Intelligence, 748

24.5. Interstellar Travel and Its Implications to Civilization, 751

Special Topic: Are Aliens Already Here?, 754

The Big Picture, 755

Summary of Key Concepts, 755

Exercises and Problems, 756

Media Explorations, 759

Cosmic Context Part VII: A Universe of Life?, 760

Appendixes, A-1

A. Useful Numbers, A-2

B. Useful Formulas, A-3

C. A Few Mathematical Skills, A-4

D. The Periodic Table of Elements, A-13

E. Planetary Data, A-14

F. Stellar Data, A-20

G. Galaxy Data, A-22

H. Selected Astronomical Websites, A-25

I. The 88 Constellations, A-28

J. Star Charts, A-30

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