Jay M. Pasachoff is Field Memorial Professor of Astronomy at Williams College, where he teaches the astronomy survey course and works with undergraduate students. He is also Director of the Hopkins Observatory there. Pasachoff has observed 35 solar eclipses and is Chair of the Working Group on Solar Eclipses of the International Astronomical Union. He is part of a group of scientists observing the atmosphere of Pluto through stellar occultations. He also works in radio astronomy, concentrating on cosmic deuterium and its consequences for cosmology. Further, he collaborates with an art historian on images of comets, the Moon, and eclipses. Pasachoff is U.S. National Liaison to the Commission on Astronomical Education and Development of the International Astronomical Union and is also Vice-President of the Commission. He has twice been Chair of the Astronomy Division of the American Association for the Advancement of Science, and he has been on the astronomy education committees of the American Astronomical Society, the American Physical Society, and the American Association of Physics Teachers. He is on the Council of Advisors of the Astronomy Education Review, the on-line journal sponsored by the American Astronomical Society and the Astronomical Society of the Pacific. In addition to his college astronomy texts, Pasachoff has written the PETERSON FIELD GUIDE TO THE STARS AND PLANETS, and is author or co-author of textbooks in calculus and in physics as well as several junior-high-school textbooks. Pasachoff received his undergraduate and graduate degrees from Harvard and was at Caltech before going to Williams College. His sabbaticals and other leaves have been taken at the University of Hawaii's Institute for Astronomy, the Institut d'Astrophysique in Paris, the Institute for Advanced Study in Princeton, and the Harvard-Smithsonian Center for Astrophysics. Pasachoff has been awarded the 2003 Education Prize of the American Astronomical Society.
Astronomy: From the Earth to the Universe / Edition 6by Jay M. Pasachoff
ASTRONOMY: FROM THE EARTH TO THE UNIVERSE describes the current state of astronomy, both the fundamentals of astronomical knowledge that have been built up over decades and the exciting advances that are now taking place. The writing style is friendly and carefully detailed. It serves as a valuable reference for both beginners and astronomy enthusiasts. This… See more details below
ASTRONOMY: FROM THE EARTH TO THE UNIVERSE describes the current state of astronomy, both the fundamentals of astronomical knowledge that have been built up over decades and the exciting advances that are now taking place. The writing style is friendly and carefully detailed. It serves as a valuable reference for both beginners and astronomy enthusiasts. This book is organized as a number of stories. Individual chapters often tell what used to be known, how space and other modern observations have transformed our understanding, and then what is scheduled for the future. This is done with each planet. Consequently, an instructor can easily add photos (available as slides, overheads, CD-ROMs, and on the World Wide Web) and movies and keep a student's interest for a whole lecture on each planet, if desired. Students learn about astronomy through concrete examples, rather than merely being given overarching concepts without enough underpinning.
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Table of Contents
PART 1: A SENSE OF THE UNIVERSE. 1. PROLOGUE: THE UNIVERSE. A Sense of Scale A Deeper View Measuring System. A Deeper View Exponential Notation. A Sense of Speed. A Sense of Time. 2. THE EARLY HISTORY OF ASTRONOMY. Egyptian and Other Early Astronomy. Greek Astronomy: The Earth at the Center. In Review: Ptolemaic Terms. A Deeper Discussion: Eratosthenes and the Size of the Earth. Other Ancient Astronomy. Astronomy of the Middle Ages. A Deeper Discussion: Stellar Parallaxes and the Motion of the Earth. Nicolaus Copernicus: The Sun at the Center. Tycho Brahe. Biography: Copernicus and His Contemporaries. Feature: Archaeoastronomy. Biography Tycho Brahe. 3. THE ORIGIN OF MODERN ASTRONOMY. Johannes Kepler. Biography: Johannes Kepler. In Review: Summary of Kepler's Laws of Planetary Motion. Galileo. Biography: Galileo. Isaac Newton. A Deeper Discussion: Kepler's Third Law, Newton, and Planetary Masses. Biography Isaac Newton. 4. LIGHT AND TELESCOPES. The Spectrum. What a Telescope Is. A Deeper Discussion: Angular Measure. Lenses and Telescopes. Reflecting Telescopes. Light-Gathering Power and Seeing. Spectroscopy. Spectral Lines. The Doppler Effect. Observing at Short Wavelengths. Observing at Long Wavelengths. 5. OBSERVATORIES AND SPACECRAFT. Optical Observatories. Wide-Field Telescopes. The Hubble Space Telescope. Recording the Data. The Sloan Digital Sky Survey. Observing at Short Wavelengths. Astronomer's Notebook: A Night at Mauna Kea. Observing at Long Wavelengths. 6. THE SKY AND THE CALENDAR. The Constellations. Twinkling. Coordinate Systems. Motions in the Sky. Positions of the Sun, Moon, and Planets. Time and the International Date Line. Calendars. PART 2: THE SOLAR SYSTEM. 7. THE STRUCTURE AND ORIGIN OF THE SOLAR SYSTEM. The Sun: Our Star. The Phases of the Moon and Planets. Eclipses. Astronomer's Notebook: A Solar Eclipse Expedition. The Revolution and Rotation of the Planets. Theories of Cosmogony. 8. OUR EARTH. The Earth's Interior. Plate Tectonics. Tides. The Earth's Atmosphere. Water, Global Warming, the Ozone Hole, and Life. In Review: Global Warming vs. Ozone Hole. The Van Allen Belts. The Aurora and the Magnetosphere. 9. OUR MOON. The Appearance of the Moon. Lunar Exploration. A Deeper Discussion: Sidereal and Synodic Periods. The Results from Apollo. A Deeper Discussion: Radioactivity. The Origin of the Moon. Current and Future Lunar Studies. 10. MERCURY. The Rotation of Mercury. Ground-Based Visual Observations. Mariner 10, the Only Spacecraft to Mercury. What's In a Name? Naming the Features of Mercury. Mercury Research Rejuvenated. More Mercury Missions at Last. 11. VENUS. The Atmosphere of Venus. Transits of Venus. The Rotation of Venus. The Temperature of Venus. The Surface of Venus. Space Studies of Venus. What's In a Name? Naming the Features of Venus. 12. MARS. Characteristics of Mars. Early Space Observations. Main Features of Mars's Surface and Atmosphere. Viking Orbiters. Viking Landers. Satellites of Mars. Failed Missions to Mars. Mars Pathfinder. Mars Global Surveyor. Future Mars Missions. Rocks from Mars. 13. JUPITER. Fundamental Properties. Jupiter's Moons: Early Views. Spacecraft Observations. A Deeper Discussion: Jupiter's Satellites in Mythology. A Deeper Discussion: Comet Shoemaker-Levy Crashes Into Jupiter. Jupiter's Moons Close Up. Jupiter's Ring. Future Study of Jupiter. A Deeper Discussion: Gravity Assists. 14. SATURN. Saturn from the Earth. A Deeper Discussion: The Roche Limit. A Deeper Discussion: Cassini's Division. Saturn from Space. Beyond Saturn. Cassini. 15. URANUS. Uranus Seen from Earth. The Rotation of Uranus. Uranus's Rings. Voyager 2 at Uranus. What's In a Name? Naming the Moons of Uranus. 16. NEPTUNE. Neptune from Earth. Voyager 2 at Neptune. Neptune's Rings. Neptune's Moons. What's In a Name? Naming the Rings of Neptune. Voyager Departs. Current Observations of Neptune. 17. PLUTO AND THE KUIPER BELT. Pluto's Mass. Pluto's Size and Surface. Pluto's Atmosphere. What Is Pluto? Pluto and the Kuiper Belt. Further Planets in Our Solar System? Pluto Express. 18. EXTRASOLAR PLANETS: NEW SOLAR SYSTEMS. Older Searches for Planets. Pulsar Planets. Extrasolar Planets in Sunlike Systems. Brown Dwarfs. Solar Systems in Formation. 19. HALLEY''S AND OTHER COMETS. Observing Comets. The Composition of Comets. A Deeper Discussion: Discovering a Comet. The Origin and Evolution of Comets. Halley's Comet. Chiron and the Centaurs. A Comet Crashes on Jupiter. Future Comet Studies. 20. METEORITES AND ASTEROIDS. Meteoroids and Meteorites. A Deeper Discussion: The Tunguska Explosion. Asteroids. A Deeper Discussion: The Extinction of the Dinosaurs. Photo Gallery: Eros: Asteroid Orbited Up Close. Asteroids Observed from Space. 21. LIFE IN THE UNIVERSE. The Origin of Life. Other Solar Systems? The Statistics of Extraterrestrial Life. A Deeper Discussion: The Probability of Life in the Universe. Interstellar Communication. The Search for Intelligent Life. UFOs and the Scientific Method. PART 3: THE SUN. 22. OUR STAR, THE SUN. The Photosphere. The Chromosphere. The Corona. Solar Eclipses. 23. SOLAR ACTIVITY AND THE EARTH. Sunspots. A Deeper Discussion: The Origin of Sunspots. Flares. Photo Gallery: Solar Observatories in Space. Plages, Filaments, and Prominences. Solar-Terrestrial Relations. The Solar Wind. The Solar Constant. PART 4: THE STARS. 24. STARS AND THEIR SPECTRA. The Colors of the Stars. A Deeper Discussion: Wien's Displacement Law. Planck's Law and Black Bodies. A Deeper Discussion: The Stefan-Boltzmann Law . The Formation of Spectral Lines. The Hydrogen Spectrum. Spectral Types. In Review K. 25. STELLAR DISTANCES AND MOTIONS. Light from the Stars. Stellar Distances. Absolute Magnitudes. A Deeper Discussion: Linking Apparent Magnitude, Absolute Magnitude, and Distance. The Hertzsprung-Russell Diagram. Spectroscopic Parallax. The Doppler Effect. Stellar Motions. 26. DOUBLES, VARIABLES, AND CLUSTERS. Binary Stars. Stellar Masses. Stellar Sizes. Variable Stars. A Deeper Discussion: Naming Variable Stars. Clusters and Stellar Populations. A Deeper Discussion: Comparing Types of Star Clusters. PART 5: STELLAR EVOLUTION. 27. THE BIRTH, YOUTH, AND MIDDLE AGE OF STARS. Stars in Formation. Nuclear Energy in Stars. Atoms. Energy Cycles in Stars. The Stellar Prime of Life. The Solar Neutrino Experiment. Dying Stars. 28. THE AGING AND DEATH OF STARS LIKE THE SUN. Red Giants. Planetary Nebulae. White Dwarfs. Observing White Dwarfs. Novae Astronomer's Notebook: Observing with the Hubble Space Telescope. 29. SUPERNOVAE. Red Supergiants. Types of Supernovae. Detecting Supernovae. Supernovae and Their Remnants. Supernova 1987A. Cosmic Rays. 30. PULSARS AND NEUTRON STARS. Neutron Stars. The Discovery of Pulsars. What Are Pulsars? The Crab, Pulsars, and Supernovae. Slowing Pulsars and the Fast Pulsar. The Binary Pulsar and Pulsar Planets. Gravitational Waves. X-Ray Binaries. SS433: The Star That Is Coming and Going. 31. BLACK HOLES. Einstein's General Theory of Relativity. A Deeper Discussion: The Special and General Theories of Relativity. The Formation of a Stellar Black Hole. In Review: Updike on Relativity. The Photon Sphere. The Event Horizon. Rotating Black Holes. Detecting a Black Hole. Non-stellar Black Holes. PART 6: THE MILKY WAY GALAXY. 32. THE STRUCTURE OF THE MILKY WAY GALAXY. Nebulae. The New Subdivision of Our Galaxy. The Center of Our Galaxy and Infrared Studies. All-Sky Maps of Our Galaxy. The Spiral Structure of the Galaxy. 33. THE INTERSTELLAR MEDIUM. H I and H II Regions. Interstellar Dust. A Deeper Discussion: Why Is the Sky Blue? A Deeper Discussion: Mapping in the Infrared Sky. The Radio Spectral Line from Interstellar Hydrogen. Photo Gallery: New Views of Nebulae. Radio Spectral Lines from Molecules. Measuring the Mass of Our Galaxy. Molecular Hydrogen. The Formation of Stars. A Case Study: The Orion Molecular Cloud. PART 7: GALAXIES AND COSMOLOGY. 34. TYPES OF GALAXIES. Types of Galaxies. The Hubble Classification. The Centers of Galaxies. Interacting Galaxies. Clusters of Galaxies. Galactic Arcs and Gravitational Lensing. Active Galaxies. Radio Interferometry Astronomer's Notebook: Observing with the VLA. 35. GALAXIES AND THE EXPANDING UNIVERSE. Hubble's Law. The Expanding Universe. The Distance Scale of the Universe. Finding Hubble's Constant. Motions, Gravitational Pulls, Evolution, and Hubble's Constant. Superclusters and the Great Wall. The Most Distant Galaxies. The Origin of Galaxies. 36. QUASARS. The Discovery of Quasars. The Redshift in Quasars. The Importance of Quasars. Feeding the Monster. The Origin of the Redshifts. Associations of Galaxies with Quasars. Quasars with the Hubble Space Telescope. Superluminal Velocities. Quasars at Short Wavelengths. Double Quasars. 37. COSMOLOGY. Olbers's Paradox. The Big-Bang Theory. A Deeper Discussion: Einstein's Principle of Equivalence. The Steady-State Theory. The Cosmic Background Radiation. 38. THE PAST AND FUTURE OF THE UNIVERSE. The Creation of the Elements. The Future of the Universe. Forces in the Universe. Superstrings and Shadow Matter. The Inflationary Universe. Cosmic String and Texture. The Hubble Deep Field. In Review: Keeping Strings Straight. COBE: Has It Shown the Link to the Big Bang? Epilogue. Appendices. Selected Readings. Glossary. Illustration Acknowledgments. Index.
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