front cover of The 50 Most Extreme Places in Our Solar System
The 50 Most Extreme Places in Our Solar System
David Baker and Todd Ratcliff
Harvard University Press, 2010

The extreme events that we hear about daily—hurricanes, earthquakes, tsunamis, and volcanic eruptions—are extreme in purely human terms, in the devastation they do. But this book moves our understanding of the extreme into extraterrestrial dimensions and gives us an awe-inspiring sense of what our solar system at its utmost can do. Martian dust devils taller than Mount Everest. A hurricane that lasts over 340 years. Volcanoes with “lava” colder than Antarctica. Hail made of diamonds. Here, as the authors say, the “WOW” factor is restored to our understanding of scientific discovery, as we witness the grandeur and the weirdness that inspire researchers to dig deeper and go ever farther into the mysteries of the universe.

The 50 Most Extreme Places in Our Solar System combines a fascination with natural disasters and the mesmerizing allure of outer space to take readers on a journey that will forever change the way they view our solar system. Full of dazzling photographs from NASA’s most recent observations, this book explores extreme regions on Earth and beyond—giant turbulent storms, explosive volcanoes, and the possibility of life surviving in harsh conditions.

More than a collection of facts, the book conveys the dynamism of science as a process of exploration and discovery. As they amuse and entertain, David Baker and Todd Ratcliff, two experts in planetary science, highlight recent developments and unresolved mysteries and strive, at every turn, to answer that important scientific question: “Why?”

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front cover of 924 Elementary Problems and Answers in Solar System Astronomy
924 Elementary Problems and Answers in Solar System Astronomy
Van Allen, James A.
University of Iowa Press, 1993

This challenging collection of problems is organized into seven carefully crafted, thoughtful chapters on the Sun and the nature of the solar system; the motion of the planets; the Sun, Earth, and Moon; the sky as observed from the rotating, revolving Earth; other planets, their satellites, their rings; asteroids, comets, and meteoroids; and the radiations and telescopes. From question 1, "List characteristics of the solar system that are major clues in devising a hypothesis of its origin and evolution," through question 924, "Give a brief list of the contributions of radio and radar technologies in lunar and planetary astronomy," the problems range in difficulty from ones requiring only simple knowledge to ones requiring significant understanding and analysis. Many of the answers, in turn, illuminate the questions by providing basic explanations of the concepts involved.

Pioneer 10 and 11 are now halfway to the edge of the solar system. All beginning and advanced students of astronomy and their instructors as well as all dedicated amateurs can join James Van Allen on this journey by exploring the questions and answers in this stimulating book.

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The Age of Everything
How Science Explores the Past
Matthew Hedman
University of Chicago Press, 2007
Taking advantage of recent advances throughout the sciences, Matthew Hedman brings the distant past closer to us than it has ever been. Here, he shows how scientists have determined the age of everything from the colonization of the New World over 13,000 years ago to the origin of the universe nearly fourteen billion years ago.

Hedman details, for example, how interdisciplinary studies of the Great Pyramids of Egypt can determine exactly when and how these incredible structures were built. He shows how the remains of humble trees can illuminate how the surface of the sun has changed over the past ten millennia. And he also explores how the origins of the earth, solar system, and universe are being discerned with help from rocks that fall from the sky, the light from distant stars, and even the static seen on television sets.

Covering a wide range of time scales, from the Big Bang to human history, The Age of Everything is a provocative and far-ranging look at how science has determined the age of everything from modern mammals to the oldest stars, and will be indispensable for all armchair time travelers.
 
“We are used to being told confidently of an enormous, measurable past: that some collection of dusty bones is tens of thousands of years old, or that astronomical bodies have an age of some billions. But how exactly do scientists come to know these things? That is the subject of this quite fascinating book. . . . As told by Hedman, an astronomer, each story is a marvel of compressed exegesis that takes into account some of the most modern and intriguing hypotheses.”—Steven Poole, Guardian
 
“Hedman is worth reading because he is careful to present both the power and peril of trying to extract precise chronological data. These are all very active areas of study, and as you read Hedman you begin to see how researchers have to be both very careful and incredibly audacious, and how much of our understanding of ourselves—through history, through paleontology, through astronomy—depends on determining the age of everything.”—Anthony Doerr, Boston Globe 
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front cover of The Galaxy and the Solar System
The Galaxy and the Solar System
Roman Smoluchowski
University of Arizona Press, 1986
"An informative and well-balanced collection of articles by many authors, these ideas are clearly set out, and explored in some detail. . . . An excellent and readable source book."--Endeavour"It is an excellent, well-organized textbook."--Science Books and Films
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Many Skies
Alternative Histories of the Sun, Moon, Planets, and Stars
Upgren, Arthur
Rutgers University Press, 2012
What if Earth had several moons or massive rings like Saturn?  What if the Sun were but one star in a double-star or triple-star system?  What if Earth were the only planet circling the Sun? 

These and other imaginative scenarios are the subject of Arthur Upgren's inventive book Many Skies: Alternative Histories of the Sun, Moon, Planets, and Stars. Although the night sky as we know it seems eternal and inevitable, Upgren reminds us that, just as easily, it could have been very different.

Had the solar sytem happened to be in the midst of a star cluster, we might have many more bright stars in the sky.  Yet had it been located beyond the edge of the Milky Way galaxy, we might have no stars at all.  If Venus or Mars had a moon as large as ours, we would be able to view it easily with the unaided eye.  Given these or other alternative skies, what might Ptolemy or Copernicus have concluded about the center of the solar sytem and the Sun?

This book not only examines the changes in science that these alternative solar, stellar, and galactic arrangements would have brought, it also explores the different theologies, astrologies, and methods of tracking time that would have developed to reflect them. Our perception of our surroundings, the number of gods we worship, the symbols we use in art and literature, even the way we form nations and empires are all closely tied to our particular (and accidental) placement in the universe.

Many Skies, however, is not merely a fanciful play on what might have been.  Upgren also explores the actual ways that human interferences such as light pollution are changing the night sky.  Our atmosphere, he warns, will appear very different if we have belt of debris circling the globe and blotting out the stars, as will happen if advertisers one day pollute space with brilliant satellites displaying their products.

From fanciful to foreboding, the scenarios in Many Skies will both delight and inspire reflection, reminding us that ours is but one of many worldviews based on our experience of a universe that is as much a product of accident as it is of intention.
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front cover of Meteorites and the Early Solar System
Meteorites and the Early Solar System
John F. Kerridge
University of Arizona Press, 1988
Although the Earth was formed, together with the other planets, at the birth of the solar system, geological activity has since erased all but a hint of the processes that accompanied its formation. If we wish to explore the processes that occurred in the earliest solar system, and the nature of the environment in which they took place, we must turn to the record contained in more primitive material. Many meteorites appear to satisfy that criterion, and much effort has been applied during the past twenty years or so in identifying those meteorites, or their constituents, that have retained a reliable record of the early solar system. This book provides a synthesis of what has been learned so far about the earliest stages of solar system history through the study of meteorites, and what, given our current level of understanding, remains to be learned. Contents 1. Introduction 2. Source Regions 3. Secondary Processing 4. Irradiation Effects 5. Solar System Chronology 6. Chondrites and the Early Solar System 7. Elemental Composition of Chondrites 8. Magnetic Fields in the Early Solar System 9. Chondrules10. Primitive Material Surviving in chondrites11. Micrometeorites12. Inhomogencity of the Nebula13. Survival of Presolar Material in Meteorites14. Nucleosynthesis15. Nucleocosmochronology16. Summary
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front cover of Meteorites and the Early Solar System II
Meteorites and the Early Solar System II
Edited by Dante S. Lauretta and Harry Y. McSween
University of Arizona Press, 2006
They range in size from microscopic particles to masses of many tons. The geologic diversity of asteroids and other rocky bodies of the solar system are displayed in the enormous variety of textures and mineralogies observed in meteorites. The composition, chemistry, and mineralogy of primitive meteorites collectively provide evidence for a wide variety of chemical and physical processes. This book synthesizes our current understanding of the early solar system, summarizing information about processes that occurred before its formation. It will be valuable as a textbook for graduate education in planetary science and as a reference for meteoriticists and researchers in allied fields worldwide.
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front cover of Protostars and Planets
Protostars and Planets
Tom Gehrels
University of Arizona Press, 1979
Unique source book on star formation and the origin of planetary systems from some 35 distinguished authors. Topics include the formation of stars from the cloudy to the stellar to the planetary state. Special emphasis on stars believed capable of producing planets.
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front cover of Protostars and Planets II
Protostars and Planets II
David C. Black
University of Arizona Press, 1985
Based on meetings held in Tucson, Arizona in 1984, this volume brought up-to-date recent advances and research on the cosmogony of stars and planets. This book presents the written thoughts of the principle speakers (and their colleagues) from the 1984 meeting. This work continued work started in 1978 to investigate the problems of star formation and the formation of the solar system.
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