With exoplanets being discovered daily, Earth is still the only planet we know of that is home to creatures who seek a coherent explanation for the structure, origins, and fate of the universe, and of humanity s place within it. Today, science and religion are the two major cultural entities on our planet that share this goal of coherent understanding, though their interpretation of evidence differs dramatically. Many scientists look at the known universe and conclude we are here by chance. The renowned astronomer and historian of science Owen Gingerich looks at the same evidence along with the fact that the universe is comprehensible to our minds and sees it as proof for the planning and intentions of a Creator-God. He believes that the idea of a universe without God is an oxymoron, a self-contradiction. God s Planet" exposes the fallacy in thinking that science and religion can be kept apart.

Gingerich frames his argument around three questions: Was Copernicus right, in dethroning Earth from its place at the center of the universe? Was Darwin right, in placing humans securely in an evolving animal kingdom? And was Hoyle right, in identifying physical constants in nature that seem singularly tuned to allow the existence of intelligent life on planet Earth? Using these episodes from the history of science, Gingerich demonstrates that cultural attitudes, including religious or antireligious beliefs, play a significant role in what passes as scientific understanding. The more rigorous science becomes over time, the more clearly God s handiwork can be comprehended."

In this collection Gingerich focuses on the transformation of astronomy from Ptolemy's geocentrisim to Kepler's remoulding of Copernican cosmology. Several of Gingerich's favourite themes are illuminated: the importance of historical context in the study of science, the careful examination of work habits as a key to understanding, and the role of creativity and artistry in science. The work includes Dr Gingerich's well-known and influential essay on crisis versus aesthetic in the Copernican revolution, a look at Newton's "Principia" as a work of art, and one of Gingerich's most popular pieces, "The Computer versus Kepler".

Many scientists today think of the universe as essentially purposeless. Likewise, modern and postmodern philosophers have often been suspicious of any religious claims that the natural world embodies and eternal meaning or teleology. Not all scientific thinkers subscribe to this cosmic pessimism, however, and some would even argue that contemporary knowledge is consistent with a religious sense of cosmic purpose. This stimulating book offers candid reflections on the question of cosmic purpose written both by prominent scientists and by scholars representing the world's religious traditions. Examining the issue from a wide variety of perspectives, this is the only current book to deal with cosmic purpose from an interreligious and interdisciplinary perspective. Here scientists such as physicist Andrei Linde and biologist Francisco Ayala come face to face with Islamic scholar Seyyed Hossein Nasr, Hindu philosopher Anindita Niyogi Balslev, and others. They examine such perplexing issues as the possible existence of multiple universes and the implications of seemingly purposive features in life. The contributions address the question of whether a religiously-based notion of a purposeful cosmos is consistent with the latest scientific understanding of nature, and whether theology can affirm the presence of divine action without contradicting science. These essays will challenge readers to ponder their own place in the cosmos as they seek to interpret the visions of the world's great spiritual traditions in the light of natural science.

Born in Poland in 1473, Nicolaus Copernicus launched a quiet revolution. No scientist so radically transformed our understanding of our place in the universe as this curious bishop's doctor and church official. In his quest to discover a beautiful and coherent system to describe the motions of the planets, Copernicus placed the sun in the center of the system and made the earth a planet traveling around the sun. Today it is hard to imagine our solar system any other way, but for his time Copernicus's idea was earthshaking. In 1616 the church banned his book Revolutions because it contradicted the accepted notion that God placed Earth in the center of the universe. Even though those who knew of his work considered his idea dangerous, Revolutions remained of interest only to other scientists for many years. It took almost two hundred years for his concept of a sun-centered system to reach the general public. None the less, what Copernicus set out in his remarkable text truly revolutionized science. For this, Copernicus, a quiet doctor who made a tremendous leap of imagination, is considered the father of the Scientific Revolution.
Oxford Portraits in Science is an on-going series of scientific biographies for young adults. Written by top scholars and writers, each biography examines the personality of its subject as well as the thought process leading to his or her discoveries. These illustrated biographies combine accessible technical information with compelling personal stories to portray the scientists whose work has shaped our understanding of the natural world.

Ptolemy's "Almagest" is one of the most influential scientific works in history. A masterpiece of technical exposition, it was the basic textbook of astronomy for more than a thousand years, and still is the main source for our knowledge of ancient astronomy. This translation, based on the standard Greek text of Heiberg, makes the work accessible to English readers in an intelligible and reliable form. It contains numerous corrections derived from medieval Arabic translations and extensive footnotes that take account of the great progress in understanding the work made in this century, due to the discovery of Babylonian records and other researches. It is designed to stand by itself as an interpretation of the original, but it will also be useful as an aid to reading the Greek text.

Some 400 years after the first known patent application for a telescope by Hans Lipperhey, The Astronomy Revolution: 400 Years of Exploring the Cosmos surveys the effects of this instrument and explores the questions that have arisen out of scientific research in astronomy and cosmology. Inspired by the international New Vision 400 conference held in Beijing in October 2008, this interdisciplinary volume brings together expanded and updated contributions from 26 esteemed conference speakers and invited others. Looking beyond questions of science to the role of moral responsibility in human civilizations, the book offers the unique vantage points of contributions from both Eastern and Western cultures. Extensively illustrated in full color, this book consists of six parts. Aimed at young scientists, the first part presents perspectives on creativity and technology in scientific discovery. In the second part, contributors examine how the telescope has impacted our knowledge of the Universe-from the formation of galaxies to the death of stars. The third part of the book outlines some of the challenges we face in understanding dark matter, dark energy, black holes, and cosmic rays, and the fourth part discusses new technologies that will be useful in attacking new and unresolved questions. The fifth part of the book examines the intellectual impact that the telescope has had on society in China and in the West. The book concludes with an investigation of "big questions": What is the origin of the laws of physics as we know them? Are these laws the same everywhere? How do these scientific laws relate to the moral laws of society? Does what we know depend on cultural ways of asking the questions? Is there life elsewhere? And what about the questions that science cannot answer? Celebrating the historical significance of the telescope, this unique book seeks to inspire all those involved or interested i

Some 400 years after the first known patent application for a telescope by Hans Lipperhey, The Astronomy Revolution: 400 Years of Exploring the Cosmos surveys the effects of this instrument and explores the questions that have arisen out of scientific research in astronomy and cosmology. Inspired by the international New Vision 400 conference held in Beijing in October 2008, this interdisciplinary volume brings together expanded and updated contributions from 26 esteemed conference speakers and invited others. Looking beyond questions of science to the role of moral responsibility in human civilizations, the book offers the unique vantage points of contributions from both Eastern and Western cultures. Extensively illustrated in full color, this book consists of six parts. Aimed at young scientists, the first part presents perspectives on creativity and technology in scientific discovery. In the second part, contributors examine how the telescope has impacted our knowledge of the Universe-from the formation of galaxies to the death of stars. The third part of the book outlines some of the challenges we face in understanding dark matter, dark energy, black holes, and cosmic rays, and the fourth part discusses new technologies that will be useful in attacking new and unresolved questions. The fifth part of the book examines the intellectual impact that the telescope has had on society in China and in the West. The book concludes with an investigation of "big questions": What is the origin of the laws of physics as we know them? Are these laws the same everywhere? How do these scientific laws relate to the moral laws of society? Does what we know depend on cultural ways of asking the questions? Is there life elsewhere? And what about the questions that science cannot answer? Celebrating the historical significance of the telescope, this unique book seeks to inspire all those involved or interested i

1543 saw the publication of one of the most significant scientific works ever written: De revolutionibus (On the Revolutions of the Heavenly Spheres), in which Nicolaus Copernicus presented a radically different structure of the cosmos by placing the sun, and not the earth, at the centre of the universe. But did anyone take notice? Harvard astrophysicist Owen Gingerich was intrigued by the bold claim made by Arthur Koestler in his bestselling The Sleepwalkers that sixteenth-century Europe paid little attention to the groundbreaking, but dense, masterpiece. Gingerich embarked on a thirty-year odyssey to examine every extant copy to prove Koestler wrong... Logging thousands of hours and hundreds of thousands of miles Gingerich uncovered a treasure trove of material on the life of a book and the evolution of an idea. His quest led him to copies once owned by saints, heretics, and scallywags, by musicians and movie stars; some easily accessible, others almost lost to time, politics and the black market. Part biography of a book and a man, part bibliographic and bibliophilic quest, Gingerich's The Book Nobody Read is an utterly captivating piece of writing, a testament to the power both of books and the love of books.

Volume 4 of The General History of Astronomy, originally published in 1984, concerns the birth of modern astrophysics in the nineteenth century, the growth of astronomical institutions to around 1920, and the development of instrumentation. The volume commences in the 1850s, with the first astronomical applications of photography and spectral analysis. It closes in the 1950s, before the explosive growth made possible by new electronic devices and computers. In Part A, there are eleven chapters, written by an international panel of eighteen authors, on subjects such as observatories, large telescopes, astronomy in the southern hemisphere, and early radio astronomy. Intended for general readership, this book formed part of an in-depth synthesis of the development of astronomy from the earliest times.

Nicolaus Copernicus (1473-1543) is a pivotal figure in the birth of modern science, the astronomer who "stopped the sun and set the earth in motion." Born in Poland, educated at Cracow and then in Italy, he served all of his adult life as a church administrator. His vision of a sun-centered universe, shocking to many and unbelievable to most, turned out to be the essential blueprint for a physical understanding of celestial motions, thereby triggering what is commonly called "the Copernican revolution." A first edition of his world-changing treatise, De Revolutionibus Orbium Coelestium, has most recently been auctioned for more than $2 million. In this book, leading historian of science Owen Gingerich sets Copernicus in the context of a rapidly changing world, where the recent invention of printing with moveable type not only made sources more readily available to him, but also fueled Martin's Luther's transformation of the religious landscape. In an era of geographical exploration and discovery, new ideas were replacing time-honored concepts about the extent of inhabited continents. Gingerich reveals Copernicus' heliocentric revolution as an aesthetic achievement not dictated by observational "proofs," but another new way of looking at the ancient cosmos. Deftly combining astronomy and history, this Very Short Introduction offers a fascinating portray of the man who launched the modern vision of the universe. Out of Gingerich's engaging biography emerges the image of a scientist, intellectual, patriot, and reformer, who lived in an era when political as well as religious beliefs were shifting.

This is the catalogue of an exhibition, held in conjunction with the 50th Anniversary of the Class of 1933, featuring items given by Harrison Horblit '33, one of Houghton Library's most distinguished donors. The exhibition includes materials covering Manuscritps and the Cradle of Printing, Early Arithmetics, Early English Printing, the Scientific Renaissance, Printing and Bibliography, Interesting Bindings, and Early Photography.