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The Origins of the Telescope
The origins of the telescope have been discussed and debated since shortly after the instrument's appearance in The Hague in 1608. Civic and national pride have led local dignitaries, popular writers, and numerous scholars to search the archives and to construct sharply divergent histories. Did the honor of the invention belong to the Dutch, to the Italians, to the English, or to the Spanish? And if the city of Middelburg in the Netherlands was, in fact, the cradle of the instrument, was the "true inventor" Hans Lipperhey or his rival Zacharias Jansen? Or was the instrument there before anyone knew it? Over the past several decades, a group of historians and scientists have sought out new documents, re-examined familiar ones, and tested early lenses and telescopes. This volume contains the proceedings of a symposium held in Middelburg in September 2008 to mark 400 years of the telescope. The essays in it, taken as a whole, present a new and convincing account of the origins of the instrument that changed mankind's vision of the universe.
Measuring the Universe
Measuring the Universe is the first history of the evolution of cosmic dimensions, from the work of Eratosthenes and Aristarchus in the third century B.C. to the efforts of Edmond Halley (1656—1742). "Van Helden's authoritative treatment is concise and informative; he refers to numerous sources of information, draws on the discoveries of modern scholarship, and presents the first book-length treatment of this exceedingly important branch of science."—Edward Harrison, American Journal of Physics "Van Helden writes well, with a flair for clear explanation. I warmly recommend this book."—Colin A. Ronan, Journal of the British Astronomical Association
On Sunspots
Galileo’s telescopic discoveries, and especially his observation of sunspots, caused great debate in an age when the heavens were thought to be perfect and unchanging. Christoph Scheiner, a Jesuit mathematician, argued that sunspots were planets or moons crossing in front of the Sun. Galileo, on the other hand, countered that the spots were on or near the surface of the Sun itself, and he supported his position with a series of meticulous observations and mathematical demonstrations that eventually convinced even his rival. On Sunspots collects the correspondence that constituted the public debate, including the first English translation of Scheiner’s two tracts as well as Galileo’s three letters, which have previously appeared only in abridged form. In addition, Albert Van Helden and Eileen Reeves have supplemented the correspondence with lengthy introductions, extensive notes, and a bibliography. The result will become the standard work on the subject, essential for students and historians of astronomy, the telescope, and early modern Catholicism.
Galileo Project, Rice University
Presents the Galileo Project, an information resource on the life and work of Galileo Galilei (1564-1642), the Italian mathematician and astronomer. Includes information on the scientist's family and career. Offers information on the Inquisition and contains collections of images. Provides a bibliography of the Project and offers access to information on Galileo's discoveries. Links to maps, a timeline, student works, and other related resources.
Simon Marius and His Research
The margravial court astronomer Simon Marius, was involved in all of the new observations made with the recently invented telescope in the early part of the seventeenth century. He also discovered the Moons of Jupiter in January 1610, but lost the priority dispute with Galileo Galilei, because he missed to publish his findings in a timely manner. The history of astronomy neglected Marius for a long time, finding only the apologists for the Copernican system worthy of attention. In contrast the papers presented on the occasion of the Simon Marius Anniversary Conference 2014, and collected in this volume, demonstrate that it is just this struggle to find the correct astronomical system that makes him particularly interesting. His research into comets, sunspots, the Moons of Jupiter and the phases of Venus led him to abandon the Ptolemaic system and adopt the Tychonic one. He could not take the final step to heliocentricity but his rejection was based on empirical arguments of his time. This volume presents a translation of the main work of Marius and shows the current state of historical research on Marius.
Sidereus Nuncius, or The Sidereal Messenger
The “revolutionary, scintillating book” in which Galileo revealed his wondrous astronomical discoveries, with accompanying notes and historical context (Metascience). Galileo Galilei’s Sidereus Nuncius is arguably the most dramatic scientific book ever published. It announced new and unexpected phenomena in the heavens, “unheard of through the ages,” revealed by a mysterious new instrument. Galileo had ingeniously improved the rudimentary “spyglasses” that appeared in Europe in 1608, and in the autumn of 1609 he pointed his new instrument at the sky, discovering astonishing sights: mountains on the moon, fixed stars invisible to the naked eye, individual stars in the Milky Way,...
Giuseppe Campani, “Inventor Romae,” an Uncommon Genius
The ingenious and ambitious Campani brothers—Matteo, Pier Tommaso, and Giuseppe—were at the core of thriving activity of technological and scientific innovation that involved popes, the Sun King, and other rulers of baroque Europe. Especially Giuseppe’s outstanding production of innovating clocks, telescopes, and microscopes, attracted the attention of the most important scientific characters and experimental academies of the time. This posthumous book by Silvio Bedini is the result of a fifty-year-long study that will serve not just as a reference work for scholars interested in seventeenth-century clockmaking, practical optics, astronomy, and science and technology in general, but it also will provide you with unique insights into the scientific and technological landscape of baroque Rome and its links to a broader European scene. The author's narrative style and the many illustrations which accompany the story, make this book also for non-specialists an enjoyable read.
Julian Huxley, Biologist and Statesman of Science
Julian Huxley (1887-1975) was a man of many talents and enormous energy. At the beginning of his career, he founded the Biology Department at Rice Institute, where he taught for three years before going on to achieve eminence as a biologist, statesman, and intellectual. While this volume concentrates on Huxley's contributions to field and laboratory biology, it also provides the first in-depth examination of his efforts to popularize science and to advance the human species through eugenics. The first part of the book places Huxley in a broad intellectual context and offers an overview of his contributions to biology as they related to major developments in twentieth-century evolutionary theory. Huxley's biological work is investigated in more depth in the second part, while the third examines him as a public scientist and takes a new look at his efforts to bring biology and its potential benefits to the community at large. It is hoped that the book will spur further research into Huxley's religious and social views and his public role in science.
The Long Route to the Invention of the Telescope
After the telescope became known in 1608-1609, a number of people in widely separate locations claimed that they had such a device long before the announcement came from The Hague; in the summer of 1608, no one had a telescope, in the summer of 1609, everyone had one. For a number of years author Rolf Willach has quietly tested early spectacle lenses in museums and private collections, and now he reports on this study, which gives an entirely new explanation of the invention of the telescope and solves the conundrum mentioned above. Willach is an optical engineer and independent scholar who worked for several years in the Department of Physics at the Institute of Astronomy in Bern. He has written extensively on the history of the development of optics and the telescope.
