Astronomy & Cosmology
(Landsberg, Peter) Hawking, Stephen W. | A Brief History of Time
£350.00
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First edition, the corrected second printing of this landmark popular work on the quest for the Grand Unified Theory. From the library of physicist Peter Landsberg, with his ownership signature, notes and highlighting, and letter to him loosely inserted.
Peter Landsberg (1922-2010), was a German Jewish refugee to Britain who earned his PhD in quantum mechanics at Imperial College London in 1949 and joined the faculties of the Universities of Cardiff and Southampton. “Landsberg was not solely interested in one branch of physics, he was interested in physics in general and this boyish enthusiasm took his research to all areas of theoretical work”, among them the quantum phenomenon known as bose condensation, the relationship between quantum mechanics and living things, thermodynamics, cosmology, and applications of solar energy. He is best known for his explication of “Landsberg efficiency”, the theoretical limits on how much solar power can be converted to electricity in a given situation (obituary in The Scotsman, May 23, 2010).
Landsberg has made numerous short notes — often page number references — and underlined a number of passages, primarily in chapters 8: The Origin and Fate of the Universe and 9: The Arrow of Time, that deal with thermodynamics and the inflationary model of the universe. Loosely inserted is a typed letter signed to Landsberg from Canon Robert Winnett (1910-1989), to whom the book had been loaned, and who writes that it conveyed to him “a sense of the infinite mystery of the universe, and of unplumbed depths still to be explored, an attitude which is surely akin to the religious”. He goes on the discuss how scientific ideas about the origin of the universe might align with Christianity and other religions, ending with the thought that “we are dealing with probabilities rather than certainties... The origins of religion lie in dimensions of human experience other than the scientific, and any cosmological theory can be interpreted theistically, or if we will, atheistically”.
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...From the Big Bang to Black Holes. Introduction by Carl Sagan. Illustrations by Ron Miller. New York: Bantam Books, 1988.
Octavo. Original black quarter cloth, dark grey boards, title to spine in silver, Hawking’s monogram to upper board in blind. With the dust jacket. Illustrations throughout the text. Binding a little rubbed and bumped. A very good copy in the rubbed and creased jacket with some bubbling of the plastic coating, especially along folds.
Lovell, Alfred Charles Bernard, Sir. | Archive of correspondence with astronomer Arthur Beer
£650.00
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An interesting archive of unpublished correspondence between leading radio astronomer Alfred Lovell (1913-2012) and astronomer and science populariser Arthur Beer.
Beer (1900-1980) was born in Richenberg, Bohemia (later Czechoslovakia), and educated in Austria and Germany. He worked as an astronomer at Breslau University, where he studied binary stars, and at the German Maritime Observatory. He also wrote newspaper columns and was responsible for developing one of the first scientific radio programmes, Aus Natur und Technik. Beer escaped from Germany in 1934, assisted by Einstein, who wrote him a public letter of recommendation, and spent the rest of his life in the UK. He worked at the Cambridge Solar Physics Observatory and at the Kew Observatory, and became a member of the Royal Astronomical Society. Beer’s most significant contribution to science was as the founding editor of Vistas in Astronomy, a “voluminous and thorough survey of present-day astronomy” in two volumes, conceived as a Festschrift celebrating the 70th birthday of astrophysicist Frederick J. M. Stratton, under whom he had served in Cambridge. The resulting volumes were so impressive that it was continued first as an annual book and then a quarterly journal.
Beer’s correspondent, the astronomer Alfred Lovell, became interested in radar astronomy while working on British military radar projects during the Second World War and seeing unexplained atmospheric phenomena on radar displays. After the war he set up the first radio telescopes at the University of Manchester, establishing his base at Jodrell Bank in Cheshire. His first major success was in using decommissioned military equipment to determine that the radar echoes he’d seen during the war were caused by meteors. In 1950 he convinced the university to fund a large, custom-designed radar telescope, the Mark I, which was finished just in time to track Sputnik and its launch rocket in 1957. “The technical achievement was acclaimed as a national triumph with defence significance–the rocket was essentially an intercontinental ballistic missile, and no other radar system in the world could detect it. The telescope became a national icon, as well as an emblem of the University of Manchester” (ODNB). He continued his work with telescopes Mark 2 and 3, making observations of a variety of astronomical events and bodies, including US and Soviet lunar probes, and later served as a government administrator for large telescope projects. His work was recognised with the award of the royal medal of the Royal Society in 1960, a knighted the following year, and the gold medal of the Royal Astronomical Society in 1981.
This file contains correspondence between Beer and Lovell from the initial conception of the Vistas project in early 1952 through the final stages of printing in December, 1954. Lovell opens with a formal request for papers on February 27th, 1952, and Lovell responds on March 7th, “Thank you for your letter... conveying the invitation to contribute to Professor Stratton’s commemoration volume. I shall be very glad to help with this. It is rather difficult to make suggestions about the nature of the contribution until I know what other radio astronomers might be contributing. For example, the nature of any contributions from the Radio School in Cambridge would obviously influence my own contribution great deal. My provisional answer is, therefore, that I will write about radio astronomy, the exact aspect depending upon what other contributions in this field you are expecting to get. Perhaps you will let me know about this in due course.”
On Mach 5th Beer writes that, “The arrangement of the book has made very good progress in the meantime, and you will be pleased to hear that all essential fields appear to be covered by their leading experts. The main sections will be: - Astronomical Vistas, Dynamical Astronomy... Each section has a number of contributors fro various countries; our latest acquisition was the director of the Mount Wilson and Palomar Observatories... At present the negotiations with publishers are my main preoccupation. For this purpose I am now preparing a provisional list of contributors and suggested titles... Apart from yourself I have only approached two others from your field, namely Ratcliffe and Ryle... Ryle wanted to communicate with you directly as to the question of how to share the radio-astronomical heavens. If you would care to state which part you would like to take over, I shall be delighted to make the necessary arrangements.” Later, in November, he writes to say that he can include a second article by Lovell and wonders if this might also include a drawing or plan of the proposed Mark I telescope. On December 5th Lovell responds, “Thank you for your letter of November 29th, which we discussed when I met you on Wednesday. Subsequently I was able to talk to Ryle and the position now seems quite clear. I shall do my best to let you have two articles from Jodrell Bank - one on Meteors and the other on Pencil Beam Techniques in radio Astronomy, including the new Radio Telescope.”
Additional correspondence follows, primarily related to the forwarding of the articles and illustrations, proofing, and progress with the publishers, with one notable letter from Lovell reading, “I must say that the method used by Pergamon press is excessively irritating and I have never in the whole of my experience had to waste so much time owing to the fact that the proofs and the diagrams have come in bits and pieces over periods of many months. You must be having an awful job on this!”
The two pieces submitted by Lovell were “Large Radio Telescopes and Their Use in Radio Astronomy” (co-authord by R. Hanbury Brown) and “Radio Echo Studies of Meteors” (with J. G. Davies). Of the 16 typed letters signed by Lovell, one has had the signature clipped out to be reproduced in Vistas, and also included in the file is a short autograph note from Lovell’s collaborator R. Hanbury Brown providing a signature as well. There is also a further typed note by Lovell indicating that he wants to approach Lovell for a piece on tracking Sputnik, presumably for a later issue of Vistas, but there is no related correspondence.
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...during the production of Vistas in Astronomy. Manchester, 1952-1956.
Including 16 typed letters signed (one with the signature clipped out for reproduction in Vistas in Astronomy) and 1 autograph letter signed by Lovell, together with yellow carbons of Beer’s typed letters, bound together with green string with metal caps in Beer’s tan folder with the name Lovell in ink on the cover. Rust stains to the top three documents and the lower document from the metal caps on the binding string, not affecting the Lovell letters. Occasional mild creasing, otherwise the contents fresh and in excellent condition.
Tyson, Neil deGrasse | Death by Black Hole
£150.00
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Sixth printing, published in the same year as the first. Presentation copy inscribed by the author in elaborate calligraphy on the half title, “To: Ravonne, Welcome to the Universe, Neil D. Tyson, May 2007”. Uncommon signed. The present volume is a collection of forty-two essays originally published in Tyson’s “Universe” column in Natural History Magazine between 1995 and 2005.
Astrophysicist Neil DeGrasse Tyson’s (1958 - ) interest in astronomy began during childhood, when he viewed the Moon’s surface through a friend’s binoculars. Tyson studied at Harvard, the University of Texas, and Columbia, then joined the faculty of Princeton, where “many students found him a particularly inspiring professor” (Krapp, Notable Black American Scientists, p. 304). His academic research has been focused on cosmology, particularly star births and supernovae, and the structure of the Milky Way and other galaxies.
Throughout his career Tyson has also been focused on sharing astronomy with the general public, leading to him becoming one of the world’s most famous scientists. Since 1996 he has been the director of the Hayden Planetarium in New York; written columns in popular magazines; published sixteen books; become a popular figure on Twitter; and hosted several television shows, including the 2004 PBS series Origins and the 2014 reboot of Carl Sagan’s Cosmos. His reputation, however, has been affected by rape and sexual harassment allegations made public by fellow graduate student Thchiya Amet El Maat, professor Katelyn Allers, former assistant Ashley Watson, and an anonymous woman in late 2018.
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...and Other Cosmic Quandaries. New York & London: W. W. Norton & Company, 2007.
Octavo. Original yellow boards, black paper backstrip, titles to spine gilt. With the dust jacket. A little light rubbing at the edges, minor bump to the upper corner of the boards. An excellent copy in the jacket with a little creasing at the head of the spine panel and a minor vertical crease near the top of the spine panel.
Urey, Harold | Archive of correspondence with astronomer Arthur Beer
£1,250.00
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An archive of correspondence between astronomer Arthur Beer and Nobel Prize winning chemist Harold Urey regarding the latter’s contribution to Vistas in Astronomy.
Beer (1900-1980) was born in Richenberg, Bohemia (later Czechoslovakia), and educated in Austria and Germany. He worked as an astronomer at Breslau University, where he studied binary stars, and at the German Maritime Observatory. He also wrote newspaper columns and was responsible for developing one of the first scientific radio programmes, Aus Natur und Technik. Beer escaped from Germany in 1934, assisted by Einstein, who wrote him a public letter of recommendation, and spent the rest of his life in the UK. He worked at the Cambridge Solar Physics Observatory and at the Kew Observatory, and became a member of the Royal Astronomical Society. Beer’s most significant contribution to science was as the founding editor of Vistas in Astronomy, a “voluminous and thorough survey of present-day astronomy” in two volumes, conceived as a Festschrift celebrating the 70th birthday of astrophysicist Frederick J. M. Stratton, under whom he had served in Cambridge. The resulting volumes were so impressive that it was continued first as an annual book and then a quarterly journal.
American chemist Harold Urey (1893-1981) did key work on atomic and molecular structures, particularly hydrogen isotopes. This led him to the discovery of deuterium, for which he was awarded the Nobel Prize in 1934. During the Second World War he led the Manhattan Project’s branch at Columbia University, where he applied his knowledge of isotope separation techniques to the problem of isolating of pure uranium 235 on an industrial scale. After the war he worked at the Institute for Nuclear Studies at the University of Chicago. In 1958 Urey moved to the University of California, San Diego, where he did groundbreaking work on the origins of life on Earth, conducting a laboratory simulation of the conditions on the early Earth and proving that they were ideal for the production of cellular building blocks such as amino acids.
The correspondence present here consists of five letters from Urey, mainly on practical issues connected with his contribution to Beer’s book. In the first, on September 10th, 1952, he replies to Beer’s request for submissions, apologising for taking so long to reply as “I have not been able to think of a subkect to write about. I am leaving for Europe on the 14th of September and hope to visit Cambridge about October 15th. If it isn’t too late by that time perhaps we can discuss the question then. In the meantime, I will turn this over in my mind and try to think of something that I might contribute to the book.” On January 8th the following year he writes, “At last the paper for the Stratton volume!... I wish it were a better paper. If you do not wish to publish it I shall not be offended at all. There are quite a few notes and I believe references and notes are more easily read if placed at the bottom of the page. But perhaps your rules are all made long ago.” Later that month Urey sends short note to confirm receipt of the document, and in July he asks that the proofs be mailed to him in Stockholm. The final letter, dated by Beer in pencil as postmarked July 31st, 1953, discusses the terms he has chosen for the index (”I have underlined [in the returned proof, not present here] expressions indicating topics for the index... on the margins I have written additional suggestions” and relates that the illustrations had not arrived yet when he left for the states, but that “I believe the figures can be assumed to be all right”.
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Chicago, 1952-53. Including 3 typed letters signed (one with the signature removed for reproduction in Vistas in Astronomy) and 2 autograph letters signed by Urey. Housed in Beer’s tan paper folder with “Urey” in ink on the cover. Just a little creasing to some pieces. Excellent condition.
Wright, F. E, F. H., and Helen | The Lunar Surface: Introduction
£450.00
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A rare offprint of a book chapter by the geologist and optical scientist who was considered the foremost authority on the Moon. This copy is inscribed for presentation by his daughter and co-author, science historian Helen Wright, and it comes from the library of Allan R. Sandage, the astronomer who determined the first reasonably accurate values for the Hubble Constant and the age of the universe and was considered “the greatest and most influential observational astronomer of the last half-century” (NY Times obituary, November 17, 2010). Worldcat locates only two other copies of this offprint, at the Huntington and the US Naval Observatory.
Frederick Eugene Wright (1877-1953) spent much of his career at the Carnegie Institute, where he led the Moon Project at the Mount Wilson observatory and “specialized in mineralogy, crystallography and petrology. He developed various optical instruments, chiefly for petrology, and also wrote on the manufacture of optical glass... Wright took a special interest in studying the Moon. He charted all aspects of the orb from its chemical and mineralogical content to the characteristics of its craters and seas and its temperatures. So extensive and detailed was his work that the Moon’s Wright Crater is named after him and two other astronomers” (Optical Society of America biography).
Wright’s daughter Helen began her career as an assistant at Mount Wilson, researching the history of telescopes, and she also worked at the Vassar and U. S. Naval Observatories. Among her publications were biographies of astronomers George Ellery Hale and Maria Mitchell. She has inscribed this copy “Speaking of the Moon! All the best, Helen Wright”. We strongly suspect that it was inscribed for Allan Sandage’s wife, the astronomer Mary Connelly, who had studied at Indiana University and Radcliffe, and was teaching at Mount Holyoke when they met and married.
Allan R. Sandage (1926-2010) completed his physics degree at the University of Illinois in 1948, then became a graduate student at Caltech, where he “learned the nuts and bolts of observing with big telescopes [at the Mount Wilson Observatory] from the founders of modern cosmology, Hubble; Walter Baade, who became his thesis adviser, and Milton Humason, a former mule driver who had become Hubble’s right-hand man” (NY Times). “For his doctoral thesis he studied the stars in the globular cluster Messier 3 and the RR Lyrae variable stars it contains. Refinements in the accuracy of the distances to variable stars became a recurring theme of his work, as these were the first step in determining the ladder of distances through which the true scale of the universe was measured” (Guardian obituary, December 9, 2010).
Sandage’s first major contribution was the 1961 paper, “The Ability of the 200-inch Telescope to Discriminate Between Selected World Models”, which “may well have been ‘the most influential paper ever written in any field even close to cosmology’... It was to set the direction of observational cosmology for 40 years, ruling out the Steady State and the Big Crunch and culminating in the surprise discovery in 1998 that the expansion is not slowing down at all but speeding up” (NY Times). Next, by investigating the motion of old stars in the Milky Way, he and two co-authors showed in 1962 “that that the Milky Way formed from the collapse of a primordial gas cloud probably some 10 billion years ago. That paper still forms the basis of science’s understanding of where the galaxy came from” (NY Times). He continually revised the estimate of Hubble’s constant, the speed at which the universe is expanding. “By 1975 the value, they said, was all the way down to 50, corresponding to an age of as much as 20 billion years, comfortably larger than the ages of galaxies and globular clusters. This allowed them to conclude that the universe was not slowing down enough for gravity to reverse the expansion into a Big Crunch. That was in happy agreement with astronomers who had found that there was not enough matter in the universe to generate the necessary gravity” (NY Times).
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...Reprinted from Middlehurst and Kuiper: The Moon, Meteorites, and Comets (The Solar System, Vol. IV). Chicago: The University of Chicago Press, 1963.
56-page pamphlet, wire-stitched. Original buff wrappers printed in black. 3 double-sided plates, illustrations and charts within the text. Wrappers a little creased and toned, with some small marks and scratches, minor crease affecting the lower corner of the contents. Very good condition