Almagest

The Almagest is a 2ndcentury mathematical and astronomical treatise on the apparent motions of the stars and planetary paths. Written in Greek by Claudius Ptolemy, a Roman era scholar of Egypt, it is one of the most influential scientific texts of all time, with its geocentric model accepted for more than twelve hundred years from its origin in Hellenistic Alexandria, in the medieval Byzantine and Islamic worlds, and in Western Europe through the Middle Ages and early Renaissance until Copernicus.
The Almagest is a critical source of information on ancient Greek astronomy. It has also been valuable to students of mathematics because it documents the ancient Greek mathematician Hipparchus's work, which has been lost. Hipparchus wrote about trigonometry, but because his works are no longer extant, mathematicians use Ptolemy's book as their source for Hipparchus' works and ancient Greek trigonometry in general.^{[dubious – discuss]}
The treatise's conventional Greek title is Μαθηματικὴ Σύνταξις (Mathēmatikē Syntaxis), and the treatise is also known by the Latin form of this, Syntaxis mathematica. It was later titled Hē Megalē Syntaxis (The Great Treatise), and the superlative form of this (Ancient Greek: μεγίστη, "greatest") lies behind the Arabic name almajisṭī (المجسطي), from which the English name Almagest derives.
Ptolemy set up a public inscription at Canopus, Egypt, in 147 or 148. The late N. T. Hamilton found that the version of Ptolemy's models set out in the Canopic Inscription was earlier than the version in the Almagest. Hence the Almagest cannot have been completed before about 150, a quarter century after Ptolemy began observing.^{[1]}
Contents
Contents
Books
The Almagest (Almagestum) consisted of thirteen sections, called books. As with many medieval manuscripts that were handcopied or particularly in the early years of printing, there were considerable differences between various editions of the same text, as the process of transcription was highly personal. An example illustrating how the Almagest was organized is given below. It is a 152 page Latin edition printed in 1515 at Venice by Petrus Lichtenstein.^{[2]}
 Book I contains an outline of Aristotle's cosmology: on the spherical form of the heavens, with the spherical Earth lying motionless as the center, with the fixed stars and the various planets revolving around the Earth. Then follows an explanation of chords with table of chords; observations of the obliquity of the ecliptic (the apparent path of the Sun through the stars); and an introduction to spherical trigonometry.
 Book II covers problems associated with the daily motion attributed to the heavens, namely risings and settings of celestial objects, the length of daylight, the determination of latitude, the points at which the Sun is vertical, the shadows of the gnomon at the equinoxes and solstices, and other observations that change with the spectator's position. There is also a study of the angles made by the ecliptic with the vertical, with tables.
 Book III covers the length of the year, and the motion of the Sun. Ptolemy explains Hipparchus' discovery of the precession of the equinoxes and begins explaining the theory of epicycles.
 Books IV and V cover the motion of the Moon, lunar parallax, the motion of the lunar apogee, and the sizes and distances of the Sun and Moon relative to the Earth.
 Book VI covers solar and lunar eclipses.
 Books VII and VIII cover the motions of the fixed stars, including precession of the equinoxes. They also contain a star catalogue of 1022 stars, described by their positions in the constellations. The brightest stars were marked first magnitude (m = 1), while the faintest visible to the naked eye were sixth magnitude (m = 6). Each numerical magnitude was twice the brightness of the following one, which is a logarithmic scale. This system is believed to have originated with Hipparchus. The stellar positions too are of Hipparchan origin, despite Ptolemy's claim to the contrary.
 Book IX addresses general issues associated with creating models for the five naked eye planets, and the motion of Mercury.
 Book X covers the motions of Venus and Mars.
 Book XI covers the motions of Jupiter and Saturn.
 Book XII covers stations and retrograde motion, which occurs when planets appear to pause, then briefly reverse their motion against the background of the zodiac. Ptolemy understood these terms to apply to Mercury and Venus as well as the outer planets.
 Book XIII covers motion in latitude, that is, the deviation of planets from the ecliptic.
Ptolemy's cosmos
The cosmology of the Almagest includes five main points, each of which is the subject of a chapter in Book I. What follows is a close paraphrase of Ptolemy's own words from Toomer's translation.^{[3]}
 The celestial realm is spherical, and moves as a sphere.
 The Earth is a sphere.
 The Earth is at the center of the cosmos.
 The Earth, in relation to the distance of the fixed stars, has no appreciable size and must be treated as a mathematical point.^{[4]}
 The Earth does not move.
Ptolemy's planetary model
Ptolemy assigned the following order to the planetary spheres, beginning with the innermost:
 Moon
 Mercury
 Venus
 Sun
 Mars
 Jupiter
 Saturn
 Sphere of fixed stars
Other classical writers suggested different sequences. Plato (c. 427 – c. 347 BC) placed the Sun second in order after the Moon. Martianus Capella (5th century AD) put Mercury and Venus in motion around the Sun. Ptolemy's authority was preferred by most medieval Islamic and late medieval European astronomers.
Ptolemy inherited from his Greek predecessors a geometrical toolbox and a partial set of models for predicting where the planets would appear in the sky. Apollonius of Perga (c. 262 – c. 190 BC) had introduced the deferent and epicycle and the eccentric deferent to astronomy. Hipparchus (2nd century BC) had crafted mathematical models of the motion of the Sun and Moon. Hipparchus had some knowledge of Mesopotamian astronomy, and he felt that Greek models should match those of the Babylonians in accuracy. He was unable to create accurate models for the remaining five planets.
The Almagest adopted Hipparchus' solar model, which consisted of a simple eccentric deferent. For the Moon, Ptolemy began with Hipparchus' epicycleondeferent, then added a device that historians of astronomy refer to as a "crank mechanism":^{[5]} He succeeded in creating models for the other planets, where Hipparchus had failed, by introducing a third device called the equant.
Ptolemy wrote the Almagest as a textbook of mathematical astronomy. It explained geometrical models of the planets based on combinations of circles, which could be used to predict the motions of celestial objects. In a later book, the Planetary Hypotheses, Ptolemy explained how to transform his geometrical models into threedimensional spheres or partial spheres. In contrast to the mathematical Almagest, the Planetary Hypotheses is sometimes described as a book of cosmology.
Impact
Ptolemy's comprehensive treatise of mathematical astronomy superseded most older texts of Greek astronomy. Some were more specialized and thus of less interest; others simply became outdated by the newer models. As a result, the older texts ceased to be copied and were gradually lost. Much of what we know about the work of astronomers like Hipparchus comes from references in the Almagest.
The first translations into Arabic were made in the 9th century, with two separate efforts, one sponsored by the caliph AlMa'mun. Sahl ibn Bishr is thought to be the first Arabic translator. By this time, the Almagest was lost in Western Europe, or only dimly remembered in astrological lore. Consequently, Western Europe rediscovered Ptolemy from translations of Arabic versions. In the 12th century a Spanish version was produced, which was later translated under the patronage of Alfonso X. Gerard of Cremona translated the Almagest into Latin directly from the Arabic version. Gerard translated the Arabic text while working at the Toledo School of Translators, although he was unable to translate many technical terms such as the Arabic Abrachir for Hipparchus. This Spanish version was later translated into Latin under the patronage of Frederick II.^{[citation needed]}
In the 15th century, a Greek version appeared in Western Europe. The German astronomer Johannes Müller (known, from his birthplace of Königsberg, as Regiomontanus) made an abridged Latin version at the instigation of the Greek churchman Johannes, Cardinal Bessarion. Around the same time, George of Trebizond made a full translation accompanied by a commentary that was as long as the original text. George's translation, done under the patronage of Pope Nicholas V, was intended to supplant the old translation. The new translation was a great improvement; the new commentary was not, and aroused criticism.^{[citation needed]} The Pope declined the dedication of George's work,^{[citation needed]} and Regiomontanus's translation had the upper hand for over 100 years.
During the 16th century, Guillaume Postel, who had been on an embassy to the Ottoman Empire, brought back Arabic disputations of the Almagest, such as the works of alKharaqī, Muntahā alidrāk fī taqāsīm alaflāk ("The Ultimate Grasp of the Divisions of Spheres", 1138/9).^{[6]}
Commentaries on the Almagest were written by Theon of Alexandria (extant), Pappus of Alexandria (only fragments survive), and Ammonius Hermiae (lost).
Modern editions
The Almagest was edited by J. L. Heiberg in Claudii Ptolemaei opera quae exstant omnia, vols. 1.1 and 1.2 (1898, 1903).
Two translations of the Almagest into English have been published . The first, by R. Catesby Taliaferro of St. John's College in Annapolis, Maryland, was included in volume 16 of the Great Books of the Western World; the second, by G. J. Toomer, Ptolemy's Almagest in 1998;^{[3]}
An older French translation (facing the Greek text), published in two volumes in 1813 and 1816 by Nicholas Halma, is available online at the Gallica web site [1] and [2]
Footnotes
 ^ NT Hamilton, N. M. Swerdlow, G. J. Toomer. "The Canobic Inscription: Ptolemy's Earliest Work". In Berggren and Goldstein, eds., From Ancient Omens to Statistical Mechanics. Copenhagen: University Library, 1987.
 ^ http://www.univie.ac.at/hwastro/rare/1515_ptolemae.htm
 ^ ^{a} ^{b} Toomer, G. J. (1998), Ptolemy's Almagest, Princeton University Press, ISBN 0691002606
 ^ Ptolemy. Almagest., Book I, Chapter 5.
 ^ Michael Hoskin. The Cambridge Concise History of Astronomy. Chapter 2, page 44.
 ^ Islamic science and the making of European Renaissance, by George Saliba, p.218 ISBN 9780262195577
See also
References
 James Evans, The History and Practice of Ancient Astronomy, Oxford University Press, 1998 (ISBN 0195095391)
 Michael Hoskin, The Cambridge Concise History of Astronomy, Cambridge University Press, 1999 (ISBN 0521572916)
 Olaf Pedersen, A Survey of the Almagest, Odense University Press, 1974 (ISBN 8774920871. A revised edition, prepared by Alexander Jones, is due to be published by Springer on November 29, 2010.
 Olaf Pedersen, Early Physics and Astronomy: A Historical Introduction, 2nd edition, Cambridge University Press, 1993 (ISBN 0521403405)
External links
 University of Vienna: Almagestum (1515) PDF:s of different resolutions
 Almagest Planetary Model Animations
 Online lunisolar & planetary ephemeris calculator based on the Almagest
 Ptolemy's Almagest. PDF scans of Heiberg's Greek edition, now in the public domain (Classical Greek)
 A podcast discussion by Prof. M Heath and Dr A. Chapman of a recent rediscovery of a 14th Century manuscript in the university of Leeds Library
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Almagest — Al ma*gest, n. [F. almageste, LL. almageste, Ar. al majist[=i], fr. Gr. ? (sc. ?), the greatest composition.] The celebrated work of Ptolemy of Alexandria, which contains nearly all that is known of the astronomical observations and theories of… … The Collaborative International Dictionary of English
Almăgest — (arab. u. gr., d.i. das große [Werk]), bei den Arabern das große System (μεγάλη σὐνταξις) des Ptolemäos, s.d … Pierer's UniversalLexikon
Almagést — (Almedschisti; für griech. μεγίστη, »die größte«), der verstümmelte Titel des Lehrgebäudes der Astronomie von Ptolemäos (s. d.) … Meyers Großes KonversationsLexikon
Almagést — Almagést, Titel der arab. Übersetzung des astron. Werks (»Syntaxis mathematica«) des Ptolemäus … Kleines KonversationsLexikon
Almagest — Almagest, arab., das Große, das System des Ptolemäus … Herders ConversationsLexikon
almagest — (n.) late 14c., title of a treatise on astronomy by Claudius Ptolemy of Alexandria, extended in Middle English to other works on astrology or astronomy, from O.Fr. almageste (13c.), from Arabic al majisti, from al the + Gk. megiste the greatest… … Etymology dictionary
Almagest — [al′mə jest΄] n. [ME < OFr almageste < Ar al majistī < al, the + Gr megistē (syntaxis), greatest (work)] 1. a vast work on astronomy and mathematics compiled by Ptolemy c.A.D. 140 2. [a ] any of several medieval works like this,… … English World dictionary
Almagest — Darstellung des ptolemäischen Weltsystems (1661) Almagest (griechisch μαθηματική σύνταξις, arabisch المجسطي, DMG al maǧisṭī) nennt man eines der Hauptwe … Deutsch Wikipedia
Almagést — Darstellung des ptolemäischen Weltsystems (1661) Almagest (griechisch μαθηματική σύνταξις, arabisch المجسطي, DMG al maǧisṭī) nennt man eines der Hauptwerke der antiken Astronomie, das auf den hellen … Deutsch Wikipedia
Almagest — /al meuh jest /, n. 1. (italics) a Greek work on astronomy by Ptolemy. 2. (l.c.) any of various medieval works of a like kind, as on astrology or alchemy. [1350 1400; ME almageste < MF < Ar al the + majisti < Gk megíste (sýntaxis) greatest… … Universalium