Rudolphine Tables

The iconic frontispiece to the Rudolphine Tables celebrates the great astronomers of the past: Hipparchus, Ptolemy, Copernicus, and most prominently, Tycho Brahe.

The Rudolphine Tables (Latin: Tabulae Rudolphinae) consist of a star catalogue and planetary tables published by Johannes Kepler in 1627, using some observational data collected by Tycho Brahe (1546–1601). The tables are named as "Rudolphine" in memory of Rudolf II, Holy Roman Emperor.

Previous tables

Star tables had been produced for many centuries and were used to establish the position of the planets relative to the fixed stars (particularly the twelve constellations used in astrology) on a specific date in order to construct horoscopes. Until the end of the 16th century, the most widely used had been the Alphonsine tables, first produced in the 13th century and regularly updated thereafter. These were based on a Ptolemaic, geocentric model of the solar system. Although the Alphonsine tables were not very accurate, nothing else was available and so they continued to be used.^{[citation needed]}

In 1551, following the publication of De revolutionibus orbium coelestium by Nicholas Copernicus, Erasmus Reinhold produced the Prutenic Tables based on a heliocentric model of the solar system, but these were no more accurate than the earlier tables.

Tycho's data and Kepler's model of the solar system

Tycho Brahe had spent much of his life obtaining measurements of the position of stars and planets to a much greater degree of accuracy than had been possible previously. He wished these observations to be the basis of a new and more accurate set of star tables. Kepler was able to prepare these new tables using Tycho's observations together with a heliocentric model of the solar system and his own discovery of the elliptical orbits of the planets. Accurate computation was aided by the newly published system of logarithms, which simplified the calculations and made them less prone to errors.

Publication

The map of the world from the Rudolphine Tables

While publishing the Rudolphine Tables, Kepler was hard-pressed to fight off Tycho's numerous relatives. During the publication process, these relatives repeatedly tried to obtain control of the observations and the profit from the publication of the tables.^[1] They argued that Tycho's work should benefit his own family, and not one of Tycho's competitors. Kepler counter-argued that he and Tycho had been collaborating on the data for many years before Tycho's death. Kepler further asserted that he himself was responsible for most of the calculations and also for the organization of the data. In the end, Kepler did win control of the tables and published them himself, while the Brahe family got no benefit from them.^{[citation needed]}

Tycho had intended that the tables should have a dedication to Emperor Rudolf II, but by 1627, when the tables were published, Rudolf II had died, so instead the tables were dedicated to Emperor Ferdinand II but are named after Rudolph II.^[2] They contain positions for the 1,006 stars measured by Tycho Brahe, and more than 400 stars from Ptolemy and Johann Bayer, with directions and tables for locating the planets of the solar system. The tables included many function tables of logarithms and antilogarithms, and instructive examples for computing planetary positions.

For most stars these tables were accurate to within one arc minute,^[3] and included corrective factors for atmospheric refraction.^[4] The tables were sufficiently accurate to predict a transit of Mercury observed by Pierre Gassendi in 1631 and a transit of Venus observed by Jeremiah Horrox in 1639.^[5]

References

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↑ The New Encyclopædia Britannica, 1988, Volume 10, pg. 232
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External links

Universitätsbibliothek Kiel – Digiport: Tabulæ Rudolphinæ - Bartsch version from 1627, with appendices on Schiller's Christian constellations and Bartsch'es own constellation innovations.
Johannes Kepler, Tabulae Rudolphinae
TabvlæRudolphinæ qvibvs astronomicæ scientiæ ... Typis J. Saurii, 1627. From the Rare Book and Special Collections Division at the Library of Congress

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[4] The New Encyclopædia Britannica, 1988, Volume 10, pg. 232

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v t e Johannes Kepler
Scientific career	Kepler conjecture Kepler's laws of planetary motion Kepler orbit Kepler triangle Kepler's equation Kepler polyhedra Kepler's Supernova Keplerian telescope
Works	Mysterium Cosmographicum (1596) De Stella Nova (1606) Astronomia nova (1609) Epitome Astronomiae Copernicanae (1618, 1620-21) Harmonices Mundi (1619) Rudolphine Tables (1627) Somnium (1634)
Related	Die Harmonie der Welt (opera) Katharina Kepler (mother) Jakob Bartsch (son-in-law) Kepler (opera) Kepler space telescope Johannes Kepler ATV Astronomers Monument List of namesakes

Rudolphine Tables

Contents

Previous tables

Tycho's data and Kepler's model of the solar system

Publication

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References

External links

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