Eduard Study Totally Explained

Everything about Eduard Study totally explained

Eduard Study (March 23, 1862 – January 6, 1930) was a German mathematician known for work on invariant theory of ternary forms (1889) and for the study of spherical trigonometry. He is also know for contributions to space geometry, hypercomplex numbers, and criticism of early physical chemistry. Study was born in Coburg in the Duchy of Saxe-Coburg-Gotha.

Career

Eduard Study began his university career in Jena, Strasbourg, Leipzig, and Munich. He loved to study biology, especially entomology. He was awarded the doctorate in mathematics at the University of Munich in 1884. Paul Albert Gordan, an expert in invariant theory was at Leipzig, and Study returned there as Privatdozent. In 1888 he moved to Marburg and in 1893 embarked on a speaking tour in the U.S.A. He appeared at the primordial International Congress of Mathematicians in Chicago as part of the World's Columbian Exhibition (see external link below), and took part in mathematics at Johns Hopkins University. Back in Germany, in 1894, he was appointed extraordinary professor at Gottingen. Then he gained the rank of full professor in 1897 at Greifswald. In 1904 he was called to the University of Bonn as the position held by Rudolf Lipschitz was vacant. There he settled until retirement in 1927.

Euclidean space group and biquaternions

In 1891 Eduard Study published “Of Motions and Translations, in two parts”. It treats Euclidean space through the space group. The second part of his article constructs a seven-dimensional space out of “dual biquaternions”, that's numbers ť

q = a + bi + cj + dk !

where a,b,c, and d are dual numbers and multiply as in the quaternion group. He uses these conventions: ť

e_0 = 1,  e_1 = i,  e_2 = j,  e_3 = k !

epsilon _0 = epsilon,  epsilon _1 = epsilon i,  epsilon _2 = epsilon j,  epsilon _3 = epsilon k !

.
The multiplication table is found on page 520 of volume 39 (1891) in Mathematische Annalen under the title “Von Bewegungen und Umlegungen, I. und II. Abhandlungen”. Eduard Study cites William Kingdon Clifford as an earlier source on these biquaternions. In 1901 Study published Geometrie der Dynamen to highlight the applications of this algebra. Due to Eduard Study’s profound and early exploitation of this eight-dimensional associative algebra, it's frequently referred to as Study Biquaternions. Study’s achievement is celebrated, for example, in A History of Algebra (1985) by B. L. van der Waerden, who also cites Clifford’s earlier note.
Since the space group is important in robotics, the Study biquaternions are a technical tool, now sometimes referred to as dual quaternions. For example, Joe Rooney has profiled the use of this algebra by several modelers of mechanics (see external link).

Hypercomplex numbers

In 1898 Eduard Study was the author of an article on hypercomplex numbers in the German Encyclopedia of Mathematics. This 34 page effort was expanded to 138 pages in 1908 by Elie Cartan, who succeeded in classifying Lie algebras. Cartan acknowledged Eduard Study’s essay in his title with the words “after Eduard Study”. In the 1993 biography of Cartan by Akivis and Rosenfeld, one reads: ť “[Study] defined the algebra °H of ‘semiquaternions’ with the units 1, i, ε, η having the properties

i^2 = -1,  epsilon ^2 = 0,  i epsilon = - epsilon i = eta !

.

Semiquaternions are often called ‘Study’s quaternions’”. Thus in the study of classical associative algebras over R there are two special ones: Study’s quaternions (4D) and Study’s biquaternions (8D).

Valence theory

Somewhat surprisingly Eduard Study is known by practitioners of quantum chemistry. Like James Joseph Sylvester, Paul Gordan believed that invariant theory could contribute to the understanding of chemical valence. In 1900 Gordan and his student G. Alexejeff contributed an article on an analogy between the coupling problem for angular momenta and their work on invariant theory to the Zeitschrift für Physikalische Chemie (v. 35, p.610). In 2006 Wormer and Paldus summarized Study's role as follows: ť The analogy, lacking a physical basis at the time, was criticised heavily by the mathematician E. Study and ignored completely by the chemistry community of the 1890's. After the advent of quantum mechanics it became clear, however, that chemical valences arise from electron-spin couplings ... and that electron spin functions are, in fact, binary forms of the type studied by Gordan and Clebsch.

Cited Publications

Sphärische Trigonometrie, orthogonale Substitutionen, und elliptische Functionen: Eine Analytisch-Geometrische Untersuchung. Leipzig, Germany: Teubner, 1893
Aeltere und neuere Untersuchungen uber Systeme complexer Zahlen Mathematical Papers Chicago Congress
Einleitung in die Theorie der Invarianten (1933).

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