Theodore Motzkin

Theodore Motzkin
Born (1908-03-26)March 26, 1908
Berlin, Germany
Died October 15, 1970(1970-10-15) (aged 62)
Nationality American
Institutions UCLA
Alma mater University of Basel
Doctoral advisor Alexander Ostrowski
Doctoral students John Selfridge
Rafael Artzy
Known for Motzkin transposition theorem
Motzkin number
PIDs that are not EDs
Linear programming
Fourier–Motzkin elimination

Theodore Samuel Motzkin (26 March 1908–15 December 1970) was an Israeli-American mathematician.[1]

Biography

Motzkin's father Leo Motzkin, a Russian Jew, went to Berlin at the age of thirteen to study mathematics. He pursued university studies in the topic and was accepted as a graduate student by Leopold Kronecker, but left the field to work for the Zionist movement before finishing a dissertation.[2]

Motzkin grew up in Berlin and started studying mathematics at an early age as well, entering university when was only 15.[2] He received his Ph.D. in 1934 from the University of Basel under the supervision of Alexander Ostrowski[3] for a thesis on the subject of linear programming[2] (Beiträge zur Theorie der linearen Ungleichungen, "Contributions to the Theory of Linear Inequalities", 1936[4]).

In 1935, Motzkin was appointed to the Hebrew University in Jerusalem, contributing to the development of mathematical terminology in Hebrew.[4] During World War II, he worked as a cryptographer for the British government.[2]

In 1948, Motzkin moved to the United States. After two years at Harvard and Boston College, he was appointed at UCLA in 1950, becoming a professor in 1960.[4] He worked there until his retirement.[2]

Motzkin married Naomi Orenstein in Jerusalem. The couple had three sons:

Contributions to mathematics

Motzkin's dissertation contained an important contribution to the nascent theory of linear programming (LP), but its importance was only recognized after an English translation appeared in 1951. He would continue to play an important role in the development of LP while at UCLA.[4] Apart from this, Motzkin published about diverse problems in algebra, graph theory, approximation theory, combinatorics, numerical analysis, algebraic geometry and number theory.[4]

The Motzkin transposition theorem, Motzkin numbers and the Fourier–Motzkin elimination are named after Theodore Motzkin. He first developed the "double description" algorithm of polyhedral combinatorics and computational geometry.[5] He was the first to prove the existence of principal ideal domains that are not Euclidean domains, \Bbb{Z}\left[\frac{1+\sqrt{-19}}{2}\right] being his first example.

The quote "complete disorder is impossible," describing Ramsey theory is attributed to him.[6]

See also

References

  1. Motzkin, Theodore S. (1983). David Cantor, Basil Gordon, and Bruce Rothschild, ed. Theodore S. Motzkin: Selected papers. Contemporary Mathematicians. Boston, Mass.: Birkhäuser. pp. xxvi+530. ISBN 3-7643-3087-2. MR 693096.
  2. 1 2 3 4 5 O'Connor, John J.; Robertson, Edmund F., "Theodore Motzkin", MacTutor History of Mathematics archive, University of St Andrews.
  3. Theodore Motzkin at the Mathematics Genealogy Project
  4. 1 2 3 4 5 Joachim Schwermer (1997). "Motzkin, Theodor Samuel". Neue Deutsche Biographie 18. pp. 231 ff.
  5. Motzkin, T. S.; Raiffa, H.; Thompson, G. L.; Thrall, R. M. (1953). "The double description method". Contributions to the theory of games. Annals of Mathematics Studies. Princeton, N. J.: Princeton University Press. pp. 51–73. MR 60202.
  6. Hans Jürgen Prömel (2005). "Complete Disorder is Impossible: The Mathematical Work of Walter Deuber". Combinatorics, Probability and Computing (Cambridge University Press) 14: 3–16. doi:10.1017/S0963548304006674.
This article is issued from Wikipedia - version of the Friday, April 29, 2016. The text is available under the Creative Commons Attribution/Share Alike but additional terms may apply for the media files.