41. Neumann, John Von (1903-1957) -- From Eric Weisstein's World Of Scientific Biogr john von neumann, 19031957. Providence, RI Amer. Math. Glimm, J. G.; Impagliazzo,J.; and Singer, I. The Legacy of john von neumann. Providence, RI Amer. http://scienceworld.wolfram.com/biography/NeumannJohnvon.html

Branch of Science Mathematicians Nationality American ... Hungarian Neumann, John von (1903-1957) Hungarian-American mathematician who showed in 1944 that wave mechanics and Heisenberg's matrix mechanics were mathematically equivalent. He also developed game theory in The Theory of Games and Economic Behavior Additional biographies: MacTutor (St. Andrews) Bonn References American Mathematical Society. John von Neumann, 1903-1957. Providence, RI: Amer. Math. Soc., 1966. Glimm, J. G.; Impagliazzo, J.; and Singer, I. The Legacy of John von Neumann. Providence, RI: Amer. Math. Soc., 1990. Macrae, N. John von Neumann: The Scientific Genius Who Pioneered the Modern COmputer, Game Theory, Nuclear Deterrence, and Much More. Providence, RI: Amer. Math. Soc., 2000. Poundstone, W. Prisoner's Dilemma: John Von Neumann, Game Theory and the Puzzle of the Bomb. New York: Anchor Books, 1993. Regis, E. Who Got Einstein's Office?: Eccentricity and Genius at the Institute for Advanced Study. Reading, MA: Addison-Wesley, 1987. Author: Eric W. Weisstein

42. NIC Series Volume 3: Modern Methods And Algorithms Of Quantum Chemistry - Procee From a 2000 conference sponsored by the john von neumann Institute for Computing. http://www.fz-juelich.de/nic-series/Volume3/Volume3.html

NIC Series Volume 3 NIC Series Volume 3: Modern Methods and Algorithms of Quantum Chemistry Proceedings, Second Edition Johannes Grotendorst (Editor) Winterschool, 21 - 25 February 2000, ISBN 3-00-005834-6 December 2000, 638 pages Preface J. Grotendorst HTML Industrial Challenges for Quantum Chemistry PostScript PDF Ab Initio Treatment of Large Molecules PostScript PDF Parallel Programming Models, Tools and Performance Analysis PostScript PDF Basic Numerical Libraries for Parallel Systems PostScript PDF Tools for Parallel Quantum Chemistry Software Thomas Steinke, ZIB, Berlin PostScript PDF Ab Initio Methods for Electron Correlation in Molecules Peter Knowles, University of Birmingham, United Kingdom PostScript PDF R12 Methods, Gaussian Geminals Wim Klopper, Utrecht University PostScript PDF Direct Solvers for Symmetric Eigenvalue Problems Bruno Lang, RWTH Aachen PostScript PDF Semiempirical Methods PostScript PDF Hybrid Quantum Mechanics/Molecular Mechanics Approaches Paul Sherwood, Daresbury Laboratory, United Kingdom PostScript PDF Subspace methods for Sparse Eigenvalue Problems PostScript PDF Computing Derivatives of Computer Programs PostScript PDF Ab initio Molecular Dynamics: Theory and Implementation PostScript PDF Relativistic Electronic-Structure Calculations for Atoms and Molecules PostScript PDF Effective Core potentials PostScript PDF Molecular Properties PostScript PDF Tensors in Electronic Structure Theory: Basic Concepts and Applications to Electron Correlation Models Martin Head-Gordon, Michael Lee, Paul Maslen, Troy van Voorhis, Steven Gwaltney, University of California at Berkeley, USA

43. Von Neumann, John von neumann, john. john von neumann, b. Dec. 28, 1903, d. Feb. 8,1957, was a HungarianAmerican mathematician who made important http://euler.ciens.ucv.ve/English/mathematics/neumann.html

von Neumann, John In 1930, von Neumann journeyed to the United States, becoming a visiting lecturer at Princeton University; he was appointed professor there in 1931. He became one of the original six mathematics professors in 1933 at the newly founded Institute for Advanced Study in Princeton, a position he kept for the remainder of his life. He became a U.S. citizen in 1937. During the 1940s and '50s, von Neumann was one of the pioneers of computer science. He made significant contributions to the development of logical design, advanced the theory of cellular AUTOMATA, advocated the adoption of the BIT as a measurement of computer memory, and solved problems in obtaining reliable information from unreliable computer components. Moreover, his involvement attracted the interest of fellow mathematicians and sped the development of computer science. During and after World War II, von Neumann served as a consultant to the armed forces, where his valuable contributions included a proposal of the implosion method for making a nuclear explosion and his espousal of the development of the hydrogen bomb. In 1955 he was appointed to the Atomic Energy Commission, and in 1956 he received its Enrico Fermi Award. He was one of the last generalists among contemporary scientists. Author: H. Howard Frisinger

44. John Von Neumann Brief biography along with details of a number of areas he worked in. http://www.santafe.edu/~shalizi/notebooks/von-neumann.html

Notebooks John von Neumann (19031957) (Tue May 6 14:36:32 1997) Johnny, as it seems everyone called him, was one of those people who are so bright it's hard to believe they were human. (Maybe he wasn't. There's an old joke about the Fermi Paradox, a problem which occured to Enrico Fermi one day at Los Alamos: where are They? If there are intelligent aliens out there in the universe, why aren't they here yet? A million years is nothing, as the universe reckons things, but, judging from our own track-record, a species only that much older than us would have technology which would blow our minds, pretty close to limits set by physical laws. Leo Szilard is supposed to have answered Fermi: ``Maybe they're already here, and you just call them Hungarians.'') About the only large current of the natural sciences in this century which von Neumann's work has not added to is molecular biology. Almost everything else of any signficance he touched: mathematical logic ; pure math ; quantum physics computing (which, as we know it, is largely his invention), cybernetics and automata theory; the

45. NIC Series Volume 2: Modern Methods And Algorithms Of Quantum Chemistry - Poster From a 2000 conference sponsored by the john von neumann Institute for Computing. http://www.fz-juelich.de/nic-series/Volume2/Volume2.html

NIC Series Volume 2 NIC Series Volume 2: Modern Methods and Algorithms of Quantum Chemistry Poster Presentations Johannes Grotendorst (Editor) Winterschool, 21 - 25 February 2000, ISBN 3-00-005746-3 Februar 2000, 77 pages out of print Preface J. Grotendorst HTML Efficient Real-Space Approach to TDDFT for the Dielectric Response of Periodic Systems F. Kootstra, P.L. de Boeij, J.G. Snijders PDF Theoretical Computations of Transition Metal NMR Chemical Shifts PDF Theoretical Studies on the Higher Oxidation States of Iron M. Atanasov PDF Oxydation of Methanol to Formaldehyde on V O Investigated by Density Functional Theory P. Boulet, F. Gilardoni, J. Weber, H. Chermette, A. Baiker, J.-C. Volta PDF Reactivity of NO and (NO) on Cu(110) D. Voukelatos, P.J. Knowles PDF Gas-Phase Reactions of X M-NCR and X M-CNR Donor-Acceptor Complexes (M=Al,Ga;X=H,Cl,CH ;R=H,CH A.Y. Timoshkin, H.F. Schaefer III PDF DFT Calculations for Planning the Synthesis of More Efficient Devices Performing Artificial Photosynthesis G. Albano, P. Belser, C. Daul PDF The fitting of Auxiliary Basis Sets to Electron Densities A. Lloyd

46. MITECS: Von Neumann, John von neumann, john. john von neumann was born in Hungary in 1903 anddied in the United States in 1957. He was without doubt one of http://cognet.mit.edu/MITECS/Articles/cowan.html

von Neumann, John John von Neumann was born in Hungary in 1903 and died in the United States in 1957. He was without doubt one of the great intellects of the century, and one of its most distinguished mathematicians. At the time of his death he was a member of the Institute for Advanced Study, at Princeton, New Jersey. See also ARTIFICIAL LIFE COGNITIVE ARCHITECTURE FORMAL SYSTEMS, PROPERTIES OF RATIONAL CHOICE THEORY ... WIENER Additional links Implementation of the John von Neumann Universal Constructor John von Neumann Jack D. Cowan References McCulloch, W. S., and W. H. Pitts. (1943). A logical calculus of the ideas immanent in nervous activity. Bul. Math. Biophys. Von Neumann, J. (1951). The general and logical theory of automata. In L. A. Jeffress, Ed., Cerebral Mechanisms in Behavior The Hixon Symposium, September 1948, Pasadena, CA. New York: Wiley, pp. 1-31. Von Neumann, J. (1956). Probabilistic logics and the synthesis of reliable organisms from unreliable components. In C. E. Shannon and J. McCarthy, Eds., Automata Studies.

47. Howard Rheingold's | Tools For Thought By Howard Rheingold. Online copy of well known 1985 book on the invention of modern computing; this chapter on john von neumann, nuclear bombs, early computers. Newer (c)2000 edition of the book is out, with followup interviews. http://www.rheingold.com/texts/tft/4.html

Tools for Thought by Howard Rheingold April, 2000: a revised edition of Tools for Thought is available from MIT Press , including a revised chapter with 1999 interviews of Doug Engelbart, Bob Taylor, Alan Kay, Brenda Laurel, and Avron Barr. The idea that people could use computers to amplify thought and communication, as tools for intellectual work and social activity, was not an invention of the mainstream computer industry or orthodox computer science, nor even homebrew computerists; their work was rooted in older, equally eccentric, equally visionary, work. You can't really guess where mind-amplifying technology is going unless you understand where it came from. - HLR Chapter One : The Computer Revolution Hasn't Happened Yet Chapter Two : The First Programmer Was a Lady Chapter Three : The First Hacker and his Imaginary Machine Chapter Four : Johnny Builds Bombs and Johnny Builds Brains Chapter Five : Ex-Prodigies and Antiaircraft Guns Chapter Six : Inside Information Chapter Seven : Machines to Think With Chapter Eight : Witness to History: The Mascot of Project Mac Chapter Nine : The Loneliness of a Long-Distance Thinker Chapter Ten : The New Old Boys from the ARPAnet Chapter Eleven : The Birth of the Fantasy Amplifier Chapter Twelve : Brenda and the Future Squad Chapter Thirteen : Knowledge Engineers and Epistemological Entrepreneurs Chapter Fourteen : Xanadu, Network Culture, and Beyond

48. John Von Neumann From FOLDOC von neumann, john . john von neumann. person /jon von noy'mahn/Born 190312-28, died 1957-02-08. A Hungarian-born mathematician http://wombat.doc.ic.ac.uk/foldoc/foldoc.cgi?von Neumann, John

49. Von Neumann From FOLDOC von neumann, john. john von neumann. Try this search on OneLook / Google. http://wombat.doc.ic.ac.uk/foldoc/foldoc.cgi?Von Neumann

50. John Von Neumann Translate this page john von neumann (1903 - 1957). Der Mathematiker john (Johann) von neumannwurde in Budapest geboren. Er war von 1926 bis 1930 Privatdozent http://www.philosophenlexikon.de/neumann.htm

Begriffe Abaelard - Ayer Baader - Byron Cabanis - Czezowski Ebbinghaus - Ewald ... Geschichte der Philosophie Diskussion PhilTalk Philosophieforen Andere Lexika PhilLex -Lexikon der Philosophie Lexikon der griechischen Mythologie PhiloThek Bibliothek der Klassiker Zeitschriftenlesesaal Nachschlagewerke Allgemeine Information ... Dokumentenlieferdienste Spiele Philosophisches Galgenraten PhilSearch.de Shops PhiloShop PhiloShirt Service Kontakt Impressum eMail John von Neumann (1903 - 1957) Ethik Im Zusamenhang mit seinen Untersuchungen zur Automatentheorie gelangte er zu dem Problem, die Kategorie Zeit in die Logik einzubeziehen. Die Semantiken Wahrscheinlichkeitslogik. powered by Uwe Wiedemann

51. Von Neumann, John von neumann, john ?. http://episte.math.ntu.edu.tw/people/p_von_neumann/

Von Neumann, John ·j´M Von Neumann ¬OµS¤Ó¤H¡C­ì©m Neumann¡A¦]¬°¤÷¿Ë¶R¤UÀï¦ì¡A¤~¥[¤W¶Q±Ú±MºÙªº¡uvon¡v¡C ¥L¦Û¥®¿o²§¡A°O¾Ð¤O¹L¤H¡A¹ï¼Æ¾Ç¦³Åå¤Hªº¤Ñ¥÷¡A¦ý¤÷¿Ë§Æ±æ¥L±q°Ó¡A´X¸g§é½Ä¡A ¥L¦P®É¦b¥¬¹F¨Ø´µ¤j¾Ç¾Ç¼Æ¾Ç¡A¤S¦b¬fªL¤j¾Ç¾Ç¤Æ¾Ç¡]«áÂà¨ìĬ¾¤¤h¾Ç¤Æ¤u¡^¡C¦ý§Y¨Ï¦bĬ¾¤¤h¡A¥L¤´»Pª¾¦W¼Æ¾Ç®a Weyl »P Polya ¥æ¹C¡CPolya ´¿¸g³o¼Ë´y­z Von Neumann ºî½× Von Neumann ªº¼Æ¾Ç¦¨´N¡A¤j­P¦p¤U¡G ¡]1¡^ªì´Á¤u§@¥H¼Æ²zÅÞ¿è¡]¤×¨ä¬O¤½³]¶°¦X½×¡^¡B´ú«×½×¡B¹ê¤ÀªR¬°¥D¡C ¡]2¡^¦b¡mMathematische Grundlagender Quantenmachanik¡n¡]1932¡^¤¤¡A Von Neumann ¬°·í®Éªº¶q¤l¤O¾Ç¥´¤U°í¹êªº¼Æ¾Ç°ò¦¡C ¡]3¡^¦Û1929°_¡AVon Neumann §Y±q¨Æºâ¤l¥N¼Æªº¥ýÅX©Ê¤u§@¡A¦b1930-40¦~¶¡ Von Neumann »P Murray ¬°«á¨Ó©Ò¿×ªº Von Neumann ¥N¼Æ¼g¤U¨t¦C°ò¥»ªº¤å³¹¡C ¡]5¡^Ergdic¡]¹M¾ú©Ê¡^©w²zªºµý©ú¡]1938¡^¡C ¥t¥~ Von Neumann ¤]¬O²B¼uªº¶Ê¥ÍªÌ¡A1940¦~°_¥L§Y¼ö¤ß°Ñ»P¬ü°êªº¦U¶µ°ê¨¾­p¹º©Î¹êÅç«Ç¡A¤]¦]¦¹Àò±o¦U¦¡¦U¼Ëªº¼Æ¾Ç©Î«D¼Æ¾Çªº¼ú³¹¡C ¥»¤å°Ñ¦Ò¸ê®Æ¡G(1) ¤j­^¦Ê¬ì¥þ®Ñ¡C (2) MacTutor ¼Æ¾Ç¥vÀɮ׺ô¯¸¡G von Neumann ¡C ¹ï¥~·j´MöÁä¦r¡G ¡D Von Neumann ¡D Weyl ¡D Polya ¡D Hilbert ¡D Veblen ¡]¼¶½Z¡G¯Îª¤¯¢A¥x¤j¼Æ¾Ç¨t¡^ MacTutor ¡]­Y¦³«ü¥¿¡Bº°Ý¡K¡K¡A¥i¥H¦b¦¹ ¯d¨¥ ¼g«H µ¹§Ú­Ì¡C¡^ ¦Uºô­¶¤å³¹¤º®e¤§µÛ§@Åv¬°­ìµÛ§@¤H©Ò¦³ ½s¿è¡G§õ´ô¤Ñ

52. Encyclopædia Britannica von neumann, john Encyclopædia Britannica Article. MLA style von neumann, john. Encyclopædia Britannica 2003 Encyclopædia Britannica Premium Service. http://www.britannica.com/eb/article?eu=77719

53. ISCID - John Von Neumann von neumann, john and Oskar Morgenstern. 1944. Press, Princeton NJ. von neumann, john.1932.The Mathematical Foundations of Quantum Mechanics. Princeton Univ. http://www.iscid.org/vonneumann.php

About John von Neumann John von Neumann was born in Budapest Hungary on December 28th, 1903. Von Neumann's genius showed through early on in his childhood. At the age of six he was already showing an interest in math and was able to exchange jokes with his father in classical Greek. By the age of eight he became fascinated with history and read all forty-four volumes of the universal history, which resided in the family’s library. John von Neumann received his early education at the Lutheran Gymnasium under the tutelage of Michael Fekete with whom he published his first paper at the age of eighteen. Von Neumann studied chemistry at the University of Berlin, until 1923 when he went to Technische Hochschule in Zurich where he received his diploma in Chemical Engineering in 1925. Von Neumann subsequently received his doctoral degree in Mathematics in 1928 from the University of Budapest at the age of twenty-two. His dissertation topic was set theory. Near the end of 1929, von Neumann was offered a visiting lectureship on quantum theory at Princeton University and by 1931 he was appointed full-time professor. In 1933 he was asked to be one of the original six Professors of Mathematics at the newly founded Institute for Advanced Studies at Princeton. He retained this position for the rest of his life.

54. Dictionary Of Philosophy Of Mind - Von Neumann, John von neumann, john (b. 1903 Budapest, Hungary, d. Washington, DC,1957. Ph.D. mathematics, University of Budapest, 1926). One of http://www.artsci.wustl.edu/~philos/MindDict/vonneumann.html

von Neumann, John (b. 1903 Budapest, Hungary, d. Washington, D.C., 1957. Ph.D. mathematics, University of Budapest, 1926). One of the foremost mathematicians of this century, von Neumann made many significant contributions to pure mathematics, the quantum theory, the theory of electronic computing devices, and the development of the first electronic computers (MANIAC, NORC). The standard computer architecture of today bears his name. See computational models Tadeusz Zawidzki References Zusne, Leonard (1984). Biographical dictionary of psychology . Westport, CT: Greenwood Press. bookstore

55. INFORMS Von Neumann Theory Prize Winners About 1978 john von neumann Theory Prize winners Nash and Lemke for their outstanding contributions Category Science Math Mathematicians Nash, john F., Jr....... john von neumann Theory Prize Winners. This page contains He is a truefollower of the path trod by john von neumann. Therefore, it is http://www.informs.org/Prizes/vonNeumannDetails.html

Go to INFORMS Page ... INFORMS Home What's New Info for Members Info for Nonmembers Conferences Continuing Education Education/Students Employment Prizes Publications Subdivisions Searchable Databases Links About this Web Site INFORMS Online Bookstore Discussion Search John von Neumann Theory Prize Winners This page contains details about each years winning submission(s). More general information about the award is also available. Cyrus Derman and Donald L. Iglehart The 2002 John von Neumann Theory Prize is awarded by the Institute for Operations Research and the Management Sciences to Donald L. Iglehart and Cyrus Dermanfor their fundamental contributions to performance analysis and optimization of stochastic systems. Regenerative Simulation of Response Times in Networks of Queues ) and series of papers with Gerald Shedler developed many novel system performance models based on these ideas. His subsequent work, with his student Peter Glynn, significantly advanced the subject by incorporating techniques such as importance sampling. With Samuel Karlin, he studied the discounted infinite-horizon inventory problem in which product demands depend on a Markovian index of business conditions. He showed that the optimal ordering policy is base-stock and developed a beautiful and novel method of finding the index-dependent base-stock levels. Derman and Iglehart both took their Ph.D.s in Mathematical StatisticsDerman from Columbia and Iglehart from Stanfordand are Fellows of the Institute of Mathematical Statistics. Also, Derman is a Fellow of the American Statistical Association and Iglehart is a member of the National Academy of Engineering. Both were attracted to Operations Research very early in their careers and held appointments in the field in engineering schools for about four decades, largely in the institutions from which they took their Ph.D.s. Both are excellent teachers who have inspired many students. Indeed, the Ph.D. students of both have also won several significant prizes and honors, and have been prominent in industry, research laboratories and universities.

56. INFORMS John Von Neumann Theory Prize john von neumann Theory Prize. Purpose For details on the winner(s) of the johnvon neumann Theory Prize in a particular year follow the link for that year. http://www.informs.org/Prizes/vonNeumannPrize.html

Go to INFORMS Page ... INFORMS Home What's New Info for Members Info for Nonmembers Conferences Continuing Education Education/Students Employment Prizes Publications Subdivisions Searchable Databases Links About this Web Site INFORMS Online Bookstore Discussion Search John von Neumann Theory Prize Purpose: A prize is awarded annually to a scholar (or scholars in the case of joint work) who has made fundamental, sustained contributions to theory in operations research and the management sciences. The award is given each year at the National Meeting if there is a suitable recipient. Although the prize is normally given to a single individual, in the case of accumulated joint work, the recipients can be multiple individuals. The Prize is awarded for a body of work, typically published over a period of several years. Although recent work should not be excluded, the Prize typically reflects contributions that have stood the test of time. The criteria for the prize are broad, and include significance, innovation, depth, and scientific excellence. The award is $5,000, a medallion and a citation.

57. Von Neumann, John von neumann, john (1903 1957) V Commission. von neumann was one of thegreatest mathematicians of the 20 th century. von neumann wrote http://occawlonline.pearsoned.com/bookbind/pubbooks/thomas_awl/chapter1/medialib

V on Neumann, John (1903 1957) V on Neumann was born in Hungary and was educated at the University of Budapest. His doctorate was in set theory. In 1926 he was appointed an assistant professor at the University of Berlin. He worked in set theory, algebra, logic, and quantum mechanics. In 1930 he came to Princeton to teach, and after his teaching assignment was complete stayed to work and conduct research at the Institute for Advanced Study. There he was able to work on important problems with other leading scientists and mathematicians. In 1931 he published The Mathematical Foundations of Quantum Mechanics In 1937 he began working with the United States Army Ordnance Department on ballistics. In 1943 he became a consultant on the development of the atomic bomb. In that role, he worked on the development of computers for calculations of ballistics and explosions. He designed computer memories, other hardware devices, and software to store and run programs. After the war he continued his work in designing computers. He continued his service to the United States government as a member of the Atomic Energy Commission.

58. Von Neumann, John. The Columbia Encyclopedia, Sixth Edition. 2001 Edition. 2001. von neumann, john. (noi´män) (KEY) , 1903–57, Americanmathematician, b. Hungary, Ph.D. Univ. of Budapest, 1926. http://www.bartleby.com/65/vo/VonNeuma.html

Select Search All Bartleby.com All Reference Columbia Encyclopedia World History Encyclopedia World Factbook Columbia Gazetteer American Heritage Coll. Dictionary Roget's Thesauri Roget's II: Thesaurus Roget's Int'l Thesaurus Quotations Bartlett's Quotations Columbia Quotations Simpson's Quotations English Usage Modern Usage American English Fowler's King's English Strunk's Style Mencken's Language Cambridge History The King James Bible Oxford Shakespeare Gray's Anatomy Farmer's Cookbook Post's Etiquette Bulfinch's Mythology Frazer's Golden Bough All Verse Anthologies Dickinson, E. Eliot, T.S. Frost, R. Hopkins, G.M. Keats, J. Lawrence, D.H. Masters, E.L. Sandburg, C. Sassoon, S. Whitman, W. Wordsworth, W. Yeats, W.B. All Nonfiction Harvard Classics American Essays Einstein's Relativity Grant, U.S. Roosevelt, T. Wells's History Presidential Inaugurals All Fiction Shelf of Fiction Ghost Stories Short Stories Shaw, G.B. Stein, G. Stevenson, R.L. Wells, H.G. Reference Columbia Encyclopedia PREVIOUS NEXT ... BIBLIOGRAPHIC RECORD The Columbia Encyclopedia, Sixth Edition. Von Neumann, John

59. Von Neumann Origin john von neumann. Born 28 Dec 1903 in Budapest, HungaryDied 8 Feb 1957 in Washington DC, USA. Show birthplace location http://physics.hallym.ac.kr/reference/physicist/Von_Neumann.html

Origin John von Neumann Born: 28 Dec 1903 in Budapest, Hungary Died: 8 Feb 1957 in Washington D.C., USA Show birthplace location Previous (Chronologically) Next Biographies Index Previous ( Alphabetically) Next Welcome page Von Neumann built a solid framework for quantum mechanics. He also worked in game theory, was able to investigate spaces with continuously varying dimensions, and was one of the pioneers of computer science. von Neumann lectured at Berlin from 1926 to 1929 and at Hamburg from 1929 to 1930. In 1930 von Neumann became a visiting lecturer at Princeton University, being appointed professor there in 1931. He became one of the original six mathematics professors in 1933 at the newly founded Institute for Advanced Study in Princeton, a position he kept for the remainder of his life. Mathematische Grundlagen der Quantenmechanik (1932) built a solid framework for the new quantum mechanics. During this time he also worked in game theory and proved the minimax theorem. He gradually expanded his work in game theory, and with co-author Oskar Morgenstern he wrote Theory of Games and Economic Behaviour The second half of the 1930's saw von Neumann working with F J Murray on 'rings of operators' that are now called von Neumann algebras. He was able to investigate spaces with continuously varying dimensions.

60. Von Neumann Lecture The john von neumann Lecture. This prize, established in 1959, is in the form ofan honorarium for an invited lecture called The john von neumann Lecture. http://www.siam.org/prizes/vonneu.htm

search: The John von Neumann Lecture Principal Guideline This prize, established in 1959, is in the form of an honorarium for an invited lecture called The John von Neumann Lecture. The lecturer will survey and evaluate a significant and useful contribution to mathematics and its applications. It may be awarded to a mathematician or to a scientist in another field, but in either case, the recipient should be one who has made distinguished contributions to pure and/or applied mathematics. Prize Committee The prize committee will consist of the president of the society, the immediate past-president (or the president-elect), and the vice president-at-large. The committee should complete the choice of The John von Neumann lecturer at least nine months before the date of the lecture. The term of office of the committee will end when the nominated recipient has accepted the invitation to give the lecture. If the committee reports that no prize can be awarded, then the committee's duties will be completed. The committee will determine its own rules of operation. It may solicit suggestions for nominations from other members of the scientific community.

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