81. SPIRES-HEPNAMES FIND+AF+ROCKEFELLER+U. 38. Pais, Abraham + (Rockefeller U.) PAPERS STUDENTS Ph.D. advisor uhlenbeck,george Ph.D. institution Utrecht U. (1941) Undergrad Amsterdam U. Field http://usparc.ihep.su/spires/find/hepnames/wwwbrief?sequence=n&af=Rockefeller U.

82. SPIRES-HEPNAMES FIND+PHDAFF+UTRECHT+U. 13. Pais, Abraham + (Rockefeller U.) PAPERS STUDENTS Ph.D. advisor uhlenbeck,george Ph.D. institution Utrecht U. (1941) Undergrad Amsterdam U. Field http://usparc.ihep.su/spires/find/hepnames/wwwbrief?sequence=n&phdaff=Utrecht U.

83. Prefacre Karl K. Darrow george uhlenbeck Gerald J. Holton JH Van Vleck The President of theAmerican Physical Society Frederick Seitz, 1961 William V. Houston, 1962 http://www.amphilsoc.org/library/guides/ahqp/preface.htm

PREFACE We are products of the past and we live immersed in the past which encompasses us. How can we move toward new life, create new activities without getting out of the past-without placing ourselves above it? There is no other way out: except through thought which does not break off relations with the past but rises ideally above it and converts it into knowledge. . . Only historical judgment liberates the spirit from the pressure of the past; it maintains its neutrality and seeks only to furnish light-it alone makes possible the fixing of a practical purpose; opens a way to the development of action. Benedetto Croce Attendees, Solvay Institute, 1927 This volume catalogs materials on the history of quantum physics and related developments in theoretical physics. Many of these source materials now stand ready for use in depository libraries at Berkeley, Copenhagen, and Philadelphia. Professor Kuhn and his colleagues detail here what the source materials are and what they contain. They tell in addition of their intensive three-year work at collecting these materials. Not only did they secure letters, manuscripts, notebooks, and personal commentaries before loss or destruction; they also interviewed more than ninety men and women closely connected with the history of quantum physics and recorded and transcribed these interviews. Never in the history of science has so effective an effort been made to record decisive moments in the evolution of new ideas while key participants are still alive.

84. Kari Enqvist Spin Hän ei ollut kaikkein ahkerin opiskelija, ja Ehrenfestillä oli toinenkin oppilas,joka aiheutti hänelle huolta. Hänen nimensä oli george uhlenbeck. http://www.physics.helsinki.fi/~enqvist/artikkeli.dir/dimensio.html

SPIN AINEEN MERKILLINEN PERUSOMINAISUUS Vuosisatamme alkupuoliskolla aineen käyttäytyminen mikromaailman tasolla paljastui arkikokemukseen pohjaavan maalaisjärjen vastaiseksi. Aineen kvanttiteorian voittokulku onkin ollut yksi fysiikan suurimmista mullistuksista. Se toi fysiikkaan paitsi kvantittuneen atomin myös elektronin uuden, kummallisen ominaisuuden, spinin. Spinin historia alkaa itse asiassa sata vuotta sitten kun elokuussa vuonna 1896 nuori hollantilainen fyysikko Pieter Zeeman huomasi, että kun natriumliekki asetetaan voimakkaan sähkömagneetin napojen väliin, liekin säteilemät spektriviivat halkeavat. Jo vuonna 1862 englantilainen Michael Faraday oli yrittänyt vaikuttaa natriumhöyryn lähettämään valoon magneetilla, mutta tuloksetta. Faraday oli tehnyt kokeitaan lasiprismalla, mutta Zeemanilla oli käytössään tarkempi diffraktioprisma ja hän ajatteli, että jos suuri Faraday oli pitänyt koetta tärkeänä, kelpaisi se toistaakin. Pian viivojen halkeaminen tunnettiin "Zeemanin ilmiönä", ja tunnettu hollantilaisfyysikko H.A. Lorentz antoi sille selityksenkin: natriumin lähettämän valon lähde oli sen atomien sisällä liikkuvien ja englantilaisen J.J. Thomsonin 1897 löytämien elektronien värähtely. Zeemanin ilmiön selitystä jouduttiin odottamaan kaikkiaan miltei 30 vuotta. Jo varhaisessa vaiheessa oli ilmeistä, että viivojen jakautuminen totteli jotakin matemaattista lakia. Spektreissä havaittiin selkeitä säännönmukaisuuksia, mutta aina kun joku keksi säännön, joka oli pätevinään kaikille alkuaineille, joku toinen tuli ja havaitsi jälleen uuden viivan ja sen halkeilun, joka ei toteuttanutkaan tätä sääntöä. Kaiken kukkuraksi huomattiin, että kun magneettikenttä oli tarpeeksi suuri, jotakin merkillistä tapahtui. Pienillä magneettikentillä halkaistujen viivojen välinen etäisyys (eli niiden aallonpituuksien ero) suureni tasaisesti kenttää kasvatettaessa, ja aallonpituuksien suhteellinen ero näytti olevan aina jokin murtoluku. Mutta kun kenttää edelleen kasvatettiin, viivat alkoivat elää ja vaellella aivan uudella tavalla, ja hyvin suurilla kentillä koko efekti saattoi jopa hävitä.

85. Významní Matematikové V Historii (19) george uhlenbeck se narodil v Indonésii, ale vzdelání získal vHolandsku. Doktorát získal v Leidenu pod vedením Ehrenfesta. http://www.gymtc.cz/natura/2003/8/20030803.html

Významní matematikové v historii (19) zpracovali: Jiøí Svršek, Roman Bartoš Literatura: Turnbull University of St. Andrews. Alfred Tarski narozen: 14. ledna 1902 ve Varšavì, Ruské impérium (nyní Polsko) zemøel: 26. øíjna 1983 v Berkeley, California, USA Alfred Tarski významnì pøispìl k rozvoji øady oblastí moderní matematiky, vèetnì metamatematiky (oblasti matematické logiky), teorie množin, teorie míry a Lebesgueova integrálu, teorie modelování a obecné algebry. Tarski pøednášel na Univerzitì ve Varšavì, na Harvardské univerzitì a v roce 1942 se stal èlenem Kalifornské univerzity v Berkeley. V roce 1949 byl jmenován profesorem matematiky a v letech 1958 až 1960 byl výzkumným profesorem na Millerovì institutu základního výzkumu ve vìdì (the Miller Institute of Basic Research in Science) Pomocí sémantické metody, kterou Tarski vyvinul, byly formální vìdecké jazyky podrobeny hlubšímu studiu. Tarski se zabýval teorií modelování, matematickými problémy rozhodování a obecnou algebrou. Vypracoval axiomy pro "logické dùsledky", zabýval se deduktivními systémy, algebrou logiky a teorií definovatelnosti. Tarski napsal více než deset knih z rùzných oblastí matematiky a jeho práce ovlivnila øadu mladých matematikù. Mezi jeho práce patøí "

86. FAQs History Of MRI nuclear spin. The year after, george Eugene uhlenbeck and Samuel A.Goudsmit introduced the concept of the spinning electron. Two http://www.emrf.org/FAQs MRI History.html

Information + Education on the Web FAQs Frequently asked questions A SHORT HISTORY OF MAGNETIC RESONANCE IMAGING FROM A EUROPEAN POINT OF VIEW Looking back at the main protagonists involved in MR imaging is vital for an understanding of the development of the modality. The topic is interesting, but rather sensitive. Like any history, the history of MR imaging has no real beginning. "Everything flows and nothing stays," as Heraklitos pointed out. Jean-Baptiste-Josepf Fourier In 1946, two scientists in the United States, independently of each other, described a physicochemical phenomenon which was based upon the magnetic properties of certain nuclei in the periodic system. This was 'nuclear magnetic resonance', for short 'NMR' [4, 48]. The two scientists, Felix Bloch and Edward M. Purcell, were awarded the Nobel Prize in Physics in 1952. Felix Bloch and Edward M Purcell P urcell was born in Illinois in the United States of America. He worked at the Massachusetts Institute of Technology, MIT, and later joined the faculty of Harvard University. Bloch was born in Zurich in 1905 and taught at the University of Leipzig until 1933; he then emigrated to the United States and was naturalized in 1939. He joined the faculty of Stanford University at Palo Alto in 1934 and became the first director of CERN in Geneva in 1962. In 1983 he died in Zurich.

87. Physics Today September 2000 Kramers, Tsung Dao Lee, John von Neumann, Wolfgang Pauli, Isidor I. Rabi, RobertSerber, george uhlenbeck, Victor Weisskopf, Eugene Wigner, and Chen Ning Yang. http://www.physicstoday.com/vol-53/iss-9/p61.html

Back to Table of Contents September Books: The Genius of Physics: A Portrait Gallery Rare Earth: Why Complex Life Is Uncommon in the Universe Carl Sagan: A Life in the Cosmos and ... New Books Site Index Physics Today Home Page Current Issue Past Contents Job Ads Upcoming Meetings Buyer's Guide About Physics Today Contact Us Advertising Information Product Information Information Exchange The Genius of Science: A Portrait Gallery Abraham Pais Oxford U.P., New York, 2000. 368 pp. $30.00 hc ISBN 0-19-850614-7 Reviewed by Silvan S. Schweber On the day (31 July 2000) that this review of Bram Pais's book was written, the New York Times reported his death three days earlier in Copenhagen. My review is dedicated to the memory of this outstanding historian and physicist. S. S. During the last 20 years of his life, after a distinguished career as a theoretical physicist, Abraham "Bram" Pais became an enormously productive and influential historian of physics. His biographies of Albert Einstein Subtle is the Lord (Oxford U. P., 1982)and of Niels Bohr

88. Pike Special Collection Lamb, Liu Runching, Adam Makkai, Andre Martinet, george L. Mavrodes VI Subramoniam,Ignatius Suharno, Takashi Manabe, David Thomas, EM uhlenbeck, John Verhaar http://www.sil.org/klp/klp-special.htm

SIL HOME ABOUT SIL SITE MAP SEARCH ... Sitemap Kenneth L. Pike Pike Special Collection Including papers of Kenneth Lee Pike, Evelyn Griset Pike, and Eunice Victoria Pike In March of 1999, Kenneth Pike, Evelyn Pike, and Eunice Pike donated a large body of their personal and work-related papers to the Summer Institute of Linguistics. These papers are comprised of unpublished academic papers, lecture and sermon notes, teaching resource materials, personal and SIL corporation correspondence, diaries, awards and honorary recognitions, as well as various photos and work-related artifacts. After Kenneth Pike's death on December 31, 2000, some additional deposits of papers from his home office were made by Evelyn Pike. In addition, a small number of papers were deposited from some of the academic offices at the International Linguistics Center in Dallas These collected papers now reside as a special collection in the SIL International Language and Culture Archives in Dallas, Texas. The papers have been arranged in eleven series, each of which is briefly described below. Researchers desiring access to the collection must complete and submit the SIL International Language and Culture Archives Access Policies and Registration before making an appointment with the curator.

89. Transport Phenomena In Polyatomic Gases / By C.S. Wang Chang, G.E . Transport phenomena in polyatomic gases / by C.S. Wang Chang, G.E. uhlenbeck. University of Michigan. Engineering Research Institute. "Project M6046" Includes bibliographical references. http://rdre1.inktomi.com/click?u=http://name.umdl.umich.edu/BAD7743.0001.001&

90. Phys. Rev. 48, 107 (1935): Konopinski And Uhlenbeck - Higher Order Derivatives I http://link.aps.org/doi/10.1103/PhysRev.48.107

Phys. Rev. Lett. Phys. Rev. A Phys. Rev. B Phys. Rev. C Phys. Rev. D Phys. Rev. E Phys. Rev. ST AB Rev. Mod. Phys. Phys. Rev. (Series I) Phys. Rev. Volume: Page/Article: Previous article Next article Issue 1 contents View Page Images or PDF (334 kB) [ Buy this Article Higher Order Derivatives in the Interaction "Ansatz" of the Fermi Theory E. J. Konopinski and George E. Uhlenbeck University of Michigan Received 16 June 1935 URL: http://link.aps.org/abstract/PR/v48/p107 DOI: 10.1103/PhysRev.48.107 View Page Images or PDF (334 kB) [ Buy this Article Previous article Next article Issue 1 contents ... [Show References] Requires Subscription [Show Articles Citing This One] Requires Subscription Previous article Next article Issue 1 contents APS ... Search E-mail: prola@aps.org

91. Paths To Erdos 4 John Wilder Tukey statistics 2 Alan Turing computer science 5 george Uhlenbeckatomic physics 2 John von Neumann mathematics 3 John A. Wheeler nuclear http://www.oakland.edu/~grossman/erdpaths.html

92. Kiyoshi Shiraishi:”N•\ Translate this page 1901, Ernest Lawrence, 1958. 1901, Enrico Fermi, 1954. 1900, george EugeneUhlenbeck, 1988. 1900, John Clarke Slater, 1976. 1900, Wolfgang Pauli,1958. http://ha2.seikyou.ne.jp/home/Kiyoshi.Shiraishi/nemp.html

24 Jan 2004 ‚²ˆÓŒ©iƒŠƒNƒGƒXƒgj‚ð‚¨Šñ‚¹‰º‚³‚¢B 20E21¢‹I 20¢‹I 21¢‹I Rolf Hagedorn Araham Pais Ilya Prigogine Sir Fred Hoyle Hendrik Brugt Gerhard Casimir Edward Teller Victor Frederick Weisskopf 19E20¢‹I 19¢‹I 20¢‹I Julian Schwinger Richard Feynman Robert Henry Dicke Robert Hofstadter Lev Davidovich Landau “’ìGŽ÷ ’©‰iUˆê˜Y Kurt Goedel Walter Heinrich Heitler George Gamov John Robert Oppenheimer Paul Adrien Maurice Dirac Pascual Jordan Fritz Strassmann Samuel Abraham Goudsmit ‹e’r³Žm Werner Karl Heisenberg Ernest Lawrence Enrico Fermi George Eugene Uhlenbeck John Clarke Slater Wolfgang Pauli Jean Joliot-Curie Fritz London Vladimir Alexandrovich Fock Isaac Isidor Rabi Fritz Zwicky Patrick Blackett John Cockcroft Douglas Rayner Hartree Irene Joliot-Curie Lester Germer Edward Arthur Milne Satyendra Nath Bose Abbe Georges Lemaitre Meghnad Saha Louis Victor de Broglie George Paget Thomson Arthur Holly Compton James Chadwick William Lawrence Bragg m‰È–F—Y Walther Gerlach Edwin Powell Hubble Alfred Lande Sir Chandrasekhara Venkata Raman Otto Stern Alexander Alexandrovich Friedmann Gustav Ludwig Hertz Erwin Schrodinger Srinivasa Ramanujan Henry Moseley Niels Henrik David Bohr Claus Hugo Hermann Weyl Petrus Josephus Wilhelmus Debye George David Birkhoff Victor Hess Max Born James Franck Hans Geiger Sir Arthur Stanley Eddington Emmy Neother Clinton Joseph Davisson Paul Ehrenfest Otto Hahn Max von Laue Albert Einstein Lise Meitner Wonder Johannes de Haas Marcel Grossman Ž›“c“ЕF Walter Ritz Sir James Hopwood Jeans Erhard Schmidt Johannes Stark Theodore Lyman Guglielmo Marconi

93. The Rockefeller Archive Center The Rockefeller Archive Center holds the papers of the Rockefeller family and the records of various philanthropic, educational and scientific institutions. http://www.rockefeller.edu/archive.ctr/ru_geu.html

Overview Staff Contact Us Information for Researchers ... E-Mail Error 404: File Not Found This page will automatically redirect you to the home page. Click here to go there directly. A Division of The Rockefeller University Site Index

94. Glossaire http://www.genetic.ch/elect/scientifiques.html

A B C D ... Z Dans cette liste, cliquez la lettre majuscule pour revenir à l'index. A Howard H. Aiken (Américain 1900-1973) - 1944: Mise en service avec l'aide de IBM du premier calculateur électromécanique Mark I. André Marie Ampère (Français 1775-1836) - 1814: Il distingue les atomes et molécules. 1821: Emet l'hypothèse que les molécules des corps sont l'objets de courants de particules que l'aimantation peut diriger, se montrant ainsi précurseur de la théorie électronique de la matière. 1827: publication de son mémoire sur la théorie mathématique des phénomènes électrodynamiques qui crée le vocabulaire de l'électricité. Edwin Armstrong (Américain 1890-1954) - 1918: invente de récepteur radio moderne superhétérodyne. (Tout comme Lucien Lévy). Carl Anderson (Américain 1905-) - 1932: découvre le positron. Svante Arrhenius (Suédois 1859-1927) - 1887: donne une théorie ionique à l'électrolyse. J. Arsène d' Arsonval (Français 1851-1940) - 1882: avec Marcel Deprez, il invente le galvanomètre à cadre mobile, ancètre du voltmètre. B Peter Barlow (Britanique 1776-1862) - 1828: invention d'un dispositif qui montre l'action d'un champ magnétique sur un courant électrique. 1847: découvre les courants telluriques.

A  B  C  D  E  F  G  H  I  J  K  L  M  N  O  P  Q  R  S  T  U  V  W  X  Y  Z

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