41. Sin Itiro Tomonaga Look for Sin Itiro tomonaga in Wiktionary, our sister dictionary project. Look for Sin Itiro tomonaga in the Commons, our repository for free images, music, http://www.algebra.com/algebra/about/history/Sin-Itiro-Tomonaga.wikipedia

42. ISHTCP DEMONSTRATION SCREEN A/L (c)1992-1995 TAPSHA Ky.01.a tomonaga, sinitiro 1932-1938 / / 3/ 3 Ja.Ky.01. a = Screen http://www.peak.org/~danneng/www/scra.html

43. Sin-Itiro Tomonaga - Japanese Physicist sinitiro tomonaga (Japanese ?) (March 31, 1906 - July 8, 1979) was a Japanese physicist, influential in the development of quantum http://www.japan-101.com/culture/sin.htm

Home Tokyo Guide Travel Culture ... Next Sin-Itiro Tomonaga - Japanese physicist Sin-Itiro Tomonaga Working in Leipzig in the 1930s, he collaborated with Werner Heisenberg's research group. After the Second World War, he worked at the Institute for Advanced Study in Princeton. Article text is from Wikipedia and licensed under terms of the GFDL . The original article can be found here How Safe Is Japan? A question often heard from those traveling to Japan for the first time - Is it is really as safe as I've heard? Japan has a long held reputation for being a safe country, low in crime compared to most... Maybe you've also seen current events in the Japanese media, stories of crimes previously unheard of and shocking to most Japanese. Reports of organized crime, drugs and murder make the headlines of Japanese newspapers... ( read more Japanese popular culture Japan's popular culture not only reflects the attitudes and concerns of the present, but it provides a link to the past. Popular films, television programs, comics, and music all developed from older artistic and literary traditions, and many of their themes and styles of presentation can be traced to traditional art forms. Contemporary forms of popular culture, like the traditional forms, provide not only entertainment but also an escape for the contemporary Japanese from the problems of an industrial world. (

44. Sin-Itiro Tomonaga -- Facts, Info, And Encyclopedia Article sinitiro tomonaga or Shinichiro tomonaga ( ? tomonaga Shin ichiro, March 31, 1906–July 8, 1979) was a (A native or inhabitant of Japan) Japanese http://www.absoluteastronomy.com/encyclopedia/s/si/sin-itiro_tomonaga1.htm

Sin-Itiro Tomonaga [Categories: Nobel Prize in Physics winners, 1979 deaths, 1906 births, Physicists] Sin-Itiro Tomonaga or (A native or inhabitant of Japan) Japanese (A scientist trained in physics) physicist , influential in the development of (A relativistic quantum theory of the electromagnetic interactions of photons and electrons and muons) quantum electrodynamics , work for which he was jointly awarded the (Click link for more info and facts about Nobel Prize in Physics) Nobel Prize in Physics in 1965 along with (United States physicist who contributed to the theory of the interaction of photons and electrons (1918-1988)) Richard Feynman and (Click link for more info and facts about Julian Schwinger) Julian Schwinger Working in (A city in southeastern Germany famous for fairs; formerly a music and publishing center) Leipzig in the (The decade from 1930 to 1939) , he collaborated with (Click link for more info and facts about Werner Heisenberg) Werner Heisenberg 's research group. After the (A war between the Allies (Australia, Belgium, Bolivia, Brazil, Canada, China, Colombia, Costa Rica, Cuba, Czechoslovakia, Dominican Republic, El Salvador, Ethiopia, France, Greece, Guatemala, Haiti, Honduras, India, Iran, Iraq, Luxembourg, Mexico, Netherl) Second World War , he worked at the (Click link for more info and facts about Institute for Advanced Study) Institute for Advanced Study in (A university town in central New Jersey) Princeton External links PrintLink("http://www.nobel.se/physics/laureates/1965/tomonaga-bio.html", "Nobel Prize biography")

45. Quantum Electrodynamics -- Facts, Info, And Encyclopedia Article (Click link for more info and facts about sinitiro tomonaga) sin-itiro tomonaga, (Click link for more info and facts about Julian Schwinger) Julian http://www.absoluteastronomy.com/encyclopedia/q/qu/quantum_electrodynamics.htm

Quantum electrodynamics [Categories: Theoretical physics, Quantum field theory, Quantum mechanics, Electromagnetism] Quantum electrodynamics QED ) is a (The branch of quantum physics that is concerned with the theory of fields; it was motivated by the question of how an atom radiates light as its electrons jump from excited states) quantum field theory of (The branch of physics concerned with electromagnetic phenomena) electromagnetism . QED describes all (Click link for more info and facts about phenomena) phenomena involving (Click link for more info and facts about electrically charged) electrically charged particles interacting by means of the electromagnetic force and has been called "the jewel of physics" for its extremely accurate (A statement made about the future) prediction s of quantities like the anomalous (The torque exerted on a magnet or dipole when it is placed in a magnetic field) magnetic moment of the (An elementary particle with a negative charge and a half-life of 2 microsecond; decays to electron and neutrino and antineutrino) muon , and the (Click link for more info and facts about Lamb shift) Lamb shift of the (A definite stable energy that a physical system can have; used especially of the state of electrons in atoms or molecules)

46. Read About Sin-Itiro Tomonaga At WorldVillage Encyclopedia. Research Sin-Itiro T sinitiro tomonaga. Everything you wanted to know about sin-itiro tomonaga but had no clue how to find it.. Learn about sin-itiro tomonaga here! http://encyclopedia.worldvillage.com/s/b/Sin-Itiro_Tomonaga

Culture Geography History Life ... WorldVillage Sin-Itiro Tomonaga From Wikipedia, the free encyclopedia. Sin-Itiro Tomonaga or March 31 July 8 ) was a Japanese physicist , influential in the development of quantum electrodynamics , work for which he was jointly awarded the Nobel Prize in Physics in along with Richard Feynman and Julian Schwinger Working in Leipzig in the , he collaborated with Werner Heisenberg 's research group. After the Second World War , he worked at the Institute for Advanced Study in Princeton edit External links Nobel Prize biography http://www.nobel.se/physics/laureates/1965/tomonaga-bio.html Shinichiro Tomonaga http://www.nobel-winners.com/Physics/shinitiro_tomonaga.html physics article is a stub . You can help Smartpedia by expanding it http://en.wikipedia.orghttp://encyclopedia.worldvillage.com/s/b/Sin-Itiro_Tomonaga Retrieved from " http://en.wikipedia.org/s/b/Sin-Itiro_Tomonaga Categories Physics stubs Physicists ... Nobel Prize in Physics winners This document is licensed under the GNU Free Documentation License (GFDL), which means that you can copy and modify it as long as the entire work (including additions) remains under this license.

47. The Story Of Spin [Review] sinitiro (Shinichireo) tomonaga. Chicago University of Chicago Press, 1997. 850p. $50.00 (ISBN 0-226-80793-2). Translated from the Japanese by Takeshi Oka http://www.istl.org/98-spring/review1.html

Issues in Science and Technology Librarianship Spring 1998 Book Reviews The Story of Spin Diane Fortner Physics Library University of California, Berkeley dfortner@library.berkeley.edu The Story of Spin. Sin-itiro (Shinichireo) Tomonaga. Chicago:  University of Chicago Press, 1997. 850p. $50.00 (ISBN 0-226-80793-2) Translated from the Japanese by Takeshi Oka from a 1974 book, Spin wa meguru , this series of lectures by Sin-itiro Tomonaga, a renowned theoretical physicist, focuses on the pioneers of quantum physics from the early 1920's to the late 1930's.  The lectures follow a meandering pathway through discrete insights to collective "quantum leaps" of understanding. All the greats Werner Heisenberg, Wolfgang Pauli, Paul Dirac, Niels Bohr, and others are mentioned as Tomonaga traces the crucial steps in the story of atomic spin and its statistics.  In the account of electron spin, the story line moves from Ralph de Laer Kronig to Pauli and his rejection of Kronig's idea, to the Uhlenbeck-Goudsmit self-rotating conjecture and their indecisiveness about their paper submitted to Naturwissenschaften , to L. H. Thomas, and back to the perfectionist, Pauli, and his approval.

48. Nobel Prize In Physics 1965 sinitiro tomonaga Button 1/3 of prize Button Japan Button born 1906, died 1979 Button CA - Science Council of Japan, Tokyo, Japan http://www.slac.stanford.edu/library/nobel/nobel1965.html

Home About Contact "for their fundamental work in quantum electrodynamics, with profound consequences for the physics of elementary particles" Sin-Itiro Tomonaga 1/3 of prize Japan born 1906, died 1979 CA - Science Council of Japan , Tokyo, Japan AA - Tokyo University of Education, Tokyo, Japan, now University of Tsukuba , Tsukuba, Japan WA - Tokyo University of Education ( University of Tsukuba Additional Information Julian S. Schwinger 1/3 of prize USA born 1918, died 1994 CA - University of California at Los Angeles , Los Angeles, California, USA AA - Harvard University , Cambridge, Massachusetts, USA WA - Harvard University Additional Information Richard P. Feynman 1/3 of prize USA born 1918, died 1988 CA - California Institute of Technology , Pasadena, California, USA AA - Cornell University , Ithaca, New York, USA WA - Cornell University Additional Information Additional Information: Nobel e-Museum Prize in Physics 1965 Julian S. Schwinger: Julian S. Schwinger: UCLA's Nobel Laureates Julian S. Schwinger:

49. Nobelprize2 tomonaga, sinitiro, Japan, Tokyo, University of Education, Tokyo, * 1906, + 1979;. SCHWINGER, JULIAN, USA, Harvard University, Cambridge, MA, * 1918, http://courses.physics.kth.se/5A1310/elementar/Nobelprize3.html

Nobel prize in Physics 1965 The prize was awarded jointly to: TOMONAGA, SIN-ITIRO, Japan, Tokyo, University of Education, Tokyo, * 1906, + 1979; SCHWINGER, JULIAN, U.S.A., Harvard University, Cambridge, MA, * 1918, U 1994; and FEYNMAN, RICHARD P., U.S.A., California Institute of Technology, Pasadena, CA, * 1918, + 1988: "for their fundamental work in quantum electrodynamics, with deep-ploughing consequences for the physics of elementary particles". Vidare till Nobelstiftelsen eller tillbaks till Elementarpartikelfysik

50. History 181B - Class 40 sinitiro tomonaga (1906-1979), NP 1965 Julian Schwinger (1918-1994), NP 1965 Richard Feynman (1918-1988), NP 1965 propagator, vertex perturbation theory http://history.berkeley.edu/faculty/Carson/spring03/181B/class40.html

History 181B: Modern Physics Class 40 (4/30/03) Renormalization Navigation Home Schedule Next Class > Outline Facing the infinities? Renormalized QED (continued) War work and postwar theory Schwinger and Tomonaga (recap) Feynman Disassembling the diagrams Reassembling them: Perturbation theory Thinking out of daily experience Los Alamos and modularity Assembling a full-fledged renormalized QED A conservative response to calls for radical change Rethinking quantum field theory Renormalization: QED and beyond Renormalizability as a criterion for theories New particles, new forces The data flood Strategies in the face of multiplicity The rise and fall (and rise again) of QFT Names and terms Primary Secondary quantum electrodynamics (QED) Sin-itiro Tomonaga (1906-1979), NP 1965 Julian Schwinger (1918-1994), NP 1965 Richard Feynman (1918-1988), NP 1965 propagator, vertex perturbation theory fine structure constant alpha = e h -bar c Freeman Dyson (1923 - ) S matrix 4 forces: EM, weak, strong, gravity

51. History 181B - Class 39 sinitiro tomonaga (1906-1979), NP 1965 Julian Schwinger (1918-1994), NP 1965 Richard Feynman (1918-1988), NP 1965, subtraction procedures coupling constant http://history.berkeley.edu/faculty/Carson/spring03/181B/class39.html

History 181B: Modern Physics Class 39 (4/28/03) Rethinking quantum field theory Navigation Home Schedule Next Class > Outline Reprise: Quantum field theories through the 1930s Where QFTs come from The problem: Infinities High energies, short distances, and the physicists' response A temporary expedient: Heisenberg's S matrix (1942-44) S is for scattering: How to treat interactions Black-boxing what you can't observe Facing the infinities? Renormalized QED Experimental stimuli Is the old QED right or wrong? Renormalization hides the infinities Meaning and significance of a debatable practice War work and postwar theory Tomonaga-Schwinger QFT in full flower The Rad Lab and black boxing Feynman (begin): Diagrammatics Names and terms Primary Secondary quantum electrodynamics (QED) electron-positron pairs vacuum polarization fine structure constant alpha = e h -bar c S matrix Lamb shift Willis Lamb (1913- ), NP 1955 bare charge vs. effective charge renormalization Sin-Itiro Tomonaga (1906-1979), NP 1965

52. Private Research Foundation Period / Corporation Period | RIKEN sinitiro tomonaga (1932~1941) and others announce the Renormalization Theory sin-itiro tomonaga joined Nishina s laboratory at RIKEN in 1932. http://www.riken.jp/engn/r-world/riken/history/zaidan-b/

Search Private Research Foundation Period / Corporation Period Jokichi TAKAMINE TAKAMINE points out the need for a National Science Research Institute Eiichi SHIBUSAWA Buildings occupied by RIKEN when it was first founded The first Director General : HRH Prince Sadanaru, the Prince of Fushimi Umetaro SUZUKI with the compound sake Eiichi SHIBUSAWA, Joji SAKURAI, and other figures in government and the business community debate the concept of a National Science Research Institute Jokichi TAKAMINE gives a speech on "The Necessity for Establishing a National Science Research Institute"at the Tsukiji Seiyoken, a fashionable Western-style restaurant "Petition for the Establishment of a Chemical Research Institute" presented to both houses of the Diet, the House of Peers and the House of Representatives (but the goal was not achieved because the Diet was dissolved) Bill for Establishment of RIKEN (Rikagaku Kenkyusho) passed by the 37th Imperial Diet "Proposition Relating to the Establishment of RIKEN " submitted to the government Prime Minister Shigenobu OKUMA convenes the Council to Promote Establishment of RIKEN.

53. 20th Century Year By Year 1965 tomonaga, sinitiro, Japan, Tokyo, University of Education, Tokyo, b. 1906, d. 1979; SCHWINGER, JULIAN, USA, Harvard University, Cambridge, MA, b. 1918, d. http://www.historycentral.com/20th/1965.html

Major Event/ Sports Nobel Prizes Pulitz er Prizes ... Popular Book s / Popular Television Shows Popular Music/ Major Events of 1965 War Escalates in Vietnam Singapore leaves Federatoin Gambia Independent Rhodesia Independence ... First Commercial Satellite Sports NBA: Boston Celtics vs. LA Lakers Series: 4-3 Heisman Trophy: Steve Spurrier, florida, QB points: 1,679 Stanley Cup: Montreal Canadiens vs. Detroit Red Wings Score: 4-2 US Open Golf: Billy Casper Score: 278 Course: Olympic CC Location: San Francisco World Cup: England vs. West Germany Series: 4-2 World Series: Baltimore Orioles vs. LA Dodgers Series: 4-0 Popular Music of 1965 1."The Sound of Silence" ... Simon and Garfunkel 2."We Can Work It Out" ... The Beatles 3."My Love" ... Petula Clark 4."Lightnin' Strikes" ... Lou Christie 5."These Boots Are Made for Walkin'" ... Nancy Sinatra 6."The Ballad of the Green Berets" ... Sgt. Barry Sadler 7."Soul and Inspiration" ... The Righteous Brothers

54. MSN Encarta - Tomonaga Shin’ichirō tomonaga took an important step for quantum electrodynamics by making Related Items sinitiro tomonaga Nobel Foundation. 1 item. Want more Encarta? http://encarta.msn.com/encyclopedia_761583379/Tomonaga_Shin’ichirō.html

MSN Home My MSN Hotmail Shopping ... Sign In Web Search: Encarta Subscriber Sign In Help Home ... Upgrade your Encarta Experience Search Encarta Subscription Article MSN Encarta Premium: Get this article, plus 60,000 other articles, an interactive atlas, dictionaries, thesaurus, articles from 100 leading magazines, homework tools, daily math help and more for $4.95/month or $29.95/year (plus applicable taxes.) Learn more. This article is exclusively available for MSN Encarta Premium Subscribers. Already a subscriber? Sign in above. Tomonaga Shin’ichirō Tomonaga Shin’ichirō (1906-1979), Japanese physicist and Nobel Prize winner. Tomonaga took an important step for quantum electrodynamics by making... Related Items reformulation of QED equations 2 items Multimedia Selected Web Links Sin-Itiro Tomonaga [Nobel Foundation] 1 item Want more Encarta? Become a subscriber today and gain access to: Daily Math Help Literature Guides Researcher Tools Paper-Writing Guides 60,000 + articles Interactive Atlas Magazine Center Find more about Tomonaga Shin’ichirō from Related Items Other Features from Encarta Quantum Theory Search Encarta for Tomonaga Shin’ichirō © 2005 Microsoft MSN Privacy Legal Advertise Feedback ... Help

55. Nobel Prize Awards 1965 sinitiro tomonaga, Julian S. Schwinger, Richard P. Feynman 1966 Alfred Kastler 1967 Hans Albrecht Bethe 1968 Luis W. Alvarez 1969 Murray Gell-Mann http://www.nobelphysics.com/

Nobel prize for physics Wilhelm Conrad Roentgen Hendrik Antoon Lorentz, Pieter Zeeman Antoine Henri Becquerel, Pierre Curie, Marie Curie Lord (John William Strutt) Rayleigh Philipp Eduard Anton von Lenard Sir Joseph John Thomson Albert Abraham Michelson Gabriel Jonas Lippmann Guglielmo Marconi, Karl Ferdinand Braun Johannes Diderik van der Waals Wilhelm Carl Werner Otto Fritz Franz Wien Nils Gustaf Dalen Heike Kamerlingh Onnes Max Theodor Felix von Laue Sir William Henry Bragg, Sir William Lawrence Bragg Charles Glover Barkla Max Karl Ernst Ludwig Planck Johannes Stark Charles Edouard Guillaume Albert Einstein Niels Henrik David Bohr Robert Andrews Millikan Karl Manne Georg Siegbahn James Franck, Gustav Ludwig Herz Jean Baptiste Perrin Arthur Holly Compton, Charles Thomson Rees Wilson Sir Owen Willans Richardson Prince Louis-Victor Pierre Raymond de Broglie Sir Chandrasekhara Venkata Raman Werner Heisenberg Erwin Schrodinger, Paul Adrien Maurice Dirac Sir James Chadwick Victor Franz Hess, Carl David Anderson Clinton Joseph Davisson, Sir George Paget Thomson Enrico Fermi Ernest Orlando Lawrence Otto Stern Isidor Isaac Rabi Wolfgang Pauli Percy W. Bridgman

56. Tomonaga Shin'ichiro --  Encyclopædia Britannica sinitiro tomonaga Nobel Foundation Biography of this Japanese scientist awarded the Nobel Prize in Physics, in 1965, for fundamental work in quantum http://www.britannica.com/eb/article-9072839

Home Browse Newsletters Store ... Subscribe Already a member? Log in Content Related to this Topic This Article's Table of Contents Introduction Additional Reading Print this Table of Contents Shopping Price: USD $1495 Revised, updated, and still unrivaled. The Official Scrabble Players Dictionary (Hardcover) Price: USD $15.95 The Scrabble player's bible on sale! Save 30%. Merriam-Webster's Collegiate Dictionary Price: USD $19.95 Save big on America's best-selling dictionary. Discounted 38%! More Britannica products Tomonaga Shin'ichiro Page 1 of 2 born March 31, 1906, Kyoto, Japan died July 8, 1979, Tokyo Tomonaga By courtesy of the Japan Information Centre, London Shin'ichiro also spelled Sin-itiro Japanese physicist, joint winner, with Richard P. Feynman and Julian S. Schwinger of the United States, of the Nobel Prize for Physics in 1965 for developing basic principles of quantum electrodynamics. Tomonaga Shin'ichiro...

57. Essay On Feynman 1 sinitiro tomonaga, Richard Feynman, and Schwinger, are now in heaven. tomonaga and Feynman also had a similarity outside the scientific lives. http://www3.ocn.ne.jp/~tttabata/tabfe1.htm

INSTITUTE FOR DATA EVALUATION AND ANALYSIS (IDEA) What Little I Can Talk about Feynman "Feynman Laughing" taken from " Richard Feynman Online!" Go to the Japanese version Tatsuo Tabata Translated and adapted from the Japanese version published in "Noruka-Soruka Tsushin" ( Friends of Tuva - Japan Newsletter). Contents A Strange Photo Feynman and "The Ambidextrous Universe" Three Similar Men A Documentary by Sykes ... Read other essays on Feynman 1. A Strange Photo There is a photograph in which Richard Feynman stands among others and with which I did a little thing. I should have done the same thing again recently, but I have failed to do so yet. It is one of the photographs in the book, "Genius: The Life and Science of Richard Feynman," written by James Gleick (Pantheon Books, New York, 1992). The picture carries the caption, "Feynman and Hideki Yukawa in Kyoto, 1956." There is something strange about the photo. Can you find what is strange? If you are a Japanese or a Chinese, it is rather easy to find it. Yes! Four Chinese characters on the bulletin board in the background show that the photo was printed backwards. In the year of 1954, I entered Kyoto University. Two years later I learned mechanics from Minoru Kobayashi and quantum mechanics from Hideki Yukawa. When the picture was printed in "Physics Today," it was already twenty-eight years since those days. I looked closely the picture with dear memories of my teachers, especially of Yukawa, whom I respected very much, and thus came to the discovery of the backward printing. Around 1982, my interest in Feynman was not so keen as in later years after reading "Surely You're Joking, Mr. Feynman," so that my discovery related to Feynman was made by the intermediation of looking at the image of Yukawa, who had predicted the existence of the pion as the mediator of the nuclear force.

58. Femto-Column: Essays On Science And Humanity 03 The NobelPrize physicist sin-itiro tomonaga discussed this problem with his colleagues in his young days. They reached a thought that the top-bottom and http://www3.ocn.ne.jp/~tttabata/femto03.htm

INSTITUTE FOR DATA EVALUATION AND ANALYSIS (IDEA) Femto-Column: Short Essays on Science and Humanity Tatsuo Tabata "Femto" is "a combining form used in the names of units of measure that are one quadrillionth (10 to minus 15) the size of the unit denoted by the base word" ( Random House Webster's College Dictionary ). Femto-meter, fm, is a unit suitable to express the size of atomic nuclei. Thus, "femto" is used here for the name of a very short column. Send your comment from the guest book page. Contents of This Page What Happened to the Garden of Eden? The Reform of Education A Hard Nut to Crack Even for Tomonaga and Feynman The Japanese Concept of Education ... To All the Contents of Femto-Column 21. What Happened to the Garden of Eden? A good friend of mine, Kazu, began to study the Bible from religious mind. Last year he asked me a question about the Garden of Eden. His question can be summarized as follows: God closed the way to the Garden of Eden after he had driven out Adam from it. What did happen to the Garden when the flood of Noah covered all that were under the whole heaven? There is no description about it. However, we find in Chapter 21 of Revelation that the holy city comes down from God out of heaven and that the city consists of almost the same materials as the Garden of Eden. So I think: The Garden of Eden had once left the earth and came back again, and to behave this way, it should be a super-three-dimensional entity. What do you think about this observation of mine from the viewpoint of a physicist?

59. Sin-Itiro Tomonaga - Nobel Lecture sinitiro tomonaga – Nobel Lecture. Nobel Lecture, May 6, 1966 Fukuda, Miyamoto and tomonaga, Progr. Theoret. Phys. (Kyoto), 4 (1949) 47, 121. http://holiker.narod.ru/five/tomonaga-lecture.html

Nobel Lecture, May 6, 1966 Development of Quantum Electrodynamics Personal recollections In 1932, when I started my research career as an assistant to Nishina, Dirac published a paper in the Proceedings of the Royal Society, London . In this paper, he discussed the formulation of relativistic quantum mechanics, especially that of electrons interacting with the electromagnetic field. At that time a comprehensive theory of this interaction had been formally completed by Heisenberg and Pauli , but Dirac was not satisfied with this theory and tried to construct a new theory from a different point of view. Heisenberg and Pauli regarded the (electromagnetic) field itself as a dynamical system amenable to the Hamiltonian treatment; its interaction with particles could be described by an interaction energy, so that the usual method of Hamiltonian quantum mechanics could be applied. On the other hand, Dirac thought that the field and the particles should play essentially different roles. That is to say, according to him, "the role of the field is to provide a means for making observations of a system of particles" and therefore "we cannot suppose the field to be a dynamical system on the same footing as the particles and thus be something to be observed in the same way as the particles". Based on such a philosophy, Dirac proposed a new theory, the so-called many-time theory, which, besides being a concrete example of his philosophy was of much more satisfactory and beautiful form than other theories presented up to then. In fact, from the relativistic point of view, these other theories had a common defect which was inherent in their Hamiltonian formalism. The Hamiltonian dynamics was developed on the basis of non-relativistic concepts which make a sharp distinction between time and space. It formulates a physical law by describing how the state of a dynamical system changes with time. Speaking quantum-mechanically, it is a formalism to describe how the probability amplitude changes with time

60. Natural Theology > Notes > 12 November 2000 tomonaga, sinitiro, The Story of Spin, University of Chicago Press 1997 Jacket The Story of Spin, as told by sin-itiro tomonaga and lovingly translated http://www.naturaltheology.net/Notes/Notes00/notesM11D12.html

Notes Site Map Directory Search this site Home ... Synopsis Next: Previous: Notes 2000: Toc Development: toc Essays: toc Glossary: toc ... Supplementary: toc ... to restore theology to the mainstream of science [Notebook NAKEDICAME, DB 53] [ Sunday 12 November 2000 - Saturday 18 November 2000] [page 77] Sunday 12 November 2000 Monday 13 November 2000 Thunderstorm, no compute. Working on revision of natural theology and it is going well. [page 78] The application of this model to the world begins in the section on Physics, but here we note a few correspondences. First, the natural numbers provide a model for counting and arithmetic that applies to all unique objects in the universe, dollars, sheep, ticks of the clock etc etc. Second, we notice that the changing world behaves very much like a permutational process, things are swapping positions all the time: a leaf falls and its place is taken by air. We now turn toward animating the Cantor Universe here constructed. ECONOMICS = SOCIAL PHYSIOLOGY Tuesday 14 November 2000 [page 79] Keynes 409 "... the next development in politico-economic evolution will emerge from new experiments directed toward determining the appropriate spheres of individual and government action."

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