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         Kodaira Kunihiko:     more books (25)
  1. Complex Manifolds and Deformation of Complex Structures (Classics in Mathematics) by Kunihiko Kodaira, 2004-12-22
  2. Complex Analysis by Kunihiko Kodaira, 2007-08-15
  3. Algebra and Geometry: Japanese Grade 11 (Mathematical World, V. 10)
  4. Collected Works: Vol.1 by Kunihiko Kodaira, 1975-12
  5. Complex Manifolds (AMS Chelsea Publishing) by James Morrow and Kunihiko Kodaira, 2006-03-21
  6. Basic Analysis: Japanese Grade 11 (Mathematical World, V. 11)
  7. Mathematics 1: Japanese Grade 10 (Mathematical World, V. 8)
  8. Mathematics 2: Japanese Grade 11 (Mathematical World)
  9. Kodaira: Kunihiko Kodaira Collected Works Vol II (Vol.2) by KODAIRA, 1992-07-01
  10. Complex Analysis and Algebraic Geometry: A Collection of Papers Dedicated to K. Kodaira
  11. Japanese Mathematicians: Heisuke Hironaka, Goro Shimura, Teiji Takagi, Seki Kowa, Toshikazu Sunada, Yozo Matsushima, Kunihiko Kodaira
  12. Deformation theory: Differential calculus, Physics, Geometry of numbers, Perturbation theory, Complex manifold, Algebraic variety, Kunihiko Kodaira, Donald ... Spencer, Zariski tangent space, Moduli space
  13. Biography - Kodaira, Kunihiko (1915-1997): An article from: Contemporary Authors by Gale Reference Team, 2002-01-01
  14. Mathématicien Japonais: Kunihiko Kodaira, Michio Morishima, Masahiko Fujiwara, Kenkichi Iwasawa, Kiyoshi Ito, Yutaka Taniyama, Mikio Sato (French Edition)

41. Members Of The School Of Mathematics
Translate this page KOBAYASHI, Toshiyuki, 1991-92. KOBAYASI, M. 1954-55. KOCHEN, Simon B. 1966-67,1978-79. kodaira, kunihiko, 1949-50, 1951-52, 1955-61. KÖHLER, Wolfgang, 1955-56.
http://www.math.ias.edu/knames.html
KABANETS, Valentine KAC, Mark KADISON, Richard V. KAHANE, Jean-Pierre KAHN, Peter J. KAKUTANI, Shizuo KALAI, Gil KALFAGIANNI, Efstratia KALISCH, Gerhard K. KALLIANPUR, Gopinath KAMBER, Franz W. KAMIENNY, Sheldon KAMISHIMA, Yoshinobu KAMRAN, Niky KAMVISSIS, Spyridon D. KAN, Ittai KAN, Pui Tak KANE, Richard M. KANEVSKY, Dimitry KANIEL, Shmuel KANNAI, Yakar I. KANTOR, William W. KANTOROVITZ, Miriam KANTOROVITZ, Shmuel KAPLAN, Lewis D. KAPLAN, Samuel KAPLANSKY, Irving KAPOULEAS, Nicolaos KAPOVITCH, Vitali KAREL, Martin L. KARMARKAR, Narendra KÁROLYI, Gyula KAROUBI, Max KARP, Leon KARTHA, Sivan KARU, Kalle KASHIWARA, Masaki KASSEL, Christian KATO, Kazuya KATO, Mitsuyoshi KATO, Shin-ichi KATZ, Nicholas KATZ, Sheldon H. KAUFMAN, Bruria KAWADA, Yukiyosi KAWAI, Takahiro KAWAKUBO, Katsuo KAWAMATA, Yujiro KAWANAKA, Noriaki KAWAUCHI, Akio KAZHDAN, David KEEL, Markus KEEL, Sean KEEN, Linda KEISLER, H. Jerome KELLER, Georg KELLEY, Allen F., Jr. KELLEY, John L. KELLY, John B. KELLY, Paul J. KEMENY, John G. KEMP, Robert R.D. KEMPF, George R. KENDIG, Keith M. KENIG, Carlos KENKU, Monsur A.

42. Diary
1, Vinod Naik, 16437, 14.3. 2, kunihiko kodaira, 14969, 13.1. 9, Engels, 4809, 4.2.10, Sriram, 3141, 2.7. ?2kunihiko kodaira.
http://www.geocities.co.jp/Milkyway-Lynx/7600/200204.html
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http://www.geocities.co.jp/Milkyway-Lynx/9043/c-song.swf
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43. U. Of Western Ontario /All Locations
Subject, Global analysis (Mathematics). Alternate au, kodaira, kunihiko, 1915.Spencer, Donald Clayton, 1912-. Iyanaga, Sh¯okichi, 1906-. ISBN, 0691080771.
http://alpha.lib.uwo.ca:5701/search/tPrinceton modern Greek studies/tprinceton m
AUTHOR TITLE SUBJECT MEDICAL SUBJECT WORD KEYWORD CALL NO Brescia University College Library Business Library Education Library Huron University College Library Music Library Law Library The D. B. Weldon Library Information and Media Studies Int'l Centre for Olympic Studies Electronic Resources Journals View Entire Collection Title Global analysis: papers in honor of K. Kodaira. Edited by D. C. Spencer and S. Iyanaga. Publisher LOCATION CALL # STATUS RDL storage IN LIBRARY Description 414 p. port. 24 cm. Series Bibliography Includes bibliographies. Subject Global analysis (Mathematics) Alternate au Kodaira, Kunihiko, 1915- Spencer, Donald Clayton, 1912- Iyanaga, Sh¯okichi, 1906- ISBN LCCN

44. Www.weizmann.ac.il/WIS-library/book1.txt
0080281 515.93 KOD kodaira, kunihiko, 1915 Complex manifolds and deformationof complex structures. New York Springer, c1986.
http://www.weizmann.ac.il/WIS-library/book1.txt

45. Awards
29 1936 Douglas, Jesse New York, NY USA 39 1950 Schwartz, Laurent Paris France 351950 Selberg, Atle Langesund Norway 33 J 1954 kodaira, kunihiko Tokyo Japan
http://www.arthurhu.com/index/aaward.htm
Awards
award see aaward.htm
Contents
<3.0 Chinese (0) 1 3% 30.0 Indian 8 25% 12.0 Jewish 31 97% 1.3 White Chinese None Indians 1 Raj Reddy Jews 1 Minsky 2 Feigenbaum 3 Simon 4 Rabin 5 Blum 6 Milner 7 Perlis 8 Kahan ACM Grace Hopper Award 1971-1997 out of 24 # % Pop Rate Group 1 4% 1% 4.0 Chinese 4 16% 2% 8.0 Jewish Chinese Hsu Jews 1 Reid 2 Stallman 3 Kurzweil 4 Goldwasser Analysis by Arthur Hu
Beauty
link Miss USA web page Field Forbes Hi Tech 100 Forbes 1998 Hi Tech 100 List of jews on list 1 Grove 2 Horowitz 3 Levy 4 Levine 5 Larry Ellison 6 Michael Dell range of 6-13% 7 Wilner Sailer on Forbes 100 Fortune Richest 40 under 40 Fortune Magazine 2001 list Fox Smartest Kid In America FOX SMARTEST KID IN AMERICA 90% ASIAN Ivy League MattNF compiled these figures: original McArthur Foundation Home Page Fellows Program Millionaire (Who Wants to Be) Apr 2000 "Greg McDivitt" Nobel Prize There are reports that Jews have gotten from 20% up to 40% of the Nobel prizes. It's way more than their population, but it's nowhere near that high. Not many Asians on most lists. Nearly all are Jews, Europeans or Euro-Americans, and the Asians tend to be Asian Americans. Japan has only one about 1 prize per decade. Links

46. Paths To Erdos
ERDÖS NUMBER Lars Ahlfors 1936 Finland 4 Jesse Douglas 1936 USA 4 Laurent Schwartz1950 France 4 Atle Selberg 1950 Norway 2 kunihiko kodaira 1954 Japan 2 Jean
http://www.oakland.edu/~grossman/erdpaths.html
The tables below shows of some famous scientists and mathematicians, including many Nobel laureates . Further details, including the paths that establish these numbers and many other people, can be found in LATeX postscript , and pdf (35 pages). It appears (somewhat abbreviated) in The Mathematical Intelligencer Revista de la Academia Colombiana de Ciencias Exactas, Fisicas y Naturales In addition, we have listed on a separate page the collaboration paths Fields Medal , the Nevanlinna Prize , the Wolf Prize in Mathematics , and the Steele Prize for Lifetime Achievement , as well as a few others. Perhaps the most famous contemporary mathematician, Andrew Wiles , was too old to receive a Fields Medal (but was given a Special Tribute by the Committee at the 1998 ICM ANDREW ODLYZKO to Chris M. Skinner to Wiles. William H. (Bill) Gates , who published with Christos H. Papadimitriou in 1979, who published with Xiao Tie Deng PAVOL HELL We would like to acknowledge and thank the dozens of people, too numerous to mention by name, who have written in with suggestions, additions, and corrections to these lists. We would appreciate further help from anybody with relevant information.
Nobel Prize winners
Fields Medal winners
Nevanlinna Prize winners
Wolf Prize in Mathematics winners
Steele Prize (Lifetime Achievement) winners
Mathematics members of the National Academy of Sciences as of 2001
Other distinguished scholars
Alan Turing computer science 5 George Uhlenbeck atomic physics 2 John von Neumann mathematics 3 John A. Wheeler nuclear physics 3

47. Felix.unife.it/Root/d-Mathematics/d-Guida-alla-matematica/t-I-matematici
Translate this page Fields finora assegnate 1936 Lars Ahlfors (1907) Jesse Douglas (1897) 1950 LaurentSchwartz (1915) Atle Selberg (1917) 1954 kunihiko kodaira (1915) Jean
http://felix.unife.it/Root/d-Mathematics/d-Guida-alla-matematica/t-I-matematici
Per un confronto elenchiamo le 18 sezioni in cui  stata divisa la matematica in occasione dell'ultimo Congresso Internazionale di Matematica a Kyoto, nell'agosto 1990: Logica matematica e fondamenti Algebra Teoria dei numeri Geometria Topologia Geometria algebrica Gruppi di Lie e rappresentazioni Analisi reale e complessa Algebre di operatori e analisi funzionale Teoria della probabilitˆ e statistica matematica Equazioni differenziali parziali Equazioni differenziali ordinarie e sistemi dinamici Fisica matematica Calcolo combinatorio Aspetti matematici dell'informatica Metodi computazionali Applicazioni della matematica alle altre scienze Storia, didattica, natura della matematica. Pianta provvisoria della biblioteca /* SOSTITUIRE DOPO LA STAMPA CON LA PIANTA */ Medaglie Fields Non esiste il premio Nobel per la matematica, perchŽ Alfred Nobel (1833-1896) o non aveva abbastanza soldi, o ci ha semplicemente dimenticati, o pensava che la matematica fosse una scienza meno importante delle altre, o perchŽ attristato da dolori sentimentali causatigli da un matematico, o forse per tutte queste cause insieme, non ha previsto il premio Nobel per la matematica. Dal 1936 esiste invece la medaglia Fields, che viene conferita ogni 4 anni (con pause dovute a eventuali guerre mondiali) in occasione dei Congressi Matematici Internazionali. Diamo l'elenco delle medaglie Fields finora assegnate: 1936 Lars Ahlfors (1907) Jesse Douglas (1897) 1950 Laurent Schwartz (1915) Atle Selberg (1917) 1954 Kunihiko Kodaira (1915) Jean-Pierre Serre (1926) 1958 Klaus Roth (1925) RenŽ Thom (1923) 1962 Lars Hšrmander (1931) John Milnor (1962) 1966 Michael Atiyah (1929) Paul Joseph Cohen (1934) Alexandre Grothendieck (1928) Stephen Smale (1930) 1970 Alan Baker (1939) Heisuke Hironaka (1931) Sergei Novikov (1938) John Thompson (1932) 1974 Enrico Bombieri (1940) David Mumford (1937) 1978 Pierre Deligne (1944) Charles Fefferman (1949) Gregori Margulis (1946) Daniel Quillen (1940) 1982 Alain Connes (1947) William Thurston (1946) Shing-Tung Yau (1949) 1986 Simon Donaldson (1957) Gerd Faltings (1954) Michael Freedman (1951) 1990 Vladimir Drinfeld (1954) Vaughan Jones (1952) Shigefumi Mori (1951) Edward Witten (1951) Ordinati per discipline matematiche si distribuiscono come segue, va per˜ detto che molti di questi matematici hanno lavorato anche in campi molto diversi da quello in cui hanno preso la medaglia Fields. Questa medaglia viene, per un accordo che finora non  mai stato violato, conferita soltanto a matematici di etˆ inferiore ai 40 anni (nell'elenco precedente la data di nascita di ciascuno  indicata tra parentesi). Algebra (2): Thompson, Quillen. Algebre di operatori (2): Connes, Jones. Analisi (5): Ahlfors, Douglas, Schwartz, Hšrmander, Fefferman. Geometria algebrica (6): Grothendieck, Hironaka, Mumford, Deligne, Faltings, Mori. Geometria differenziale e complessa (4): Kodaira, Atiyah, Margulis, Yau. Geometria differenziale in fisica matematica (2): Drinfeld, Witten. Logica (1): Cohen. Teoria dei numeri (4): Selberg, Roth, Baker, Bombieri. Topologia (8): Serre, Thom, Milnor, Smale, Novikov, Thurston, Donaldson, Freedman. Dal 1983 esiste anche il premio Rolf Nevanlinna, che viene conferito nella stessa occasione a uno scienziato che ha dato i migliori contributi nel campo della matematica applicata in informatica. E' stato vinto nel 1982 da R.ÊTarjan, nel 1986 da L.ÊValiant. Nel 1990 questo premio  andato ad A.ÊRazborov, di Mosca, allora 27 anni, per lavori nella teoria della complessitˆ degli algoritmi per funzioni booleane. Forse la pi famosa congettura non risolta della matematica  la congettura di Fermat (1601-1665), che dice che non esistono analoghi di grado superiore delle triple pitagoree, cioŽ non esistono numeri naturali x,y,z tutti diversi da zero, tale che xn + yn = zn, se n  un numero naturale maggiore di 2. Il risultato per cui Gerd Faltings ha ricevuto la medaglia Fields implica che, per ogni fissato n, il numero delle soluzioni x,y,z, se ne esistono,  comunque finito. Questo risultato, ottenuto con metodi avanzatissimi della geometria algebrica,  forse il pi sensazionale tra quelli che i vincitori delle medaglie Fields possono vantare. Le tecniche utilizzate da Faltings sono dovute al francese Alexandre Grothendieck, altra medaglia Fields, che negli anni 1960-1970 ha rivoluzionato la geometria algebrica con una massiccia introduzione di algebra commutativa e un sistematico uso della teoria delle categorie. Di ogni Congresso Matematico Internazionale, organizzato dall'Unione Matematica Internazionale, vengono pubblicati gli atti, che spesso contengono i testi di conferenze estremamente interessanti, perchŽ frequentemente impulsi a nuovi campi di ricerca, ma purtroppo da molto tempo non vengono pi acquistati dalla nostra biblioteca. Abbiamo invece un volume che racconta, naturalmente in forma molto breve, la storia di questi congressi fino al 1986: D. ALBERS/G. ALEXANDERSON/C. REID: International Mathematical Congresses. Springer 1987. Recentemente  stata fondata l'Unione Matematica Europea, di cui  presidente il tedesco Friedrich Hirzebruch, un geometra algebrico, nato nel 1927, vicepresidente  Alessandro Figˆ-Talamanca, un analista armonico, nato nel 1938, che  anche presidente dell'Unione Matematica Italiana (UMI). Esiste anche l'Associazione per le Donne in Matematica (Association for Women in Mathematics), un problema delicato di cui parleremo pi tardi. Premi Wolf Il dottor Wolf (1887-1981), un chimico tedesco emigrato in Cuba prima della prima guerra mondiale, amico di Fidel Castro, vissuto in Israele dal 1973, fond˜ con 10 milioni di dollari la Wolf Foundation, che ogni anno conferisce premi in agricultura, chimica, matematica, medicina e fisica. I vincitori di questo premio sono scienziati molto famosi: I premi in matematica sono stati assegnati finora a Izrail Gelfand, Carl Siegel (1896-1981), Jean Leray, AndrŽ Weil, Henri Cartan, Andrei Kolmogorov (1903-1987), Lars Ahlfors, Oscar Zariski (1899-1986), Hassler Whitney, Mark Krein, Shiing-shen Chern, Paul Erdšs, Kunihiko Kodaira, Hans Lewy, Samuel Eilenberg, Atle Selberg, Kiyoshi Ito, Peter Lax, Friedrich Hirzebruch, Lars Hšrmander, nomi che ogni matematico dovrebbe conoscere. La lista arriva fino al 1988, perchŽ non abbiamo trovato altre informazioni. Esiste un altro premio importante, il premio Crafoord, che viene conferito ogni 7 anni dall'accademia reale svedese in alcuni campi per cui non esiste il premio Nobel: astronomia, biologia, geofisica, matematica. Tra i matematici lo hanno ottenuto Louis Nirenberg, Vladimir Arnold, Pierre Deligne, Alexandre Grothendieck. Grothendieck poi non lo ha accettato, dicendo tra l'altro che non ritiene che abbia senso conferire questi premi a scienziati che in fondo non ne hanno pi bisogno. Comunque non tutti la pensano cos“. Per noi, come pubblico, questi premi sono comodi, perchŽ impariamo a conoscere i nomi pi prestigiosi della matematica mondiale. D. ALBERS/G. ALEXANDERSON (c.): Mathematical people. BirkhŠuser 1985. Volete conoscere le idee e la vita giornaliera di alcuni dei pi famosi matematici degli ultimi decenni? Qui trovate lunghe interviste con Garrett Birkhoff, David Blackwell, Shiing-shen Chern, John H.ÊConway, H.ÊCoxeter, Persi Diaconis, Paul Erdšs, Martin Gardner (quello dei giochi), Ronald Graham, Paul Halmos, Peter Hilton, John Kemeny, Morris Kline, Donald Knuth (quello del TEX), Benoit Mandelbrot (che sostiene di aver inventato i frattali), Henry Pollack, George Polya (1887-1985), Mina Rees, Constance Reid (la biografa di Courant e di Hilbert), Herbert Robbins (del Courant/Robbins), Raymond Smullyan, Olga Taussky-Todd, Albert Tucker, Stanislaw Ulam (1909-1984) con moltissime fotografie e dati biografici. Opere generali e di consultazione A Manuali, trattati di matematica generale M Monografie MB Bibliografia P Proceedings, miscellanee, collane generali O P AMS Collana dell'AMS P ICM Congressi Matematici Internazionali P IND Collana dell'INDAM P UMI Convegni dell'UMI WDM Indirizzario mondiale dei matematici X Dizionari, repertori di matematica Come abbiamo detto,  purtroppo molto incompleta la collezione dei Proceedings dei Congressi Matematici Internazionali. La collana dell'AMS, citata i.g. con il titolo Symposia in pure Mathematics,  importante e contiene spesso esposizioni panoramiche di una disciplina. H. EBBINGHAUS e.a.: Numbers. Springer 1991. Il libro di Ebbinghaus e.a. presenta, a livello avanzato, ma partendo dagli inizi e in modo molto esauriente, alcuni aspetti della matematica elementare, legati al concetto di numero e delle sue generalizzazioni. E' un libro estremamente ricco, scritto da alcuni dei pi famosi autori matematici tedeschi di oggi. Si inizia con i numeri naturali, interi, razionali, seguono i numeri reali, descritti mediante sezioni di Dedekind, successioni di Cauchy, successioni decrescenti di intervalli, e metodo assiomatico, il 3¡ capitolo tratta dei numeri complessi e il loro significato geometrico, segue il teorema fondamentale dell'algebra, che dice che ogni polinomio non costante con coefficienti complessi possiede una radice nell'ambito dei numeri complessi, il 5¡ capitolo  interamente dedicato al numero ¹, i suoi legami con le funzioni trigonometriche e le sue rappresentazioni mediante serie e prodotti infiniti. Dopo questi numeri classici seguono le generalizzazioni: Quaternioni e il loro uso nella rappresentazione delle rotazioni nello spazio tridimensionale, i numeri di Cayley, tutto inquadrato nella teoria delle algebre con molto spazio concesso all'uso della topologia nella dimostrazione di teoremi puramente algebrici. Un'algebra  uno spazio vettoriale che  allo stesso tempo e in modo compatibile con la struttura di spazio vettoriale un anello (non necessariamente commutativo): l'esempio classico  l'algebra delle matrici nxn su un corpo. Ogni numero complesso c pu˜ essere identificato con una matrice, quella matrice che descrive l'applicazione lineare da C in C che si ottiene se si moltiplicano tutti i numero complessi con c, in modo tale che all'addizione e alla moltiplicazione di numeri complessi corrispondono l'addizione e la moltiplicazione tra le matrici corrispondenti. Qui C viene considerato come spazio vettoriale reale di dimensione 2. In questo modo il corpo dei numeri complessi  in pratica la stessa cosa come una certa sottoalgebra dell'algebra della matrici 2x2 con coefficienti reali. In modo simile anche i quaternioni diventano un'algebra di matrici. Il libro termina con un'introduzione all'analisi nonstandard, di cui parleremo fra poco nella logica matematica, e del metodo di John H. Conway (John B. Conway  invece autore di uno dei migliori testi di analisi funzionale) di definire i numeri reali mediante giochi. Non ho mai studiato in dettaglio questo metodo, ma ad alcuni piace, i due John Conway sono matematici famosi, e uno degli scopi di questo seminario  proprio di suscitare un p˜ quel piacere di giocare con i numeri e con gli oggetti matematici che un'impostazione dottrinaria facilmente impedisce o rovina. L'ultimo capitolo parla di insiemi, assiomi, metamatematica.

48. ¼öÇлç¶û Q & A (¿ª»ç, ¿ë¾î, À¯·¡)
1950, Schwartz, Laurent, France, 35. Selberg, Atle, Norway, 33. 1954, kodaira,kunihiko, Japan, 39. Serre, JeanPierre, France, 27. 1958, Roth, Klaus, Germany,32.
http://www.mathlove.org/pds/mathqa/faq/history/history29.html
Year Name Country Age Ahlfors, Lars Finland Douglas, Jesse USA Schwartz, Laurent France Selberg, Atle Norway Kodaira, Kunihiko Japan Serre, Jean-Pierre France Roth, Klaus Germany Thom, Rene France Hormander, Lars Sweden Milnor, John USA Atiyah, Michael UK Cohen, Paul USA Grothendieck, Alexander Germany Smale, Stephen USA Baker, Alan UK Hironaka, Heisuke Japan Novikov, Serge USSR Thompson, John USA Bombieri, Enrico Italy Mumford, David UK Deligne, Pierre Belgium Fefferman, Charles USA Margulis, Gregori USSR Quillen, Daniel USA Connes, Alain France Thurston, William USA Yau, Shing-Tung Hong Kong Donaldson, Simon UK Faltings, Gerd Germany Freedman, Michael USA Drinfeld, Vladimir USSR Jones, Vaughan New Zealand Mori, Shigefumi Japan Witten, Edward USA Lions, Pierre-Louis France Yoccoz, Jean-Chrisophe France Bourgain, Jean Belgium Zelmanov, Efim Russia Borcherds, Richard E. UK Gowers, W. Timothy UK Kontsevich, Maxim Russia McMullen, Curtis T. USA 1998 Special Wiles, Andrew J. UK Lafforgue, Laurent France Voevodsky, Vladimir

49. Complex Analysis
Vol. I, NY, Wiley. 7. kodaira, kunihiko, (1984), Introduction to ComplexAnalysis, NY, Cambridge University Press. 8. Markushevich
http://math.fullerton.edu/mathews/c2002/ca0701/Links/ca0701_lnk_4.html
Library Research Experience for Undergraduates Project I. Write a report on Taylor series.
Shmuel Agmon, ''Functions of Exponential Type in an Angle and Singularities of Taylor Series,''
Transactions of the American Mathematical Society, Vol. 70, No. 3. (May, 1951), pp. 492-508, Jstor.
Aharon Atzmon, ''Boundary Values of Absolutely Convergent Taylor Series,''
The Annals of Mathematics, 2nd Ser., Vol. 111, No. 2. (Mar., 1980), pp. 231-237, Jstor.
Arcache, Alexander, ''Expansion of Analytic Functions in Infinite Series and Infinite Products with Application to Multiple Valued Functions,''
Am. Math. M., Vol. 72, No. 8. (Oct., 1965), pp. 861-864, Jstor.
Boas, R. P., ''Expansions of Analytic Functions,''
Trans. of the Am. Math. Soc., Vol. 48, No. 3. (Nov., 1940), pp. 467-487, Jstor.
Eidswick, Jack A., ''Alternatives to Taylor's Theorem in Proving Analyticity (in Classroom Notes),'' Am. Math. M., Vol. 82, No. 9. (Nov., 1975), pp. 929-931., Jstor.
C. Hunter, B. Guerrieri, ''Deducing the Properties of Singularities of Functions From Their Taylor Series Coefficients,''
SIAM Journal on Applied Mathematics, Vol. 39, No. 2. (Oct., 1980), pp. 248-263, Jstor.

50. Math 1113 SYLLABUS
1961. kodaira, kunihiko, Ed. , Fowler, George, Trans. Algebra and Geometry Japanesegrade 11. Providence, RI American Mathematical Society, 1996. Niven, Ivan.
http://ppatten.ngc.peachnet.edu/math1113/topsyl.html

51. Collected Works In Mathematics And Statistics
QA 564 K55 1991, Killam. kodaira, kunihiko, 19151997, Collectedworks, 3, QA 3 K77 1975, Killam. Kolchin, Ellis, 1916-, Selectedworks
http://www.mathstat.dal.ca/~dilcher/collwks.html
Collected Works in Mathematics and Statistics
This is a list of Mathematics and Statistics collected works that can be found at Dalhousie University and at other Halifax universities. The vast majority of these works are located in the Killam Library on the Dalhousie campus. A guide to other locations is given at the end of this list. If a title is owned by both Dalhousie and another university, only the Dalhousie site is listed. For all locations, and for full bibliographic details, see the NOVANET library catalogue This list was compiled, and the collection is being enlarged, with the invaluable help of the Bibliography of Collected Works maintained by the Cornell University Mathematics Library. The thumbnail sketches of mathematicians were taken from the MacTutor History of Mathematics Archive at the University of St. Andrews. For correction, comments, or questions, write to Karl Dilcher ( dilcher@mscs.dal.ca You can scroll through this list, or jump to the beginning of the letter:
A B C D ... X-Y-Z
A
[On to B] [Back to Top]
N.H. Abel

52. Untitled
Translate this page of Advanced Studies USA 1954 kodaira, kunihiko Princeton University USA 1954 Serre,Jean-Pierre College de France France 1958 Roth, Klaus University of London
http://www.linux.ime.usp.br/~masaki/mat2.html
"Medalha Fields" Esclarecimentos
Carta It is proposed to found two gold medals to be awarded at successive International Mathematical Congress for outstanding achievements in mathematics. Because of the multiplicity of the branches of mathematics and taking into account the fact that the interval between such congresses is four years it is felt that at least two medals should be available. The awards would be open to the whole world and would be made by an International Committee. The fund for the founding of the medals is constituted by balance left over after financing the Toronto congress held in 1924. This must be held in trust by the Government or by some body authorized by government to hold and invest such funds. It would seem that a dignified method for handling the matter and one which in this changing world should most nearly secure permanency would be for the Canadian Government to take over the fund and appoint as his custodian say the Prime Minister of the Dominion or the Prime Minister in association with the Minister of Finance. The medals would be struck at the Mint in Ottawa and the duty of the custodian would be simply to hand over the medals at the proper time to the accredited International Committee. As things are at present a practical course of procedure would seem to be for the Executive Committee of a Congress to appoint a small international committee authorized to add to its number and call into consultation other mathematicians as it might deem expedient. The Committee would be expected to decide on the ones to whom the awards should be made thirty months in advance of the following Congress. Its decisions would be communicated to the President and Secretary of the Organizing Committee of the Congress, this Committee having the duty of communicating to the Prime Minister of Canada the names of the recipients in order that the medal might be prepared in time and forwarded to the president of the Organizing Committee. Immediately on the appointment of the Executive Committee of the Congress the medals would be handed over to its President. The presentation of the medals would constitute a special feature at some general meeting of the Congress.

53. Electronic Resources - Mathematics Teacher Cumulative Index 1986-2000
Dec. 1999, 768­75. kodaira, kunihiko, Japanese Mathematics, Grades 7,8 9, Oct 1993, 614. Koedinger, Kenneth R., and Mitchell J. Nathan.
http://my.nctm.org/eresources/mt/index/authors/k-authors.asp
Advanced Search
Mathematics Teacher
Cumulative Author Index for 1986-2000 A B C D ... J K L M N O ... Z
K
Kalman, Richard, Soundoff: Future Classrooms: A Personal Vision, Oct 1994, 486-487 Kalmanson, Kenneth, An Introduction to Discrete Mathematics and Its Applications, Nov, 1986, 670 Kamischke, Eric, Function Graphing, Apr, 1987, 317 Kanigel, Robert, The Man Who Knew Infinity: A Life of the Genius Ramanujan, Feb 1992, 148 Kaplan, Jerome D., Basic Algebra, Nov, 1986, 668 Kareck, Thomas J., Mathematics, a Moving Experience, Sep 1991, 452-453 Karian, Zaven A., Symbolic Computation in Undergraduate Mathematics Education, Apr 1993, 350 Karush, William, Webster's New World Dictionary of Mathematics, Jan 1990, 74 Kasten, Peggy, Wright Connectiona Unique Partnership, Sep 1998, 540 Kastner, Bernice, Space Mathematics, Nov, 1987, 691 Kaufmann, Jerome E., Algebra for College Students, 4th ed, Nov 1992, 689 . Algebra with Trigonometry for College Students, 2d ed, Nov, 1989, 656 . Algebra with Trigonometry for College Students, 3d ed, Nov 1992, 689

54. March 16 - Today In Science History
(Reines shared the Nobel Prize with physicist Martin Lewis Perl, who discoveredthe tau lepton.). kunihiko kodaira. (source), Born 16 Mar 1915; died 26 July 1997.
http://www.todayinsci.com/3/3_16.htm
MARCH 16 - BIRTHS R. Walter Cunningham
(source)
Born 16 Mar 1932
Ronnie Walter Cunningham is an American astronaut and civilian participant in the Apollo 7 mission , in which the first manned flight of Apollo Command and Service modules was made. On 11 Oct 1968, he occupied the lunar module pilot seat for the eleven-day flight of Apollo 7. With Walter M. Schirra, Jr., and Donn F. Eisele, he participated in maneuvers enabling the crew to perform exercises in transposition and docking and lunar orbit rendezvous with the S-IVB stage of their Saturn IB launch vehicle; in test ignitions of the service module propulsion engine; in measuring the accuracy of performance of all spacecraft systems; and provided the first effective television transmission of onboard crew activities. Vladimir Mikhaylovich Komarov
(source)
Born 16 Mar 1927; died 24 April 1967.
Soviet cosmonaut, the first man known to have died during a space mission. He flew on two space missions. He was Command Pilot of Voskhod I , on a day-long mission , 12-13 Oct 1964. Also on board were Dr. Yegorov, a medical doctor as flight physiologist; and the spacecraft engineer Feoktistov. For this landing, the spacecraft's parachutes opened at an altitude of 7 km followed by a soft-landing system that used streams of gases from nozzles to reduce touchdown velocity to near zero. Komarov died during the landing after his second space

55. July 26 - Today In Science History
axles 17 Jul 1739, which suggested the bearings alloy. JULY 26 DEATHS.kunihiko kodaira. (source), Died 26 July 1997 (born 16 Mar 1915
http://www.todayinsci.com/7/7_26.htm
JULY 26 - BIRTHS John R. Whinnery
(source)
Born 26 July 1916
John Roy Whinnery is an American electrical engineer known for his work on microwave theory and laser experimentation. He worked on the problem of He-Ne laser modulation, the transmission of laser light for optical communication and photo thermal effects. Later he changed his research field to quantum electronics and opto-electronics? He co-authored the classic textbook, Fields and Waves in Communication Electronics, before he had a doctoral degree while working 6 days a week in microwaves at General Electric during World War II. His current research interest is communications applications of lasers, with emphasis on short-pulse phenomena. Reuben Leon Kahn
(source)
Born 26 July 1887; died 1979.
Major Reuben L. Kahn was an American immunologist best known for his investigations of blood reactions, while a member of the U.S. Army Medical Service Corps , which led him to develop a procedure that became an efficient test for syphilis (1918). This is now the standard serological test. Paul Walden
(source)
Born 26 July 1863; died 24 Jan 1957

56. Untitled
(pp. 243275). New York Macmillan. kodaira, kunihiko. (Ed.). (1992).Japanese grade 7 mathematics (Hiromi. Nagata, trans.). Chicago
http://www.math.uic.edu/~jbaldwin/pub/kessel1.html
Concept and computation: The role of curriculum
John Baldwin and Cathy Kessel
for MER Newsletter
In Knowing and Teaching Elementary Mathematics, Liping Ma considers Chinese and U.S. teachers' understanding of topics in elementary mathematics. All of the Chinese and almost all of the American teachers had experience teaching in only grades 1-6. In this article we will use some of the tools developed by Ma to discuss what might constitute such an understanding of a slightly more advanced topic: integers. This includes integer arithmetic and integers on the number line.
In talking about how to teach a particular topic, Ma and the Chinese teachers she interviewed discussed its connections with other topics. Such connections occurred both prior and later in the curriculum, and were made directly between topics and indirectly via general principles. The Chinese teachers discussed them as parts of "knowledge packages" for a given topic-conceptual and procedural topics that support and are supported by the learning of the topic. One teacher described it as a way of thinking in which one sees topics group-by-group rather than piece-by-piece:
. . . you should see a knowledge "package" when you are teaching a piece of knowledge. And you should know the role of the present knowledge in that package. You have to know that the knowledge you are teaching is supported y which ideas or procedures, so your teaching is going to rely on, reinforce, and elaborate the learning of these ideas. (Ma, 1999, p. 18)

57. July's Japanese News
Miyata, Cleanup club 76 kg - kunihiko Obata, Yamanashi Gakuin University 85 kg -Tatsuo Kawai, Itakura High School (Gunma) 97 kg - Kiyotaka kodaira, Tokyo MPD
http://www.japan-wrestling.com/English/2001/01.htm
To Our Friends in Wrestling Around the world
By William May

iJapan Amateur Wrestling Federation, Public Information Committee
Kyodo World Services, senior sports writerF wmay52@hotmail.com j JWF ANNOUNCES DELEGATION FOR WORLD C'SHIPS
The Japan Wrestling Federation has announced most of its delegation for the wrestling world championships in New York this fall. The entire delegation for the September 26-29 championships will be comprised of 44 wrestlers, coaches, staff and officials.
The team includes Sydney silver medalist Katsuhiko Nagata (GR 69) and fellow Olympians Makoto Sasamoto (GR 58) and Tatsuo Kawai (FS 85). Kazuyuki Miyata , who wrestled at 63 kg in freestyle at the Sydney Games, has moved up a weight and is entered at 69 kg, replacing Takahiro Wada who now serves as one of the national team coaches.
The greco-roman team also features 2001 Asia champion Taichi Suga , who won the 76 kg crown in Ulan Bator in June. Kunihiko Obata (76 kg), a bronze medalist in freestyle at the Asian championships, leads the freestyle team.
@Among the coaches selected for the Japanese team are two from the ranks of professional wrestling Yuji Nagata , currently with New Japan Pro Wrestling, and former fan favorite Heigo "Animal" Hamaguchi

58. Since Its Founding In 1876 As The First Graduate School In The
A close tie between the department and the Japanese mathematical community was initiatedby kunihiko kodaira, who spent four years at Johns Hopkins, 195051
http://mathnt.mat.jhu.edu/jami/background.htm
Since its founding in 1876 as the first graduate school in the United States, the Johns Hopkins University has had an international character and attracted young scholars and students from Japan. We are proud to mention Inazo Nitobe among them, who studied at Johns Hopkins for three years and whose friendship with Woodrow Wilson during that time is well known. The goal of JAMI is to foster friendly relationships between Japan and the United States; its academic purpose is to formalize and extend the long-existing relationship between the department and the Japanese mathematical community, and to use that relationship more generally to further mathematical interactions between the two countries.

59. Fields-Medaillengewinner
1962, Lars HÖRMANDER. 1990, Vaughan FR JONES. 1954, kunihiko kodaira. 1998,Maxim KONTSEVICH. 1994, PierreLouis LIONS. 1978, Gregori Alexandrovitch MARGULIS.
http://www.zahlenjagd.at/fields.html
Fields-Medaillengewinner
At the 1924 International Congress of Mathematicians in Toronto, a resolution was adopted that at each ICM, two gold medals should be awarded to recognize outstanding mathematical achievement. Professor J. C. Fields, a Canadian mathematician who was secretary of the 1924 Congress, later donated funds establishing the medals which were named in his honor. Consistent with Fields's wish that the awards recognize both existing work and the promise of future achievement, it was agreed to restrict the medals to mathematicians not over forty at the year of the Congress. In 1966 it was agreed that, in light of the great expansion of mathematical research, up to four medals could be awarded at each Congress. Lars Valerian AHLFORS Michael Francis ATIYAH Alan BAKER Enrico BOMBIERI ... William P. THURSTON Andrew J. WILES (special tribute) Edward WITTEN Shing-Tung YAU Jean-Christophe YOCCOZ Efim ZELMANOV

60. Medalo Fields - Vikipedio
SELBERG; 1954 kunihiko kodaira, JeanPierre SERRE; 1958 Klaus ROTH,Rene THOM; 1962 (Stokholmo, Svedio) Lars HORMANDER, John MILNOR;
http://eo.wikipedia.org/wiki/Medalo_Fields
Vikipedio Ĉefpaĝo Enkonduko Helpo ... Ensalutu La Libera Enciklopedio
Presebla versio
Medalo Fields
El Vikipedio, la libera enciklopedio. La Medalo Fields estas matematika premio aljuĝita al ĝis kvar matematikistoj (sub 40-jaraĝa) ĉe ĉiu Internacia Kongreso de Matematikistoj ekde kaj regule ekde pro la iniciato de de la Kanada matematikisto John Charles FIELDS . La celo estas agnoski kaj subteni junajn matematikajn esploristojn kiuj jam faris gravajn kontribuojn. La Medalo Fields estas al matematiko kiel la nobelpremio (ĉar ne ekzistas nobelpremio por la matematika fako). Vidu ankaŭ la Premion Nevanlinna Premiitoj:

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