21. AldeaEducativa.com | Contenidos Y Consultas Educativas Translate this page En reconocimiento a su fructifera, diversa y destacada producción en el dominiodel arte dramático. Premio nobel de 1914. laue, max von. Alemania, Física. http://www.aldeaeducativa.com/aldea/Nobel1d.asp?Which=Alemania

22. AldeaEducativa.com | Contenidos Y Consultas Educativas Translate this page Especiales Entidades Nacionales Presidentes Parques Nacionales EfeméridesVenezolanos Ilustres. Premios nobel de 1914. laue, max von. http://www.aldeaeducativa.com/aldea/Nobel1e.asp?Which=1914

23. Auswahl Naturwissenschaftler max von laue. - Antoine - Laurent Lavoisier, - Antony vanLeeuwenhoek. - Gottfried Wilhelm Leibniz, - Justus von Liebig. Alfred nobel, http://www.niester.de/p_natwis/

Gehen Sie bitte schon jetzt zu / Please go to Meine Homepage / My Homepage Die neuen Seiten laufen schon jetzt / The new sites are still working Naturwissenschaftler Scientists -> Archimedes -> Aristoteles -> Martin Beheim -> Antoine Cesar Bequerel ... 4000 Years of Women in Science Erstellt am:

24. Science Center Virtuale - Sz Translate this page del premio nobel per la scoperta di svariati oncosoppressori ed oncogeni. Vesalio,Andrea Vesalio Medico fiammingo (1515-1564), von laue, max von laue max von http://www.torinoscienza.it/personaggi/sz

il progetto promotori redazione architettura ... recensioni personaggi parole cronologie dossier sperimentare ... attiva chi siamo approfondimenti divertirsi esplora La vita e le opere di alcuni tra i personaggi storici che hanno influenzato lo sviluppo della scienza e della tecnologia. Sala Francesco Sala Esperto di biotecnologie vegetali Sanger Fred Sanger Biologo inglese vincitore di due premi Nobel, per la caratterizzazione della struttura dell'insulina e per la scoperta di un metodo per l'analisi delle sequenze aminoacidiche. Schiaparelli Giovanni Schiaparelli (1835-1910) Uno dei pi¹ prolifici astronomi italiani del XIX secolo, famoso per le sue osservazioni della superficie di Marte Schr¶dinger Erwin Schr¶dinger Fisico teorico austriaco, tra i fondatori della meccanica quantistica Schwarzschild Karl Schwarzschild L’astronomo tedesco che su un fronte di guerra riusc¬ a risolvere le equazioni di Einstein. Teller Edward Teller Edward Teller (1908-), fisico teorico e protagonista dello sviluppo degli armamenti nucleari. Ticone Ticone Tycho Brahe (1546-1601), autore delle pi¹ precise osservazioni astronomiche dell'era pre-telescopica.

25. Science Center Virtuale - Fl Translate this page laue, max von laue max von laue (1879-1960), lo scopritore della diffrazione dei RitaLevi Montalcini, scienziata piemontese vincitrice del premio nobel per la http://www.torinoscienza.it/personaggi/fl

il progetto promotori redazione architettura ... recensioni personaggi parole cronologie dossier sperimentare ... attiva chi siamo approfondimenti divertirsi esplora La vita e le opere di alcuni tra i personaggi storici che hanno influenzato lo sviluppo della scienza e della tecnologia. Faggin Federico Faggin Federico Faggin (1941-) ¨ il padre dei moderni microprocessori. Fermat Pierre de Fermat (1601-1665) matematico francese del Seicento Fermi Enrico Fermi il pi¹ grande fisico teorico-sperimentale del Novecento Ferraris Galileo Ferraris (1847-1897) elettrotecnico, studi² i motori a correnti alternate e fond² a Torino la prima scuola italiana per ingegneri elettrotecnici Franklin Rosalind Franklin Rosalind Franklin (1920-1958) Freud Sigmund Freud Il padre della psicoanalisi (1856-1939) Friedmann Aleksandr Aleksandrovich Friedmann L'uomo che scopr¬ l'espansione dell'Universo Gamow George Gamow Genio e umorismo dalla cosmologia alle proteine Germain Sophie Germain Matematica francese (1776-1831), diede importanti contributi alla teoria dei numeri e alla teoria dell’elasticit . Gilbert Walter Gilbert Fisico statunitense, vincitore del premio Nobel per i suoi studi dei messaggeri e del codice genetico.

26. Sci-Philately - A History Of Science On Stamps max von laue (18791960) (Detail) postulated that diffraction of X-rays in a crystalmight of X-rays, and sufficient to win him the 1914 nobel physics prize http://ublib.buffalo.edu/libraries/units/sel/exhibits/stamps/modphys2.html

MODERN PHYSICS PART II The Austrian physicist Ludwig Boltzmann (1844-1906)( Detail ) developed and advanced the theories of thermodynamics, the kinetic theory of gases, and electromagnetism at a time when new discoveries about the structure of matter were being made. Boltzmann supposed that the behavior of gases depended on the movement of their atoms or molecules. From a consideration of the second law of thermodynamics he arrived at a mathematical formulation of the fact that equilibrium is the most probable state for a gas to achieve. As expressed by his famous equation, entropy is proportional to the log of probability: the Boltzmann constant, k, is named after him. The Nicaraguan stamp ( Detail ) features an internal combustion engine as an application of kinetic theory. Boltzmann is also commemorated on the Austrian stamp bearing his likeness.. Ernest Rutherford (1871-1937)( Detail Danish physicist Niels Bohr (1885-1962) ( Detail ) won the Nobel prize in physics for his model of the hydrogen atom, in which the electron occupied discrete energy levels, or orbits, around the nucleus, and radiated or absorbed energy only when moving between energy levels, whereas classical theory predicted that an orbiting electron (a moving charge) should radiate energy continuously. This model of circular orbits was able to account for the major series of the hydrogen spectrum, but it was left to Sommerfeld to explain its fine structure by adding elliptic orbits to the model, resulting in the Bohr- Sommerfeld atom. Bohr is commemorated with circular electron orbits on the Swedish stamp but with an elliptic orbit on the Danish stamp, which also indicates the quantized nature of the energy transition between orbits. The stamp showing Bohr and his wife on a garden bench enjoys some minor fame because the bench only has three legs.

27. Nobel Prizes In Physics nobel Prizes in Physics. 186401-13 - 1928-08-30) Heat radiation 1912 G. Dalén (Sweden)1913 H. Kamerlingh Onnes (Netherlands) 1914 max von laue (Germany, 1879 http://userpage.chemie.fu-berlin.de/diverse/bib/nobel_physik_e.html

Nobel Prizes in Physics Deutsche Version dieser Seite (Information not checked) (Germany, 1845-03-27 - 1923-02-10) Discovery of X rays Hendrik A. Lorentz (Netherlands, 1853-07-18 - 1929-02-04) Pieter Zeeman (Netherlands, 1865-05-25 - 1943-10-09) Henri A. Becquerel (France, 1852-12-15 - 1908-08-25) Marie Curie (France, Poland, 1867-11-07 - 1934-07-04) Pierre Curie (France, 1859-05-15 - 1906-04-19) Discovery of radioactivity Lord Rayleigh (United Kingdom) Philipp E. Lenard (Germany, 1862-06-07 - 1947-05-20) Joseph J. Thomson (United Kingdom, 1856-12-18 - 1940-04-30) Conduction of electricity in gases Albert A. Michelson (USA, 1852-12-19 - 1931-05-09) Measurement of the speed of light G. Lippmann (France) Karl Ferdinand Braun (Germany, 1850-06-06 - 1918-04-20) Guglielmo Marconi (Italy, 1874-04-25 - 1937-07-20) wireless telegraphy Johann D. van der Waals (Netherlands, 1837-11-23 - 1923-03-07) Molecular forces Wilhelm Wien (Germany, 1864-01-13 - 1928-08-30) Heat radiation (Sweden) H. Kamerlingh Onnes (Netherlands) Max von Laue (Germany, 1879-10-09 - 1960-04-24)

28. Ficha 2 Translate this page Completar el trabajo con los nuevos premios nobel que se otorguen. ALEMANIA. LITERATURA. Wien,Wilhelm (1911). laue, max von (1914). Planck, max Karl EL (1918). http://www.euro.mineco.es/guiadidactica/guia4/FCHAU2.htm

Ficha 2 (a) Listado de PREMIOS NOBEL europeos* Completar el trabajo con los nuevos premios Nobel que se otorguen. ALEMANIA LITERATURA Mommsen, Theodor (1902) Eucken, Rudolf C. (1908) Heyse, Paul (1910) Hauptmann, Gerhart (1912) Mann, Thomas (1929) Sachs, Nelly (1966) Böll, Heinrich (1972) QUIMICA Fischer Emil H. (1902) Baeyer, Adolf von (1905) Buchner, Eduard (1907) Ostwald, Wilhelm (1909) Wallach, Otto (1910) Willstätter, Richard (1915) Haber, Fritz (1918) Nernst, Walther H. (1920) Zsigmondy, Richard (1925) Wieland, Heinrich O. (1927) Windaus, Adolf (1928) Fischer, Hans (1930) Bosch, Carl (1931) Bergius, Friedrich K.R. (1931) Kuhn, Richard (1938) Butenandt, Adolf (1939) Hahn, Otto (1944) Diels, Otto Paul H. (1950) Alder, Kurt (1950) Staudinger, Hermann (1953) Ziegler, Karl (1963) Eigen, Manfred (1967) Fischer Ernst O. (1973) Wittig, Georg (1979) Deisenhofer, Johann (1988) Huber, Robert (1988) Michel, Hartmut (1988) FÍSICA Röntgen, Wilhelm C. (1901) Lenard, Philipp (1905) Braun, Karl F. (1909) Wien, Wilhelm (1911) Laue, Max von (1914) Planck, Max Karl E.L. (1918)

29. Cambridge Science- Molecular Biology Inspired by the work of von laue, William Bragg and his max Perutz and John Kendrewdrew on the technology were joint winners of the Chemistry nobel prize for http://www.science.demon.co.uk/trail/mol.html

Chronology:Molecular Biology Big ideas of Science development in Cambridge In 1912, Max Von Laue discovered that x-rays could be diffracted by objects by the same order of size as atoms. Inspired by the work of von Laue, William Bragg and his son Lawrence , then a research student at Cambridge, established the principles of x-ray crystallography and determined the structure of simple crystals. J.D.Bernal used their methods to work on the struture of enzymes and in 1926 he produced the Bernal charts, which later proved to be a vital tool in inferring the structure of crytlas from x-ray diffraction patterns. In 1936, Max Perutz joined Bernal's group, the XRD team, where Dorothy Crowfoot Hodgkin was working with Bernal on the structure of insulin. Max Perutz and John Kendrew drew on the technology being developed nearby on the New Museums Site, used the digital electronic computer EDSAC to help with their crystallographic calculations. They were able to unravel the structure of myoglobin and haemoglobin molecules and in 1962 were joint winners of the Chemistry Nobel prize for this achievement. The same year James Watson Francis Crick and Maurice Wilkins were awarded the Nobel Prize for Medicine for their work on the strucure of DNA. In 1962 the Laboratory of Molecular Biology (LMB) was established at the present Addenbrooke's site under the direction of

30. Cambridge Science 1900 Other nobel Laureates to emerge from the Physiology laboratory include FrederickGowland In 1912, max von laue discovered that xrays could be diffracted by http://www.science.demon.co.uk/trail/1900.html

Chronology:1900 Big ideas of Science development in Cambridge physical science medical science molecular biology computing cosmology earth science The anatomy department was very active in the early twentieth century under the guidance of Professor J.N.Langley who investigated, recorded, and published leading work on the autonomous nervous systems, for which he won a Nobel prize in 1927. Other Nobel Laureates to emerge from the Physiology laboratory include Frederick Gowland Hopkins (1929), discoverer of vitamins and founder of Biochemistry, and E.D.Adrian Alan Hodgkin and Andrew Huxley (1964), who elucidated mechanisms of nerve function In 1935 Alan Turing wrote about a theoretical calculating machine. He worked on breaking the engima code during the second world war. In 1937 the university set up a computing centre and the Electronic Delay Storage Automatic Calculator (EDSAC), which first worked as a complete system under the direction of Maurice Wilkes , who directed the construction at Cambridge of the first fully operational stored-programme electronic digital calculator. In 1912

31. The Nobel Prize For Physics (1901-1998) is to watch the nobel Foundation web site at http//www.nobel.se. Heike KamerlinghOnnes Matter at low temperature 1914 1912 max von laue Crystal diffraction http://math.ucr.edu/home/baez/physics/Administrivia/nobel.html

[Physics FAQ] Updated October 1998 by Nathan Urban. Updated 1997,96 by PEG. Updated 1994 by SIC. Original by Scott I. Chase. The Nobel Prize for Physics (1901-1998) The following is a complete listing of Nobel Prize awards, from the first award in 1901. Prizes were not awarded in every year. The date in brackets is the approximate date of the work. The description following the names is an abbreviation of the official citation. The Physics prize is announced near the beginning of October each year. One of the quickest ways to get the announcement is to watch the Nobel Foundation web site at http://www.nobel.se

32. The Nobel Prize For Physics (1901-1996) The following is a complete listing of nobel Prize awards, from the 1913 Heike KamerlinghOnnes Matter at low temperature 1914 max von laue Crystal diffraction http://physics.hallym.ac.kr/education/faq/nobel.html

33. The Nobel Prize For Physics (1901-1996) The following is a complete listing of nobel Prize awards, from the firstaward in 1901. 1914, max von laue, Crystal diffraction of Xrays. http://physics.hallym.ac.kr/education/faq/nobel_html.html

34. Fq - Prémios Nobel Da Física 1915 Sir William Henry Bragg, William Lawrence Bragg; 1914 max von laue; http://atelier.uarte.mct.pt/fq/quem/nobelfis.htm

Temas disponíveis Ácido-base Astronomia Átomo Dinâmica Electricidade Energia Estado gasoso Laboratório Orgânica Precipitação Reacções Soluções Substâncias Quem? Tabelas Outros links Índice Menu principal quem? Páginas neste tema Bibliografia Biografias Prémios Nobel da Física Prémios Nobel da Química Prémios Nobel da Física Galardoados com o Prémio Nobel da Física, atribuído pela Fundação Nobel , para distinguir trabalhos de grande importância na investigação Física: 2002 Raymond Davis Jr., Masatoshi Koshiba, Riccardo Giacconi 2001 Eric A. Cornell, Wolfgang Ketterle, Carl E. Wieman 2000 Zhores I. Alferov, Herbert Kroemer, Jack S. Kilby 1999 Gerardus 't Hooft, Martinus J.G. Veltman 1998 Robert B. Laughlin, Horst L. Störmer, Daniel C. Tsui 1997 Steven Chu, Claude Cohen-Tannoudji, William D. Phillips 1996 David M. Lee, Douglas D. Osheroff, Robert C. Richardson 1995 Martin L. Perl, Frederick Reines 1994 Bertram N. Brockhouse, Clifford G. Shull

35. Www.npac.syr.edu/textbook/kidsweb/physics/nobel.txt I. Chase The following is a complete listing of nobel Prize awards 1913 Heike KamerlinghOnnes Matter at low temperature 1914 max von laue Crystal diffraction http://www.npac.syr.edu/textbook/kidsweb/physics/nobel.txt

The Nobel Prize for Physics (1901-1993) updated 15-OCT-1993 by SIC - original by Scott I. Chase The following is a complete listing of Nobel Prize awards, from the first award in 1901. Prizes were not awarded in every year. The description following the names is an abbreviation of the official citation. 1901 Wilhelm Konrad Rontgen X-rays 1902 Hendrik Antoon Lorentz Magnetism in radiation phenomena Pieter Zeeman 1903 Antoine Henri Bequerel Spontaneous radioactivity Pierre Curie Marie Sklowdowska-Curie 1904 Lord Rayleigh Density of gases and (a.k.a. John William Strutt) discovery of argon 1905 Pilipp Eduard Anton von Lenard Cathode rays 1906 Joseph John Thomson Conduction of electricity by gases 1907 Albert Abraham Michelson Precision meteorological investigations 1908 Gabriel Lippman Reproducing colors photographically based on the phenomenon of interference 1909 Guglielmo Marconi Wireless telegraphy Carl Ferdinand Braun 1910 Johannes Diderik van der Waals Equation of state of fluids 1911 Wilhelm Wien Laws of radiation of heat 1912 Nils Gustaf Dalen Automatic gas flow regulators 1913 Heike Kamerlingh Onnes Matter at low temperature 1914 Max von Laue Crystal diffraction of X-rays 1915 William Henry Bragg X-ray analysis of crystal structure William Lawrence Bragg 1917 Charles Glover Barkla Characteristic X-ray spectra of elements 1918 Max Planck Energy quanta 1919 Johannes Stark Splitting of spectral lines in E fields 1920 Charles-Edouard Guillaume Anomalies in nickel steel alloys 1921 Albert Einstein Photoelectric Effect 1922 Niels Bohr Structure of atoms 1923 Robert Andrew Millikan Elementary charge of electricity 1924 Karl Manne Georg Siegbahn X-ray spectroscopy 1925 James Franck Impact of an electron upon an atom Gustav Hertz 1926 Jean Baptiste Perrin Sedimentation equilibrium 1927 Arthur Holly Compton Compton effect Charles Thomson Rees Wilson Invention of the Cloud chamber 1928 Owen Willans Richardson Thermionic phenomena, Richardson's Law 1929 Prince Louis-Victor de Broglie Wave nature of electrons 1930 Sir Chandrasekhara Venkata Raman Scattering of light, Raman effect 1932 Werner Heisenberg Quantum Mechanics 1933 Erwin Schrodinger Atomic theory Paul Adrien Maurice Dirac 1935 James Chadwick The neutron 1936 Victor Franz Hess Cosmic rays Carl D. Anderson The positron 1937 Clinton Joseph Davisson Crystal diffraction of electrons George Paget Thomson 1938 Enrico Fermi New radioactive elements 1939 Ernest Orlando Lawrence Invention of the Cyclotron 1943 Otto Stern Proton magnetic moment 1944 Isador Isaac Rabi Magnetic resonance in atomic nuclei 1945 Wolfgang Pauli The Exclusion principle 1946 Percy Williams Bridgman Production of extremely high pressures 1947 Sir Edward Victor Appleton Physics of the upper atmosphere 1948 Patrick Maynard Stuart Blackett Cosmic ray showers in cloud chambers 1949 Hideki Yukawa Prediction of Mesons 1950 Cecil Frank Powell Photographic emulsion for meson studies 1951 Sir John Douglas Cockroft Artificial acceleration of atomic Ernest Thomas Sinton Walton particles and transmutation of nuclei 1952 Felix Bloch Nuclear magnetic precision methods Edward Mills Purcell 1953 Frits Zernike Phase-contrast microscope 1954 Max Born Fundamental research in QM Walther Bothe Coincidence counters 1955 Willis Eugene Lamb Hydrogen fine structure Polykarp Kusch Electron magnetic moment 1956 William Shockley Transistors John Bardeen Walter Houser Brattain 1957 Chen Ning Yang Parity violation Tsung Dao Lee 1958 Pavel Aleksejevic Cerenkov Interpretation of the Cerenkov effect Il'ja Mickajlovic Frank Igor' Evgen'evic Tamm 1959 Emilio Gino Segre The Antiproton Owen Chamberlain 1960 Donald Arthur Glaser The Bubble Chamber 1961 Robert Hofstadter Electron scattering on nucleons Rudolf Ludwig Mossbauer Resonant absorption of photons 1962 Lev Davidovic Landau Theory of liquid helium 1963 Eugene P. Wigner Fundamental symmetry principles Maria Goeppert Mayer Nuclear shell structure J. Hans D. Jensen 1964 Charles H. Townes Maser-Laser principle Nikolai G. Basov Alexander M. Prochorov 1965 Sin-Itiro Tomonaga Quantum electrodynamics Julian Schwinger Richard P. Feynman 1966 Alfred Kastler Study of Hertzian resonance in atoms 1967 Hans Albrecht Bethe Energy production in stars 1968 Luis W. Alvarez Discovery of many particle resonances 1969 Murray Gell-Mann Quark model for particle classification 1970 Hannes Alfven Magneto-hydrodynamics in plasma physics Louis Neel Antiferromagnetism and ferromagnetism 1971 Dennis Gabor Principles of holography 1972 John Bardeen Theory of superconductivity Leon N. Cooper J. Robert Schrieffer 1973 Leo Esaki Tunneling in superconductors Ivar Giaever Brian D. Josephson Super-current through tunnel barriers 1974 Antony Hewish Discovery of pulsars Sir Martin Ryle Pioneering radioastronomy work 1975 Aage Bohr Structure of the atomic nucleus Ben Mottelson James Rainwater 1976 Burton Richter Discovery of the J/Psi particle Samual Chao Chung Ting 1977 Philip Warren Anderson Electronic structure of magnetic and Nevill Francis Mott disordered solids John Hasbrouck Van Vleck 1978 Pyotr Kapitsa Liquifaction of helium Arno A. Penzias Cosmic Microwave Background Radiation Robert W. Wilson 1979 Sheldon Glashow Electroweak Theory, especially Steven Weinberg weak neutral currents Abdus Salam 1980 James Cronin Discovery of CP violation in the Val Fitch asymmetric decay of neutral K-mesons 1981 Kai M. Seigbahn High resolution electron spectroscopy Nicolaas Bleombergen Laser spectroscopy Arthur L. Schawlow 1982 Kenneth G. Wilson Critical phenomena in phase transitions 1983 Subrahmanyan Chandrasekhar Evolution of stars William A. Fowler 1984 Carlo Rubbia Discovery of W,Z Simon van der Meer Stochastic cooling for colliders 1985 Klaus von Klitzing Discovery of quantum Hall effect 1986 Gerd Binning Scanning Tunneling Microscopy Heinrich Rohrer Ernst August Friedrich Ruska Electron microscopy 1987 Georg Bednorz High-temperature superconductivity Alex K. Muller 1988 Leon Max Lederman Discovery of the muon neutrino leading Melvin Schwartz to classification of particles in Jack Steinberger families 1989 Hans Georg Dehmelt Penning Trap for charged particles Wolfgang Paul Paul Trap for charged particles Norman F. Ramsey Control of atomic transitions by the separated oscillatory fields method 1990 Jerome Isaac Friedman Deep inelastic scattering experiments Henry Way Kendall leading to the discovery of quarks Richard Edward Taylor 1991 Pierre-Gilles de Gennes Order-disorder transitions in liquid crystals and polymers 1992 Georges Charpak Multiwire Proportional Chamber 1993 Russell A. Hulse Discovery of the first binary pulsar Joseph H. Taylor and subsequent tests of GR

36. ClubCaminantes - Premios Nobel - Fisica, El Club De Los Caminantes Translate this page PREMIOS nobel, FISICA. 1901-1925 1926-1950 1951-1975 1976-2000. 1901. Universidadde Leiden. Leiden, Holanda. 1914. laue, max von (Alemania). http://caminantes.metropoliglobal.com/web/nobel/fisica.htm

Inicio Foros Chat Top 10 ... PREMIOS NOBEL FISICA Roentgen, Wilhelm C. (Alemania) En reconocimiento a los extraordinarios servicios que el ha ofrecido con el notable descubrimiento de las radiaciones de Roentgen (X) Universidad de Munich Lorentz, Hendrik A. Por su investigación conjunta de la influencia del magnetismo sobre el fenómeno de radioactividad. Universidad de Leiden. Holanda Zeeman, Pieter Por su investigación conjunta de la influencia del magnetismo sobre el fenómeno de radioactividad. Universidad de Amsterdam. Holanda Becquerel, Antoine H. (Francia) En reconocimiento a su extraordinario aporte por el descubrimiento de la radioactividad. Escuela Politécnica de París Curie, Marie

37. Premio Nobel De Física - Wikipedia Translate this page William Henry Bragg, William Lawrence Bragg 1914 max von laue 1913 Heike Joseph JohnThomson 1905 Philipp Eduard Anton von Lenard 1904 See also Premio nobel, http://es.wikipedia.org/wiki/Premio_Nobel/Física

38. Nobel Prizes In Physics [UWA Physics] The following is a complete listing of nobel Prize awards in Physics 1913 Heike KamerlinghOnnes Matter at low temperature 1914 max von laue Crystal diffraction http://www.physics.uwa.edu.au/Misc/nobel.html

Nobel Prizes in Physics The following is a complete listing of Nobel Prize awards in Physics, from the first award in 1901. Prizes were not awarded in every year. The description following the names is an abbreviation of the official citation:

39. The Nobel Prize For Physics (1901-1997) is to watch the nobel Foundation web site at http//www.nobel.se Heike KamerlinghOnnes Matter at low temperature 1914 1912 max von laue Crystal diffraction http://www.weburbia.demon.co.uk/physics/nobel.html

[Physics FAQ] updated 15-OCT-1997 by PEG updated 9-OCT-1996 by PEG updated 12-OCT-1994 by SIC original by Scott I. Chase The Nobel Prize for Physics (1901-1997) The following is a complete listing of Nobel Prize awards, from the first award in 1901. Prizes were not awarded in every year. The date in brackets is the approximate date of the work. The description following the names is an abbreviation of the official citation. The Physics prize is announced near the beginning of October each year. One of the quickest ways to get the announcement is to watch the Nobel Foundation web site at http://www.nobel.se/

40. Univ. Of Kansas Crystallography Laboratory Nobel Laureates nobel Laureates in Crystallography. 1901, Physics, Wilhelm Conrad Röntgen. discoveringXrays. 1914, Physics, max von laue. diffraction of X-rays by crystals. http://www.msg.ku.edu/~xraylab/notes/nobel.html

Crystallography Home Page Manuals Facilities ... Publications Nobel Laureates in Crystallography Physics discovering X-rays Physics Max von Laue diffraction of X-rays by crystals Physics Sir William Henry Bragg William Lawrence Bragg crystal structure determinations Physics Charles Glover Barkla characteristic radiation of the elements Physics Karl Manne Georg Siegbahn X-ray spectroscopy Physics Arthur Holly Compton inelastic scattering Physics Prince Louis-Victor P. R. de Broglie wave nature of electrons Chemistry Peter Josephus Wilhelmus Debye investigations on dipole moments and diffraction of X-rays and electrons in gases Physics Clinton Joseph Davisson George Paget Thomson diffraction of electrons by crystals Chemistry James Batcheller Sumner crystallization of enzymes Chemistry Linus Carl Pauling nature of the chemical bond Chemistry Max Ferdinand Perutz John Cowdery Kendrew structures of globular proteins Medicine Francis Harry Compton Crick James Dewey Watson Maurice Hugh Frederick Wilkins molecular structure of nucleic acids and its significance for information transfer in living material Chemistry Dorothy Crowfoot Hodgkin structures of important biochemical substances Chemistry William N. Lipscomb

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