61. The Hindu : Nobel Laureates In Physics: Down Memory Lane nobel Laureates in physics Down memory lane. 1915 sir william henry bragg and sirwilliam LAWRENCE bragg for their analysis of crystal structure by means of X http://www.hinduonnet.com/thehindu/2001/10/11/stories/08110005.htm

Online edition of India's National Newspaper Thursday, October 11, 2001 Front Page National Southern States Other States ... Next Nobel Laureates in physics: Down memory lane 2001 WOLFGANG KETTERLE, ERIC CORNELL AND CARL WEIMANN for their achievement of Bose-Einstein condensation in dilute gases of alkali atoms and for early fundamental studies of the properties of the condensates. 2000-1991 2000 ZHORES I. ALFEROV, and HERBERT KROEMER for developing semiconductor heterostructures used in high-speed- and opto- electronics and JACK ST. CLAIR KILBY for his part in invention of the integrated circuit. 1999 GERARDUS 'T HOOFT, and MARTINUS J.G. VELTMAN for elucidating the quantum structure of electroweak interactions in physics. 1998 ROBERT B. LAUGHLIN, HORST L. STORMER and DANIEL C. TSUI for their discovery of a new form of quantum fluid with fractionally charged excitations. 1997 STEVEN CHU, CLAUDE COHEN-TANNOUDJI and WILLIAM D. PHILLIPS for development of methods to cool and trap atoms with laser light. 1996 DAVID M. LEE, DOUGLAS D. OSHEROFF and ROBERT C. RICHARDSON for their discovery of superfluidity in helium-3.

62. Sir William Lawrence Bragg Winner Of The 1915 Nobel Prize In Physics Manchester Featured Internet Links Prize corecipient sir william HenryBragg Google, Search WWW Search The nobel Prize Internet Archive. http://almaz.com/nobel/physics/1915b.html

S IR W ILLIAM L AWRENCE B RAGG 1915 Nobel Laureate in Physics for their services in the analysis of crystal structure by means of X-rays. Background Place of Birth: Adelaide, Australia Residence: Great Britain Affiliation: Victoria University, Manchester Featured Internet Links Prize co-recipient: Sir William Henry Bragg Search WWW Search The Nobel Prize Internet Archive Links added by Nobel Internet Archive visitors Memorial to Bragg at Trinity College, Cambridge (submitted by David Conway William Bragg – Biography (submitted by Chinnappan Baskar William Lawrence Bragg – Biography (son of William Henry Bragg and shared the Nobel Prize with his father) (submitted by Chinnappan Baskar William Henry Bragg – Biography (father of William Lawrence Bragg and shared the Nobel Prize with his son) (submitted by Chinnappan Baskar Nobel population 1901-50: anatomy of a scientific elite (submitted by Chinnappan Baskar Chemical Achievers: William Henry Bragg and William Lawrence Bragg (submitted by Chinnappan Baskar Back to The Nobel Prize Internet Archive Literature Peace ... Medicine We always welcome your feedback and comments

63. Australian Nobel Laureates - William Bragg And Son sir william bragg died on 10 March 1942, aged 79. william bragg's daughter, williamHenry bragg, 18621942 Bright Sparcs Australian nobel Laureates ASAPWeb http://www.asap.unimelb.edu.au/bsparcs/exhib/nobel/braggw.htm

'All of us know something of that feeling of humility in the presence of greatness thing when we venture to ask a question of Nature herself. When we begin to venture to assemble the instruments, quite simple they may be, with which we hope to enquire into that which is yet unknown, we feel a certain shame at our temerity and perhaps would begin our work alone. 'It is the task of the researcher to describe what he observes so faithfully that his hearers also see the vision. He must serve them for their eyes, if they themselves are not trained to use them.' William Henry Bragg , the eldest of three boys, was born on 2 July 1862 in Cumberland, England. His father was a naval captain. In 1869 William Bragg's mother died; she was only thirty-six years old, and he was just seven. From this time on, he lived with his Uncle William, a chemist who ran a pharmacy, and was a major influence on the young William Bragg. William Bragg entered Cambridge University in 1881, following his obsession with mathematics. He tended to be reclusive, and called himself 'unadventuresome, shy and ignorant'. Despite his shyness, William Bragg loved his life at Cambridge University. After finishing his mathemetics studies, he turned his attention to physics and worked at the Cavendish Laboratory during part of 1885. At the end of this year, he applied for and was appointed to the position of Professor of Mathematics and Physics at the University of Adelaide, South Australia. Surprisingly, this application and appointment took place all within the space of just over one week! Three weeks later, William Bragg left for Australia.

64. Bragg, Sir William Lawrence bragg, sir william Lawrence, 1890–1971, English physicist, b. Adelaide at TrinityCollege, Cambridge; son of WH bragg. with his father the 1915 nobel Prize in http://www.infoplease.com/cgi-bin/id/A0808693

The # 1 wireless color security cam! Ultimate home movie ! Genuine Indian and Asian astrology reports and consultations by reputed Vedic Astrologers. Step-by-step guide to finding money for a growing business All Infoplease All Almanacs General Entertainment Sports Biographies Dictionary Encyclopedia Infoplease Home Almanacs Atlas Dictionary ... Fact Monster Kids' reference Info:Daily Fun facts Homework Center Newsletter You've got info! Help Site Map Visit related sites from: Family Education Network Encyclopedia Bragg, Sir William Lawrence Bragg, Sir William Lawrence, , English physicist, b. Adelaide, Australia, educated in Australia and at Trinity College, Cambridge; son of W. H. Bragg. He was professor of physics at Victoria Univ., Manchester, from 1919 to 1937. From 1938 to 1953 he was professor of experimental physics at Cambridge and director of the Cavendish Laboratory. In 1954 he was made head of the Royal Institution. He shared with his father the 1915 Nobel Prize in Physics for their studies, with the X-ray spectrometer, of X-ray spectra, X-ray diffraction, and of crystal structure. In 1941 he was knighted. Among his works are The Structure of Silicates (1930, 2d enl. ed. 1932) and

65. AIM25: Royal Institution Of Great Britain: Bragg, Sir William Lawrence (1890-197 and content/abstract Papers of sir william Lawrence bragg personal correspondenceof Lawrence bragg 19441966 letters to and from william henry bragg of 1913 http://www.aim25.ac.uk/cgi-bin/search2?coll_id=3061&inst_id=17

66. Les Grands Chimistes :: Département De Chimie :: Université Laval Translate this page Britannique Wigton, Cumberland 1862 - Londres 1942 bragg (sir william Lawrence)Physicien william henry bragg et son fils william Lawrence bragg. http://www.chm.ulaval.ca/grandschim/b.html

A B C D E F ... W BAEYER (Adolf von) BECQUEREL (Henri) BERTHELOT BERTHOLLET (Claude, comte) BERZELIUS BOHR (Niels) BOLTZMANN (Ludwig) BOSCH (Carl) BOYLE (Robert) BRAGG (sir William Henry) BRAGG (sir William Lawrence) (Johannes Nicolaus) BUNSEN (Robert Wilhelm) BAEYER (Adolf von) Chimiste allemand Berlin 1835 - Starnberg 1917 Prix Nobel de chimie en 1905 BECQUEREL (Henri) Paris 1852 - Le Croisic 1908 Prix Nobel de physique en 1903 Paris 1827 - Paris 1907 BERTHOLLET (Claude, comte) Talloires 1748 - Arcueil 1822 Institua la notation chimique par symboles. BOHR (Niels) Physicien danois Copenhague 1885 - Copenhague 1962 Prix Nobel de physique en 1922 BOLTZMANN (Ludwig) Physicien autrichien BOSCH (Carl) Chimiste et industriel allemand Cologne 1874 - Heidelberg 1940 Prix Nobel de chimie en 1931 BOYLE (Robert) Physicien et chimiste irlandais Lismore Castle 1627 - Londres 1691 Reconnu pour ses recherches sur les gaz. BRAGG (sir William Henry) Physicien Britannique Wigton, Cumberland 1862 - Londres 1942 BRAGG (sir William Lawrence) Physicien Britannique Varde, Jylland 1879 - Copenhague 1947

67. Biography Of WH Bragg william henry bragg was born at Westward, Cumberland, on Lawrence bragg shared theNobel Prize with of astonishing productiveness, sir william bragg died on http://physics.uplb.edu.ph/laureates/1915/wh-bragg-bio.html

68. Sir William Henry Bragg & Sir William Lawrence Bragg sir william henry bragg (18621942) and sir william Lawrence bragg (1890-1971), fatherand son, were intensely interested in the X-ray diffraction http://www.cartage.org.lb/en/themes/Arts/scistamp/modphys2/06.html

Themes Arts Sci-Philately Modern Physics Part II Used with permission of Maiken Naylor, University at Buffalo, Buffalo, NY, USA, http://ublib.buffalo.edu/libraries/units/sel/exhibits/stamps Sir William Henry Bragg (1862-1942) and Sir William Lawrence Bragg (1890-1971), father and son, were intensely interested in the X-ray diffraction work done by von Laue. They used his discovery to study crystal structure and developed the X-ray spectrometer. Their Nobel prize in physics followed von Laue's by a year, in 1915. The Royal Institute of Chemistry stamp shows the crystal structure of salt, as determined by WLB, and used by WHB to determine X-ray wavelengths.

69. Nobel Prize In Physics Since 1901 bragg, sir william Lawrence.1917. http://www.planet101.com/nobel_physics_hist.htm

Nobel Prize in Physics since 1901 Year Winners Roentgen, Wilhelm Conrad Lorentz, Hendrik Antoon Zeeman, Pieter Becquerel, Antoine Henri; Curie, Marie; Curie, Pierre Rayleigh, Lord John William Strutt Lenard, Philipp Eduard Anton Thomson, Sir Joseph John Michelson, Albert Abraham Lippmann, Gabriel Braun, Carl Ferdinand Marconi, Guglielmo Van Der Waals, Johannes Diderik Wien, Wilhelm Dalen, Nils Gustaf Kamerlingh-Onnes, Heike Laue, Max Von Bragg, Sir William Henry; Bragg, Sir William Lawrence Barkla, Charles Glover Planck, Max Karl Ernst Ludwig Stark, Johannes Guillaume, Charles Edouard Einstein, Albert Bohr, Niels Millikan, Robert Andrews Siegbahn, Karl Manne Georg Franck, James; Hertz, Gustav Perrin, Jean Baptiste Compton, Arthur Holly; Wilson, Charles Thomson Rees Richardson, Sir Owen Willans De Broglie, Prince Louis-Victor Raman, Sir Chandrasekhara Venkata Heisenberg, Werner Dirac, Paul Adrien Maurice; Schroedinger, Erwin Chadwick, Sir James

70. So Biografias: Nobel Fisica 1 Translate this page Lista dos Ganhadores dos Prêmio nobel de Física 1915 Dois ganhadores sir williamHENRY bragg / sir william LAWRENCE bragg Desenvolvimento de estudos sobre a http://www.sobiografias.hpg.ig.com.br/RolNobF1.html

Lista dos Ganhadores dos Descoberta do Raios X. Dois ganhadores: HENDRIK ANTOON LORENTZ PIETER ZEEMAN efeito Zeeman ANTOINE HENRI BECQUEREL PIERRE CURIE LORD JOHN WILLIAM STRUTT RAYLEIGH ... GABRIEL JONAS LIPPMANN Desenvolvimento da fotografia a cores (em espectrografia). Dois ganhadores: GUGLIELMO MARCONI KARL FERDINAND BRAUN JOHANNES DIDERIK VAN DER WAALS WILHELM WIEN ... MAX THEODOR FELIX VON LAUE Dois ganhadores: SIR WILLIAM HENRY BRAGG SIR WILLIAM LAWRENCE BRAGG Desenvolvimento de estudos sobre a estrutura dos cristais por meio dos raios X CHARLES GLOVER BARKLA MAX KARL ERNST LUDWIG PLANCK JOHANNES STARK efeito de Doppler dos raios canais. CHARLES EDOUARD GUILLAUME ALBERT EINSTEIN NIELS HENRIK DAVID BOHR ROBERT ANDREWS MILLIKAN ... KARL MANNE GEORG SIEGBAHN Pesquisas e descobertas na espectrocopia dos raios X. Dois ganhadores: JAMES FRANCK GUSTAV LUDWIG HERTZ Fonte principal: Museu Nobel

71. William Henry Bragg Translate this page william henry bragg, sir 1908), assumiu o cargo de professor de física em Leeds einiciou, junto com o filho, william Lawrence bragg, suas pesquisas http://www.sobiografias.hpg.ig.com.br/WilliHeB.html

William Henry Bragg Sir William Lawrence Bragg , no estrudos sobre a estrutura dos cristais e a Gwendoline Todd William Lawrence Rutherford William Lawrence Bragg Philosophical Magazine e os Proceedings da Royal Society . Escreveu ainda T he Universe of Light Figura copiada do site LES GRANDS CHIMISTES: http://www.chm.ulaval.ca/grandschim/ Nova B U S C A :

72. Molecular Expressions Microscopy Primer: Light And Color - Diffraction Of Light william henry bragg (18621942) - sir william henry bragg was a noted this achievement,william henry bragg and william Lawrence bragg were awarded http://micro.magnet.fsu.edu/primer/lightandcolor/diffractionhome.html

Microscopy Primer Light and Color Microscope Basics Special Techniques ... Home The Galleries: Photo Gallery Silicon Zoo Pharmaceuticals Chip Shots ... Movie Gallery Diffraction of Light In his 1704 treatise on the theory of optical phenomena ( Opticks Introduction to Diffraction Sir George Biddell Airy (1801-1892) - Sir George Airy was a distinguished nineteenth century English Astronomer Royal who carried out optical research and first drew attention to the visual defect of astigmatism. Airy manufactured the first correcting eyeglasses (1825) using a cylindrical lens design that is still in use. The diffraction disks that bear his name (Airy Disks) were discovered in the spherical center of a wavefront traveling through a circular aperture. These diffraction patterns form the smallest unit that comprises an image, thus determining the limits of optical resolution. Jacques Babinet (1794-1872) - Jacques Babinet was a French physicist, mathematician, and astronomer born in Lusignan, who is most famous for his contributions to optics. Among Babinet's accomplishments are the 1827 standardization of the Ångström unit for measuring light using the red cadmium line's wavelength, and the principle (bearing his name) that similar diffraction patterns are produced by two complementary screens. William Henry Bragg (1862-1942) - Sir William Henry Bragg was a noted British physicist and President of the Royal Society who had numerous research interests, but the work that earned him a rank as one the great leaders in science was his historic advancements in X-ray crystallography. Working with his son William Lawrence Bragg, he developed a method of bombarding single crystals with high-energy X-rays emitted by specially constructed vacuum tubes. By examining the pattern of X-rays diffracted by various crystals, Bragg and his son were able to establish some fundamental mathematical relationships between an atomic crystal structure and its diffraction pattern. For this achievement, William Henry Bragg and William Lawrence Bragg were awarded the Nobel Prize in Physics in 1915.

73. Biografieseite Der Abteilung Vorlesung Translate this page bragg, sir william henry. bragg, sir william Lawrence. Braun, Karl Ferdinand. Coulomb,Charles Augustin de. Crookes, william. Curie, Marie. N. Newton, sir Isaac. http://www.ph.tum.de/~kressier/Bios/biografie.html

Biografien bedeutender Forscher A B C D ... Z A Abbe, Carl Ernst Albertus Magnus Ampére, André Marié Arago, Dominique Francois Jean ... Archimedes B Barkhausen, Heinrich Georg Barlow, Peter Becquerel, Antoine Henri Beer, August ... Brown, Robert C Carnot, Sadi Léonard Nicolas Cavendish, Henry Celsius, Anders Cornelius Chladni, Ernst Florens Friedrich ... Curie, Pierre D Debye, Peter Joseph Wilhelm Doppler, Christian E Einstein, Albert F Fabry, Charles Faraday, Michael Fizeau, Armand-Hippolyte-Louis Foucault, Jean Bernard Léon ... Fresnel, Augustin Jean G Galilei, Galileo Galton, Sir Francis Galvani, Luigi Gauß, Carl Friedrich ... Gerlach, Walther H Haas, Wander Johannes de Hagen, Gotthilf Heinrich Ludwig Hall, Edwin Herbert Helmholtz, Hermann von ... Huygens, Christiaan J Joule, James Prescott K Kamerlingh Onnes, Heike Kelvin, Lord of Larges Kepler, Johannes Kerr, John ... Kundt, August Adolph Eduard Eberhard L Lambert, Johann Heinrich

74. Géniesenherbe.org - Prix Nobel De Physique Translate this page Le prix nobel de physique est attribué par l'Académie royale des 1915, sir williamHenry bragg (Grande-Bretagne) et sir william Lawrence bragg (Grande-Bretagne http://www.geniesenherbe.org/theorie/prix/nobphys.html

Lauréats du prix Nobel de physique Le prix Nobel de physique est attribué par l'Académie royale des sciences de Suède, à Stockholm. Année Récipiendaire Wilhelm Conrad Röntgen (Allemagne) Hendrik Antoon Lorentz (Pays-Bas) et Pieter Zeeman (Pays-Bas) Antoine Henri Becquerel (France), Pierre Curie (France) et Marie Curie (France) John William Strutt, 3 e baron Rayleigh (Grande-Bretagne) Philipp Eduard Anton Lenard (Allemagne) sir Joseph John Thomson (Grande-Bretagne) Albert Abraham Michelson (États-Unis) Gabriel Lippmann (France) Guglielmo Marconi (Italie) et Karl Ferdinand Braun (Allemagne) Johannes Diderik van der Waals (Pays-Bas) Wilhelm Wien (Allemagne) Nils Gustaf Dalén (Suède) Heike Kamerlingh Onnes (Pays-Bas) Max von Laue (Allemagne) sir William Henry Bragg (Grande-Bretagne) et sir William Lawrence Bragg (Grande-Bretagne) NON ATTRIBUÉ Charles Glover Barkla (Grande-Bretagne) Max Karl Ernst Ludwig Planck (Allemagne) Johannes Stark (Allemagne) Charles Édouard Guillaume (Suisse) Albert Einstein (Allemagne et Suisse) Niels Bohr (Danemark) Robert Andrews Millikan (États-Unis) Karl Manne Georg Siegbahn (Suède) James Franck (Allemagne) et Gustav Hertz (Allemagne) Jean Baptiste Perrin (France) Arthur Holly Compton (États-Unis) et Charles Thomson Rees Wilson (Grande-Bretagne) sir Owen Williams Richardson (Grande-Bretagne) prince Louis Victor de Broglie (France) sir Chandrasekhara Venkata Raman (Inde) NON ATTRIBUÉ Werner Heisenberg (Allemagne) Erwin Schrodinger (Autriche) et Paul Adrien Maurice Dirac (Grande Bretagne) NON ATTRIBUÉ sir James Chadwick (Grande-Bretagne)

75. Www.npac.syr.edu/textbook/kidsweb/physics/nobel.txt bragg Xray analysis of crystal structure william Lawrence bragg 1917 Charles deBroglie Wave nature of electrons 1930 sir Chandrasekhara Venkata 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

76. HOT ROCK by studying the histories of the dual shared nobel prize winners, sirs sir williamHenry bragg sir william Lawrence bragg Madame Curie Madame Marie Curie, née http://www.geocities.com/madelinefelkins/kitty2a.htm

Hotsheets: Human Radiation Experiments HOT ROCK The California State Capital Building emits 60 millirem radiation per year as it is built of granite and is Dr. Keith Richman's comparative analysis with the Rocketdyne/Boeing contaminated sites and reasoning to vote against Senate Bill 1444 authored by Senator Sheila James Kuehl. Dr. Richman is also the Assemblymember (R-Northridge) who represents the contaminated areas of Simi and West San Fernando Valley. The California Department of Health Services and the Department of Energy document their findings that cleanup of the Rocketdyne/Boeing Santa Susana Field Laboratory and its Energy Technology Engineering Center emissions of 15 millirem radiation is safe for human health. Assemblymember Richman wants scientifically based information and legislation and thus has denied residents of SB 1444/Senator Kuehl's legislative protections. I know Legislators put in long, hard, difficult hours but then they GO HOME when they are finished. They do not live in a 60 millirem radiation emitting building every day of the week or raise their children onsite. The laws of math provide the fact that 15 millirems multiplied by 365 equals 5,475 millirems exposure a year. This figure does not include the fact of the cumulative effects of additional radiation exposure caused by previous illegal dumping of radioactive materials from SSFL and ETEC and other sites at Bradley, Sunshine Canyon, and Calabasas landfills despite the fact that Sacramento Judge Gail Ohanesian prohibited the California Department of Health Services and Boeing from dumping at those sites TWICE within this past year. The 5,475 yearly millirem radiation exposure especially does not include

77. Premi Nobel Per La Chimica bragg WH e WL; De Broglie Prince Louis-Victor Priestley Joseph; Ramsaywilliam; Richards Theodore william; Robinson sir Robert; Röntgen http://www.itchiavari.org/chimica/tabelle/biografie.html

Biografie di Chimici Alder Kurt Anfinsen Christian B Arrhenius Svante August Aston Francis William ... Home Page Istituto tecnico statale commerciale e per geometri di Chiavari (Genova - Italia)

78. Yesterday's Innovations - Early Innovations In Science And Medicine born sir william Laurence bragg was, and remains, the youngest ever winner of aNobel Prize. With his Englishborn father sir william henry bragg, he shared http://apc-online.com/twa/history5.shtml

Public Notice: Due to an unresolved dispute with the Australian Trade Commission (Austrade) , who copied and adopted as their own certain material from Tomorrow's World, the Australian Initiative , and published the material in their Australia Open for Business website, access to this online edition of the book is now restricted and not permitted to Australian Government servers. 14 February 2000 Print Edition: ISBN 0646252119 - Paperback - 224 pages - 350 illustrations - $55.00 incl. GST Early Innovations in Science and Medicine A fter the outbreak of war in 1914, supplies of aspirin from the Bayer company in Germany were cut off and the government of the day offered a patent to anyone who could find a substitute of equal or greater purity. Pharmacist George Nicholas and experimenter Henry Woolf Shmith set about the challenge, and on 12 June 1915 came up with Aspro, which not only equalled but actually surpassed aspirin in purity. Accidentally discovered by Scottish scientist Sir Alexander Fleming in 1928, penicillin was not put to regular clinical use until the antibiotic was developed into a practical drug by a team of scientists at England's Oxford University, led by Adelaide-born Lord Howard Florey together with German-born biochemist Sir Ernst Chain in 1940. In Britain, the new drug was initially reserved mainly for military use. First commercial quantities for civilian use were produced by Commonwealth Serum Laboratories (now CSL Limited) in 1943 in Australia.

79. Term Paper Later, Dorothy would find herself following in the footsteps of sir william Henrybragg and his son sir william Lawrence bragg as a nobel prize winner for http://inst.augie.edu/~cahansen/termpaper.html

Dorothy Crowfoot Hodgkin British crystallographer Dorothy Crowfoot Hodgkin was known for her advancements in the field of x-ray crystallography and biomolecular structure. Hodgkin accomplished structure determinations on many compounds of medical importance, including penicillin, insulin, and vitamin B12, through the use of x-ray diffraction analysis. She also introduced computers into the processing of diffraction patterns(Dickneider). Hodgkin was finally rewarded for her efforts as the sole Nobel Laureate in 1964(Hunter). Her love for chemistry all began as a child growing up in England. Dorothy Mary Crowfoot was born in Cairo, Egypt on May 12, 1910(Dickneider). She was born to English parents. Her father, John Winter Crowfoot was an inspector for the Ministry of Education. He was a distinguished classical scholar and archaeologist. Her mother, Grace Mary Hood Crowfoot, was an excellent botanist. She was also an expert on ancient textiles(Hunter). Dorothy was one of four daughters. Her early years were spent in Norfolk, England where she attended the Sir John Leman School in Beccles, Suffolk(Dickneider). At age ten, she was introduced to elementary chemistry. It was here that she grew her first crystals and began learning crystallography. From the beginning she was intrigued by “the elegance and beauty of their geometric shapes, with plane faces meeting at characteristic angles, and the orderly symmetry of their structures”(Hunter). During the spring after her thesis, while in London to photograph insulin at the Royal Institution, she met Thomas L. Hodgkin. Hodgkin, a historian, was educated at Winchester and Oxford. He came from a remarkable family that includes Dr. Thomas Hodgkin, who first described the neoplastic condition known today as Hodgkin’s disease. Thomas and Dorothy were married in December of 1937. They had three children: Luke, born in 1938, Elizabeth, born in 1941, and Toby born in 1946(Hunter).

80. Learning Disabilities OnLine: Abilities - Thomas West - Dyslexic Talents & Nobel References and Readings. Caroe, GM, 1978. william henry bragg 18921942 Man andScientist. With a Foreword by sir Lawrence bragg. New York Atheneum. http://www.ldonline.org/ld_indepth/abilities/thomas_west_nobel.html

by Thomas G. West KRASNOW INSTITUTE Author of In the Mind's Eye (opens in a new window) Editor's Note : An alternative version of this article was published in different form in the February 2001 issue of ACM-SIGGRAPH Computer Graphics. Recognition in the Old Tradition " 'I didn't expect ' a Nobel Prize 'at all,' he said, 'in part because of the nature of the work. There was less science [and more engineering] in it than the things customarily honored by the prizes." This is the observation of Jack S. Kilby (Texas Instruments) co-inventor of the integrated circuit, on being notified of his award in October 2000. The Nobel Prize for chemistry awarded at the same time to Alan J. Heeger (UC-Santa Barbara) and Hideki Shirakawa (University of Tsukuba) for their work on conductive polymers also reflected the recognition of broad effects rather than pure science. " 'We're very excited,' said Daryle H. Busch of the American Chemical Society, 'because this award is in the old tradition. That is, it was given for work that has a very substantial impact on society.' " (Suplee) The shift back to an earlier tradition by the Nobel prize committee may reflect a growing recognition in the larger world of the deep value of applied work of broad impact as opposed to the highly theoretical work of relatively low impact which has commanded such high prestige in recent decades.

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

Page 4     61-80 of 88    Back | 1  | 2  | 3  | 4  | 5  | Next 20