Extractions: For more information visit our home page Francis William Aston, Marcel Louis Brillouin, Ernest Rutherford Description L-R; Aston; Rutherford, E.; Sommerfeld, A.; Brillouin, M.; old age; profile; coat; suit; standing; talking; outdoors; Volta Congress, Como Item ID Aston F D3 Marcel Louis Brillouin Description old age, full face, eyeglasses, mustache, beard, suit Item ID Brillouin Marcel A1 Marcel Louis Brillouin Description old age, three-quarter view, suit, eyeglasses, beard Item ID Brillouin Marcel A2 Marcel Louis Brillouin Description old age, three-quarter view, eyeglasses, mustache, beard, suit, sitting, desk, papers Item ID Brillouin Marcel B1 Marcel Louis Brillouin, Marie Curie, Albert Einstein, Paul Langevin, Hendrik Antoon Lorentz, Jean Baptiste Perrin, Max Karl Ernst Ludwig Planck, Ernest Rutherford Description First Solvay Congress, 1911; Brussels; L-R seated at table: Nernst; Brillouin; Solvay; Lorentz; Warburg; Perrin; Wien; Curie; Poincare. L-R Standing: Goldschmidt; Planck; Rubens; Sommerfeld; Lindemann; De Broglie; Knudsen; Hasenohrl; Hostelet; Herzen; Jeans; Rutherford; Kamerlingh-Onnes; Einstein; Langevin Item ID Einstein E1
Brillouin [Pictures And Photos Of] Francis William Aston, marcel Louis brillouin, Ernest Rutherford marcel Louisbrillouin, Marie Curie, Albert Einstein, Paul Langevin, Hendrik Antoon http://www.aip.org/history/esva/catalog/esva/Brillouin__.html
Extractions: For more information visit our home page Francis William Aston, Marcel Louis Brillouin, Ernest Rutherford Description L-R; Aston; Rutherford, E.; Sommerfeld, A.; Brillouin, M.; old age; profile; coat; suit; standing; talking; outdoors; Volta Congress, Como Item ID Aston F D3 Leon Brillouin Description middle age ; three-quarter view ; suit Item ID Brillouin A1 Leon Brillouin Description old age; full-face; suit Item ID Brillouin A3 Leon Brillouin Description young ; three-quarter view ; suit Item ID Brillouin A5 Leon Brillouin Description middle age; full-face; suit Item ID Brillouin A6 Leon Brillouin Description three-quarter view; standing; talking; suit; blackboard Item ID Brillouin B6 Leon Brillouin Description old age ; standing ; outdoors ; automobile Item ID Brillouin B9c Leon Brillouin Description young ; with wife and child ; sitting ; outdoors Item ID Brillouin G4 Leon Brillouin Description old age, three-quarter view, suit Item ID Brillouin Leon A2 Leon Brillouin Description middle age, three-quarter view, Madison, Wisconsin, 1942
Extractions: This entry contributed by Michel Barran French-American physicist and son of Marcel Brillouin quantum mechanics and developed the BWK method of approximating solutions to the in 1926. He discovered the famous " Brillouin zones " of solid state physics, which are named in his honor. During his career, he authored more than 200 papers (his biography lists 212 of them) and about 15 books. Brillouin (Marcel) References Brillouin, L. Paris: P.U.F., 1923. Brillouin, L. Les statistiques quantiques et leurs applications. Paris: P.U.F., 1930. Brillouin, L. Paris: Masson, 1937. 2nd edition published in 1949. Brillouin, L. Wave Propagation in Periodic Structures. New York: McGraw-Hill, 1946. Brillouin, L. Science and Information Theory. New York: Academic Press, 1956. Brillouin, L. and Sommerfeld, A. Wave Propagation and Group Velocity. New York: Academic Press, 1960. Mosseri, R. "Léon Brillouin, A la croisée des ondes." Paris: Aot, 1999.
Marcel Brillouin - Anagrams Rearranging the letters of marcel brillouin (Mathematician) gives Find moreanagrams of marcel brillouin (or any other text)! http://www.anagramgenius.com/archive/marcel4.html
Www.sciencedaily.com/cgi-bin/apf4/amazon_products_ Editions Jacques Gabay marcel brillouin - Translate this page Reprints Encyclopedie des sciences Mathematiques, Abel, Borel, Fourier, Galois,Gauss, Hilbert, Lagrange, Laplace, Maxwell, Molk, Newton, Poincare, http://www.sciencedaily.com/cgi-bin/apf4/amazon_products_feed.cgi?Operation=Item
Inventor Marie Curie people with names we now encounter in the history of science marcel brillouin,Paul Painlevé, Gabriel Lippmann, and Paul Appell. http://www.ideafinder.com/history/inventors/curie.htm
Extractions: Marie Curie Fascinating facts about Marie Curie who pioneered the study of radioactivity in 1903. Marie Curie (1867 ~ 1934) d Marie Sklodowska, as she was called before marriage, was born in Warsaw in 1867. Both her parents were teachers who believed deeply in the importance of education. Marie had her first lessons in physics and chemistry from her father. She had a brilliant aptitude for study and a great thirst for knowledge; however, advanced study was not possible for women in Poland. Marie dreamed of being able to study at the Sorbonne in Paris, but this was beyond the means of her family. To solve the problem, Marie and her elder sister, Bronya, came to an arrangement: Marie should go to work as a governess and help her sister with the money she managed to save so that Bronya could study medicine at the Sorbonne. When Bronya had taken her degree she, in her turn, would contribute to the cost of Marie's studies. So it was not until she was 24 that Marie came to Paris to study mathematics and physics. Bronya was now married to a doctor of Polish origin, and it was at Bronya's urgent invitation to come and live with them that Marie took the step of leaving for Paris. By then she had been away from her studies for six years, nor had she had any training in understanding rapidly spoken French. But her keen interest in studying and her joy at being at the Sorbonne with all its opportunities helped her surmount all difficulties. To save herself a two-hours' journey, she rented a little attic in the Quartier Latin. There the cold was so intense that at night she had to pile on everything she had in the way of clothing so as to be able to sleep.
Marie And Pierre Curie brillouin, marcel (18541948), theoretical physicist Darboux, Gaston (1842-1917),mathematician Daudet, Léon (1867-1942), editor of L Action Française http://nobelprize.org/physics/articles/curie/
Extractions: HOME SITE HELP ABOUT SEARCH ... EDUCATIONAL At the end of the 19th century, a number of discoveries were made in physics which paved the way for the breakthrough of modern physics and led to the revolutionary technical development that is continually changing our daily lives. Around 1886, Heinrich Hertz demonstrated experimentally the existence of radio waves. It is said that Hertz only smiled incredulously when anyone predicted that his waves would one day be sent round the earth. Hertz died in 1894 at the early age of 37. In September 1895, Guglielmo Marconi sent the first radio signal over a distance of 1.5 km. In 1901 he spanned the Atlantic. Hertz did not live long enough to experience the far-reaching positive effects of his great discovery, nor of course did he have to see it abused in bad television programs. It is hard to predict the consequences of new discoveries in physics. On November 8, 1895, Henri Becquerel was exposing salts of uranium to sunlight to study whether the new radiation could have a connection with luminescence, he found out by chance - thanks to a few days of cloudy weather - that another new type of radiation was being spontaneously emanated without the salts of uranium having to be illuminated - a radiation that could pass through metal foil and darken a photographic plate. The two researchers who were to play a major role in the continued study of this new radiation were Marie and Pierre Curie.
INFOAMÉRICA - Léon Brillouin Translate this page Nació en Sèvres, Francia, en 1889, en el seno de una familia de científicos, enla que destaca la figura de su padre, marcel brillouin (1854-1948). http://www.infoamerica.org/teoria/brillouin1.htm
ONLIPIX - Great Names Pictures : BRI brillouin (marcel Louis). Photo 1 Group photo 1 (with Marie CURIE, Albert EINSTEIN,Paul LANGEVIN, Hendrik Antoon LORENTZ, Jean Baptiste PERRIN, http://www.onlipix.com/personages/bri.htm
Extractions: - with Alicia MARKOVA in 1955 : BRIANT (Alexander)(1553-1581) BRICE (Carol) BRICE (Rosetta) BRICHE (Caroline Lalive de la) BRIDEWELL (Carrie) BRIDGE (Frank)(1879-1941) BRIDGEMAN (Charles)(-1738) BRIDGER (James)(-1881) BRIDGES (Appleton S.)(1848-1929) BRIDGES (Harry) BRIDGES (Robert)(1844-1930) BRIDGEWATER (Francis EGERTON, 3rd duke of BRIDGEWATER (John William EGERTON
Portraits De Personnages Celebres : EIN Translate this page avec marcel Louis brillouin, Marie CURIE, Paul LANGEVIN, Hendrik Antoon LORENTZ,Jean Baptiste PERRIN, Max PLANCK, Ernest RUTHERFORD 1 http://www.onlipix.com/personnages/ein.htm
Essay About Marie And Pierre Curie was able to go to hear, people with names we now encounter in the history ofscience marcel brillouin, Paul Painlevé, Gabriel Lippmann and Paul Appell. http://hem.bredband.net/b153434/Works/Curie.htm
Extractions: Around 1886 Heinrich Hertz demonstrated experimentally the existence of radio waves. It is said that Hertz only smiled incredulously when anyone predicted that his waves would one day be sent round the earth. Hertz died in 1894 at the early age of 37. In September 1895 Guglielmo Marconi sent the first radio signal over a distance of 1.5 km. In 1901 he spanned the Atlantic. Hertz did not live long enough to experience the far-reaching positive effects of his great discovery, nor of course did he have to see it abused in bad television programs. It is hard to predict the consequences of new discoveries in physics. was exposing salts of uranium to sunlight to study whether the new radiation could have a connection with luminescence, he found out by chance - thanks to a few days of cloudy weather - that another new type of radiation was being spontaneously emanated without the salts of uranium having to be illuminated - a radiation that could pass through metal foil and darken a photographic plate. The two researchers who were to play a major role in the continued study of this new radiation were Marie and Pierre Curie.
Hermann Nernst William Henry Bragg, marcel Louis brillouin, Louis de Broglie, Marie Curie, AlbertEinstein, James Hopwood Jeans, Heike Kamerlingh Onnes, http://chem.ch.huji.ac.il/~eugeniik/history/nernst.htm
Extractions: Walther Hermann Nernst was German physicist and chemist mainly known for the Nernst Equation and the Third Law of Thermodynamics. He also developed methods for measuring dielectric constants and was the first to show that solvents of high dielectric constants promote the ionization of substances. Nernst proposed the theory of solubility product, generalized the distribution law, and offered a theory of heterogeneous reactions. Walther Hermann Nernst was born in Briesen, West Prussia (now Wabrzezno near Torun, Poland), on June 25, 1864. His father, Gustav Nernst, was a district judge. Walter spent his early school years ( Gymnasium ) at Graudentz (now Grudziadz, Poland) where his studies focused on classical literature, humanities, and natural science. As a young man in Prussia, Hermann expressed his ambition to become a poet. In 1883, he had graduated first in his class ( Abitur
False Confession, Wrongful Conviction & Eyewitness Error It is our mind which looks for simplicity to avoid effort (marcel Louis brillouin).Whenever a sensational crime occurs involving a celebrity, http://faculty.ncwc.edu/toconnor/psy/psylect06.htm
Extractions: "It is our mind which looks for simplicity to avoid effort" (Marcel Louis Brillouin) Whenever a sensational crime occurs involving a celebrity, public official, or well-known person in the public eye, hundreds of people usually come forward to confess to the crime. Not all of these confessions can be true, so most if not all of them must be false. The false confession phenomenon also occurs with unsolved crimes. For example, over two hundred people confessed to the Lindbergh baby (1932) kidnapping, and hundreds of people confessed to the (1947) Black Dahlia murder in Los Angeles. Some people continue to confess to this day about these crimes, and include people who were not even born at the time. So, why do these people confess to crimes they didn't commit? Saul Kassin , a psychologist, has probably studied the topic of false confessions more than anybody else, and it can be safely said he has the workings of a typology about the types of people who confess. Kassin's typology (Wrightsman & Kassin 1993; Kassin & Kiechel 1996; Kassin 1997; Kassin & Fong 1999) is technically about what are called "coerced" types, and there are two main subtypes of those. However, there are a number of other, so-called "compulsive" types, which make up all the weird reasons for confessing to something you didn't do. Here's a customized version of this typology: compulsive type-attention seeker confesses to gain a piece of the fame, impress others, or to get attention
Extractions: Openbook Linked Table of Contents Front Matter, pp. i-viii A RADICAL FACT RESISTED1 The Opposite of an Intriguer, pp. 1-11 2 Not German at All, pp. 12-25 3 I Never Fully Understood It, pp. 26-34 4 Independence and Inner Freedom, pp. 35-50 5 A Mercy of Fate, pp. 51-56 6 Picturesque Phrases, pp. 57-67 7 Scientific Dada, pp. 68-75 8 Such a Devil of a Fellow, pp. 76-85 9 Intuition and Inspiration, pp. 86-93 10 Bold, Not to Say Reckless, pp. 94-101 11 A Completely New Lesson, pp. 102-109 12 Slaves to Time and Space, pp. 110-115 13 Where All Weaker Imaginations Wither, pp. 116-126 14 A Triumph of Einstein Over Bohr, pp. 127-134 A RADICAL THEORY CREATED15 Something Deeply Hidden, pp. 135-145
Extractions: Openbook Linked Table of Contents Front Matter, pp. i-viii A RADICAL FACT RESISTED1 The Opposite of an Intriguer, pp. 1-11 2 Not German at All, pp. 12-25 3 I Never Fully Understood It, pp. 26-34 4 Independence and Inner Freedom, pp. 35-50 5 A Mercy of Fate, pp. 51-56 6 Picturesque Phrases, pp. 57-67 7 Scientific Dada, pp. 68-75 8 Such a Devil of a Fellow, pp. 76-85 9 Intuition and Inspiration, pp. 86-93 10 Bold, Not to Say Reckless, pp. 94-101 11 A Completely New Lesson, pp. 102-109 12 Slaves to Time and Space, pp. 110-115 13 Where All Weaker Imaginations Wither, pp. 116-126 14 A Triumph of Einstein Over Bohr, pp. 127-134 A RADICAL THEORY CREATED15 Something Deeply Hidden, pp. 135-145
Extractions: compiled by Stephen G. Brush September 1994 INTRODUCTION Air Force History Office American Association for the Advancement of Science American College of Obstetricians and Gynecologists American Institute of Physics Center for History of Physics and Niels Bohr Library ... Medical Center, Dahlgren Library Johns Hopkins University Alan Mason Chesney Medical Archives Milton S. Eisenhower Library Ferdinand Hamburger Jr. Archives Institute of the History of Medicine ... Space Science and Exploration Department National Museum of American History Archives Center Dibner Library National Museum of Natural History National Anthropological Archives University of Maryland Baltimore County University of Maryland at College Park University of Virginia ... Walters Art Gallery BIBLIOGRAPHY General Topical (see Bibliography at end for citations of guides) [a] = summary of collection is in Guide to Historical Resources in the Atmospheric Sciences [b] = collection is indexed in Archival Sources for the History of Biochemistry and Molecular Biology [c] = summary in Guide to Archives and Manuscript Collections in the History of Chemistry and Chemical Technology [co] = summary in Resources for the History of Computing [e] = summary in Sources in Electrical History [m] = summary of collection is in Census of Medieval and Renaissance Manuscripts in the United States and Canada [s] = summary in Directory of Sources for Air and Space History ab = autobiography CF = cubic feet [fa] = unpublished finding aid available at repository
Panel 02_01 Louismarcel brillouin (1854-1948) Information is a function of the relationbetween possible answers before and after reception. http://www.mihandbook.stanford.edu/panels/panel_02_01.htm
