Donald Glaser Cyber encyclopedia of Jewish history and culture that covers everythingfrom antiSemitism to Zionism. It includes a glossary, bibliography of web sites and http://www.jewishvirtuallibrary.org/jsource/biography/Glaser.html
Extractions: Donald Glaser Donald Glaser was born in 1926 in Cleveland, OH. Mapping the movements of high-speed atomic particles was imprecise until this physicist developed an innovative approach to nuclear tracking. My modifying the way in which conventional cloud chambers trace the paths of particles, he invented the bubble chamber which is today the basic tool for plotting subatomic motion. His work won a 1960 Nobel Prize for Physics. Source: Dor LeDor
Library: Nobel Laureates Dr. donald glaser with xenon bubble chamber, taken in Bevatron, April 7, 1960. Press conference for Nobel Prize to donald glaser with Glenn Seaborg at http://www-library.lbl.gov/teid/tmLib/nobellaureates/LibD_Glaser.htm
Extractions: Dr. Donald Glaser with xenon bubble chamber, taken in Bevatron, April 7, 1960. The Wilson-chamber has certainly played a tremendously important role, especially during the 30's, which is referred to as the golden age of nuclear physics, and there is no doubt that it was the Wilson-chamber which made possible the greatest nuclear physical discoveries during that decade. It was also an ideal research instrument for that time, because the nuclear particles which were then of interest, and which were possible to depict by artificial means twenty to thirty years ago, had ranges which, for the most part, are of the order of several decimeters in a gas at normal pressure. In other words particles had energies of some million volts and there was no difficulty in using the Wilson-chambers, which were sufficiently large, in order to be able to photograph paths of all incoming particles along its entire length as well as all of the possible nuclear reactions which would have enough room to occur within the Wilson-chamber.
Science Center Nobel Laureates glaser, donald A Physics. Macleod, John JR.- Medicine/Phisiology glaser, donald A. (1926-). Akin to the beautiful white streaks which are left against http://www.cwru.edu/menu/sciencecenter/nobel_laureates.htm
Extractions: middle Nobel Laureates CWRU Home Page Welcome to CWRU! Admissions Academics University Departments Computing Resources University Libraries Research Student Life Alumni Relations News of CWRU Newsstand CWRU Directory Master Plan University Library Career Planning and Placement Undergraduate Admissions School of Graduate Studies Office of University Communication Thu. Sep 15 2005 Those professors and/or graduates from Case Western Reserve University
Glaser, Donald Arthur glaser, donald Arthur Ve veku 34 let se stal glaser jedním z nejmladích vedcu ocenených Nobelovou cenou. Roku 1959 zacal pusobit na Kalifornské http://www.aldebaran.cz/famous/people/Glaser_Donald.html
Extractions: Od mládí se vìnoval hudbì, v estnácti letech se stal èlenem symfonického orchestru, studoval na konzervatoøi. Pozdìji u nìj zvítìzil zájem o matematiku a fyziku a zaèal studovat na Caseovì technologickém institutu v Clevelandu. Roku 1946 byl pøijat na Kalifornský technologický institut, kde roku 1949 získal doktorát z fyziky za práci o vysokoenergetickém kosmickém záøení. Pozdìji zaèal uèit na univerzitì v Michiganu, kde pùsobil jako profesor fyziky a do roku 1959. Zde vynalezl a zkonstruoval bublinkovou komoru, která se stala neocenitelnou pomùckou pøi studiu chování elementárních èástic, nebo umoòovala vizualizaci jejich drah. Ve vìku 34 let se stal Glaser jedním z nejmladích vìdcù ocenìných Nobelovou cenou. Roku 1959 zaèal pùsobit na Kalifornské univerzitì v Berkeley, kde se roku 1964 stal profesorem fyziky a molekulární biologie.
Extractions: Resources with Additional Information The 1960 Nobel Prize in Physics was awarded to Donald Glaser for his invention of the bubble chamber. "Glaser first conceived of the bubble chamber in 1952, at the age of 25, while a faculty member at the University of Michigan. According to scientific lore, Glaser was enjoying a cold beer when he observed the stream of bubbles in his brew. It was a moment of saloon science that inspired a tool second only in importance to the cyclotron for atomic physicists. The first bubble chamber, no bigger than its inventor's thumb, contained a clear, super-heated liquid in the path of charged atomic particles accelerated by an atom smasher. As the particles pushed through the liquid, they created a trail of tiny bubbles that could be photographed through the window of the chamber. Analyzing the bubbles provides physicists with insight about the particles and related forces. ... After consulting during the summers at the Lawrence Radiation Laboratory, Glaser joined the University of California faculty in 1959. Five years later, he became a professor of physics and molecular biology at the university. Now a Professor of the Graduate School, Glaser's research has shifted to the construction of computational models that shed light on the physics and physiology of human perception." - Edited excerpt from: 1960: Donald Glaser and His Bubble Chamber Resources with Additional Information
Visible Human 2.0 Visible Human 2.0 the next generation Peter Ratiu, Berend Hillen, Jack glaser, donald P. Jenkins. SPL home. Based upon the experience with the landmark http://splweb.bwh.harvard.edu:8000/pages/ppl/ratiu/vham/
Extractions: Peter Ratiu, Berend Hillen, Jack Glaser, Donald P. Jenkins SPL home References: 1. Spitzer, V., Ackerman, M.J., Scherzinger, L., Whitlock, D. The Visible Human Male: A Technical Report. JAMIA. 3:118-130. 1996. 2. van der Zwan, A., Hillen, B. Araldite F as injection material for quantitative morphology of cerebral vascularization. Anat Rec 228:230-236, 1990. 3. Leeuwen, MBM, Deddens, AJH, Gerrits PO, Hillen B. A Modified Mallory Casson Staining Procedure for Large Cryosections. Stain Technology, Vol 65, No1, pp 37-42. 1990. 4. Heidger PM Jr, Dee F, Consoer D, Leaven T, Duncan J, Kreiter C. Integrated approach to teaching and testing in histology with real and virtual imaging. Anat Rec Apr 15;269(2):107-12. 2002.
Extractions: U.S. physicist. He received his Ph.D. from the California Institute of Technology, then joined the faculty at the University of Michigan. There he developed the bubble chamber , an instrument that became widely used in the study of subatomic particles because it allows precise measurement of the particles' paths. He was awarded a 1960 Nobel Prize. var mm = [["Jan.","January"],["Feb.","February"],["Mar.","March"],["Apr.","April"],["May","May"],["June","June"],["July","July"],["Aug.","August"],["Sept.","September"],["Oct.","October"],["Nov.","November"],["Dec.","December"]]; To cite this page: MLA style: "Glaser, Donald." Britannica Concise Encyclopedia http://concise.britannica.com/ebc/article-9365663
Donald A. Glaser -- Facts, Info, And Encyclopedia Article donald A. glaser. Categories Nobel Prize in Physics winners, 1926 births donald Arthur glaser (b. September 21, 1926), is an (A native or inhabitant of http://www.absoluteastronomy.com/encyclopedia/d/do/donald_a._glaser.htm
Extractions: Donald Arthur Glaser (b. September 21, 1926), is an (A native or inhabitant of the United States) American (A scientist trained in physics) physicist and (A specialist in neurobiology) neurobiologist . He won the 1960 (Click link for more info and facts about Nobel Prize in Physics) Nobel Prize in Physics "for the invention of the (An instrument that records the tracks of ionizing particles) bubble chamber Born in (Click link for more info and facts about Cleveland, Ohio) Cleveland, Ohio , Glaser received his (Click link for more info and facts about B.Sc.) B.Sc. degree in physics and mathematics from the (Click link for more info and facts about Case Institute of Technology) Case Institute of Technology in 1946. He received his Ph.D. in physics from the (Click link for more info and facts about California Institute of Technology) California Institute of Technology in 1950. Glaser accepted a position as an instructor at the (A university in Ann Arbor, Michigan) University of Michigan and was promoted to professor in 1957. He joined the faculty of the
Extractions: Phys. Rev. Lett. Phys. Rev. A Phys. Rev. B Phys. Rev. C Phys. Rev. D Phys. Rev. E Phys. Rev. ST AB Phys. Rev. ST AB Rev. Mod. Phys. Phys. Rev. (Series I) Phys. Rev. Volume: Page/Article: Previous article Next article Issue 3 contents View Page Images PDF (560 kB), or Buy this Article John L. Brown, Donald A. Glaser, Donald I. Meyer, Martin L. Perl, and John Vander Velde
Donald Glaser donald glaser. Professor of the Graduate School. Email glaserda@berkeley.edu Phone (510) 642-7231 Full Directory Information, donald glaser http://mcb.berkeley.edu/faculty/NEU/glaserd.html
Extractions: Lab Homepage: http://foresight.berkeley.edu/ Full Directory Information Our goal is to construct computational models of the human visual system which explain its performance in terms of its physiology and anatomy. In vision experiments we present images on computer monitors to subjects who are asked to judge shape, depth, color, velocity, texture, motion, etc. In a recent study of stereopsis, subjects could judge the relative depth of two adjacent test dots in the center of the screen very accurately. Next the "scene" was enclosed in a "picture frame" 50 degrees wide. When the frame was "tilted" in stereo, a systematic bias was discovered in the test dot judgments, even though the subjects didn't know that the frame was being manipulated and couldn't report it correctly. Thus a powerful subliminal cue was at work, not contained in the classical theory of stereopsis. We are working on models to explain this and other mysterious "unclassical" results. Our recent models of the visual system depend on propagation of excitations in a two-dimensional network of neurons similar to those in the primary visual cortex. These models can detect a single moving dot in a field of thousands of fixed dots, in analogy with our ability to detect an artificial satellite moving against 3000 fixed stars in the night sky, for a signal/noise ratio of 1/3000 and seem to work well also for perception of shape, and depth. They are being developed using the largest unclassified Cray computer in addition to our own desktop machines and also being tested psychophysically. Simulations are essential since conventional mathematics are ill-suited to building a useful bridge between psychophysics and neurobiology.
MCB Donald Glaser And His Bubble Chamber (1960) Welcome to the Molecular and Cell Biology department at the University of California, Berkeley. This page describes the academic and research oportunities http://mcb.berkeley.edu/site/content/view/103/83/
Extractions: Home News and Events Research News Donald Glaser and his bubble chamber (1960) Donald Glaser and his bubble chamber (1960) A pressure cooker with windows? That was the basic idea behind the bubble chamber, a powerful instrument for the study of atomic particles that led to a 1960 Nobel Prize in Physics for its inventor, UC Berkeley professor Donald Glaser Glaser first conceived of the bubble chamber in 1952, at the age of 25, while a faculty member at the University of Michigan. According to scientific lore, Glaser was enjoying a cold beer when he observed the stream of bubbles in his brew. It was a moment of saloon science that inspired a tool second only in importance to the cyclotron for atomic physicists. The first bubble chamber, no bigger than its inventor's thumb, contained a clear, super-heated liquid in the path of charged atomic particles accelerated by an atom smasher. As the particles pushed through the liquid, they created a trail of tiny bubbles that could be photographed through the window of the chamber. Analyzing the bubbles provides physicists with insight about the particles and related forces. Over the years, bubble chambers increased in sizesurrounded by a magnet the size of a bus to control the particlesand capability as scientists around the world embraced the instrument. Indeed, Luis W. Alvarez, another Berkeley Nobel Laureate (Physics, 1968), and his colleagues, expanded on Glaser's work to develop their own hydrogen bubble chamber. The device enabled the researchers to discover many new resonance particles, subatomic particles with incredibly short lifetimes.
Class Of 1972 - 30 Year Reunion Gary Kipling and Barry Lipsky Laurie glaser and donald Wechter Lanny Sichel and Stuart Newman Laurie glaser, donald Wechter, Jessie Barwicke http://lynne714.tripod.com/
Extractions: Search: Lycos Tripod Dating Search Share This Page Report Abuse Edit your Site ... Next Class of 1972 - August 2, 2002 Enjoy looking at the great time all who attended had! If you can identify anyone in the pictures who I did not (there was so much going on, it was so overwhelming!), please write and help me out!) It seems Reunions Unlimited refuses to give a final list of who came to the reunion and "how many' attended. If you can help out with who was there, or names on the pictures, please write to me:
Portraits De Personnages Celebres : GLA glaser (donald Arthur). Photo 1 Photo de groupe 1 (avec Robert Fox BACHER, Richard Phillips FEYNMAN et Robert Benjamin LEIGHTON) http://www.onlipix.com/personnages/gla.htm
Donald Arthur Glaser- The Nobel Prize In Physics donald Arthur glaser. For the invention of the bubble chamber . donald Arthur glaser. External links. The Nobel Prize donald Arthur glaser http://www.nobel-prize.org/EN/Physics/glaser.htm
Science And Society Picture Library - Search Picture of donald glaser, American physicist, with his apparatus, c 1953. donald glaser (b 1926) is an American physicist credited with inventing the bubble http://www.scienceandsociety.co.uk/results.asp?image=10300037&wwwflag=2&imagepos
Skolavpohode.cz glaser, donald Arthur (1926). Narodil se 21. zárí 1926 v Clevelandu. Americký fyzik, Nobelovu cenu za fyziku získal roku 1960 za vynález bublinkové komory, http://www.skolavpohode.cz/clanek.asp?polozkaID=3611
Donald Arthur Glaser Translate this page Pagina do Professor Carlos Fernandes resumos de biografias de personalidades da historia da humanidade premios nobel, cientistas, engenheiros, escritores, http://www.sobiografias.hpg.ig.com.br/DonaldAr.html