Units: E The unit honors the Hungarian physicist roland von Eötvös (18481919). ephaha ancient unit of volume for grains and dry commodities, used in the Bible. http://www.unc.edu/~rowlett/units/dictE.html
Extractions: Using the Dictionary E a mathematical unit used as the base of "natural" logarithms and exponentials. The real number e is irrational, which means that its decimal expansion is infinite and non-repeating. To 25 significant digits e equals 2.718 281 828 459 045 235 360 287. Of the many properties of this number, the most important is that the rate of change in the function e x is equal to the value of the function itself. As a result, the larger the value of this function is, the faster the function grows: the behavior we call "exponential growth." The Swiss mathematician Leonard Euler (1707-1783) introduced the symbol e , probably because it is the first letter of the word "exponential." Other mathematicians continued to use the letter in his honor. It is sometimes called the Euler number.
Eötvös Eötvös, roland, Baron von. (18481919). Madarský fyzik, který se ve svých vedeckýchpocátcích zabýval kapilárnímu jevy. Pozdeji se venoval gravitaci. http://www.aldebaran.cz/famous/people/Eotvos_Roland_Baron_von.html
Extractions: Eötvös, Roland, Baron von Maïarský fyzik, který se ve svých vìdeckých poèátcích zabýval kapilárnímu jevy. Pozdìji se vìnoval gravitaci. Pomocí torzních vah ukázal, e podíl gravitaèní a setrvaèné hmotnosti je konstantní s pøesností 5×10 . Dnes je tato skuteènost ovìøena s pøesností 10 a je základním stavebním kamenem obecné relativity.
AIP International Catalog Of Sources Dirk Coster, Marie Curie, Charles Galton Darwin, Alexandre Dauvillier, AlbertEinstein, roland von Eötvös, Kasimir Fajans, Alexander Fleck, Fritz Haber, http://www.aip.org/history/catalog/4670.html
Extractions: My List - Help Browse Archival Resources Archival Finding Aids Books Photos Browse FAQs Past Searches History Home Search: Author Subject Title Journal/Newspaper Title Series Computer File (Software) Title Video Title Refine Search AIP Niels Bohr Library Item Information Holdings More by this author Hevesy, Georg von, 1885-1966. Subjects Bohr, Niels Henrik David, 1885-1962. Bragg, William Henry, Sir, 1862-1942. Coster, Dirk, 1887-1956. Curie, Marie, 1867-1934. Darwin, Charles Galton, Sir, 1887-1962. Einstein, Albert, 1879-1955. Fajans, Kasimir, 1887- Haber, Fritz, 1868-1934. Knudsen, Martin, 1871- Moseley, H. G. J. (Henry Gwyn Jeffreys), 1887-1915. Nernst, Walther, 1864-1941. Rutherford, Ernest, 1871-1937. Soddy, Frederick, 1877-1956. Teller, Edward, 1908- Niels Bohr institutet. University of Manchester. Atomic theory. Nuclear physics. Quantum theory. Science History. Browse Catalog by author: Hevesy, Georg von, 1885-1966. by title: Oral history intervi... MARC Display Oral history interview with Georg von Hevesy, 1962 May 25 and 4 February 1963. by Hevesy, Georg von, 1885-1966.
Europhysics News NOVEMBER/DECEMBER 1999 (p Some of the teachers, even some of the pupils (among them John von roland Eötvöshimself organized the first inservice teacher training seminar in 1895 http://www.fi.uib.no/~csernai/Sci-Policy/gymnasiu.htm
Extractions: europhysics news NOVEMBER/DECEMBER 1999 (p. 13O.) features What accounts for the legendary status of Hungarian schools? Hardworking teachers have always put the latest research in the hands of schoolchildren George Marx, Hungary The Hungarian Gymnasium The Economist) said: "The early 20th-century Hungarian education system was the most brilliant the world has seen until its close imitator in post-1945 Japan." The advantage of the gymnasium system is that in the best gymnasia students can be pressed toward the limits of their capacities: they are exposed to an intellectual rigor that is not usually reached in high schools in more democratic countries. In particular, the gymnasium system gives dignity to teachers who provide instruction in top secondary schools. A scholar or scientist who knows that his or her talents lie in pedagogy rather than in research does not feel he or she is falling back if he or she spends a whole life teaching in such a school. A fine teacher retiring at the age of sixty from the Minta Gymnasium in Budapest, for example, would find many of the most famous people in Hungary in his or her debt because they had passed through his or her hands. Enthusiasts say that the two most successful of these gymnasium systems in history have been the one in post-1945 Japan, and arguably that of Hungary from about 1890 almost to the 1930s. The average Japanese 18 year old is today more advanced in math than all except the top 1 % of American 18 year olds. The same would have been true of gymnasium pupils in Budapest in 1914.
Lorand Baron Von Eoetvoes Translate this page Eötvös, Lorand Baron, meist roland Baron von E., ungar. Physiker, * Pest (heutezu Budapest) 27.7.1848, + Budapest 8.4.1919, Sohn von Eötvös, http://www.ub.uni-heidelberg.de/helios/fachinfo/www/math/homo-heid/eoetvoes.htm
Extractions: Studium und Promotion in Heidelberg Brockhaus. - 20. Aufl. - Bd. 6, S. 461 Lorand Baron, meist: Roland Baron von E., ungar. Physiker, Biographie vom St. Andrews Archiv Eric Weisstein's Scientific Biography Encyclopaedia Britannica Weitere WWW-Biographien www.mek.if.hu/ Dictionary of Scientific Biography. - New York
Leo Koenigsberger: Mein Leben / Anmerkungen Translate this page Eötvös, Loránd Baron, meist roland Baron von E. ungar. Physiker, * Pest (heutezu Budapest) 27.7.1848, + Budapest 8.4.1919, Sohn von 1) Jósef Freiherr von http://www.ub.uni-heidelberg.de/helios/fachinfo/www/math/edd/koenigsberger/pers-
Alpengipfel & Erstersteiger Translate this page Stefan, Zurbriggen, Matthias, Zurbriggen, Peter Josef, unbekannter Begleiter,,MV,, EU,. roland von Eötvös Sextener Rotwand (Dolomiten) , 20. Juli 1878 http://www.erstersteiger.de/ergebnis.php?typ=person&per=374
ESA - Living Planet Programme - GOCE - Basic Measurement Units This unit is named after the Hungarian physicist roland von Eötvös who lived from1848 until 1919. Hertz (Hz). Hertz is the SI unit of frequency, http://www.esa.int/esaLP/ESAK4XZK0TC_LPgoce_0.html
Extractions: ESA Observing the Earth Living Planet Earth Explorers ... ESA's gravity mission GOCE Science Overview Objectives Disciplines Geodesy Solid-Earth physics Oceanography Mission Overview Payload Satellite Ground segment Data Data overview Calibration Data products Publications Publications Services Calendar Contact us Search All Earth Observation Advanced Search Feature Basic Measurement Units Gravity, g g is the symbol for the average acceleration produced by gravity at the Earth's surface (sea level). The actual acceleration of gravity varies from place to place, depending on latitude, altitude, and local geology. The symbol g is often used informally as a unit of acceleration. By agreement among physicists, the standard acceleration of gravity g n is defined to be exactly 9.80665 meters per second per second (m s , or about 32.174 05 feet per second per second. At latitude p, a conventional value of the acceleration of gravity at sea level is given by the International Gravity Formula, g = 978.0495 [1 + 0.0052892 sin (p) - 0.0000073 sin p )] centimetres per second per second (cm s ). The symbol g was used as a unit first in aeronautical and space engineering, where it is important to limit the accelerations experienced by the crew members of aircraft and spaceships: the "g forces," as they are called. This use became familiar through the space programs, and now a variety of accelerations are measured in g's. Note that g is also the symbol for the gram.
1890: Information From Answers.com roland, Baron von Eötvös b. Budapest, Hungary, July 27, 1848, d. Budapest, April8, 1919 conducts experiments in relating the gravitational and inertial http://www.answers.com/topic/1890
Extractions: showHide_TellMeAbout2('false'); Arts Business Entertainment Games ... More... On this page: US Literature Wikipedia Mentioned In Or search: - The Web - Images - News - Blogs - Shopping In the year Archaeology Flinders Petrie compares pottery styles found in Egypt, in Greece by Schliemann, and in Palestine in his own investigation at Tell el Hesi, using Egyptian chronology to date the Greek Bronze Age and levels of civilization at Tell el Hesi. See also 1894 Archaeology Astronomy Edison makes unsuccessful attempts to detect radio waves from the Sun. See also 1931 Astronomy Edward Pickering and Williamina Fleming [b. Dundee, Scotland, May 15, 1857, d. Boston, May 21, 1911] introduce a stellar classification system based on an alphabetic system for spectral classes (known as Harvard Classification, it will become famous as the basis for the Draper Catalog). See also 1918 Astronomy Communication A heliograph system is used by the U.S. army to send signals from mountaintop to mountaintop over a distance of 350 km (215 mi). See also 1854 Communication Edouard Branley [b. Amiens, France, October 23, 1844, d. Paris, March 24, 1940] invents the coherer, a small glass tube filled with iron filings. Normally the resistance of the iron filings is great, but in the presence of electromagnetic radiation the resistance becomes very small. Thus the device becomes the workhorse of early radio.
Timeline 1889 roland von Eötvös uses a torsion fiber balance to test the weak equivalenceprinciple to 1 part in one billion http://faculty.fortlewis.edu/tyler_c/classes/454/w03/andrew/timeline.htm
Geschichte Der Physik Translate this page Geschichte. Loránt Eötvös (eingedeutscht roland von Eötvös) Man nannte esHorizontal Variometer von Eötvös, da man damit die horizontale Komponente von http://www.physik.uni-muenchen.de/leifiphysik/web_ph11/geschichte/10eoetvoes/eoe
Names Index Eötvös, Lóránd von (also roland von Eötvös) (18481919) 68, 320, 325. Euclid (c.300 BC) (see also geometry), 35, 79, 80. Feigl, Herbert (1902-88) 70, http://www.sfu.ca/philosophy/beyond_experience/names.htm
Extractions: In many cases throughout this book, authors have been referred to by a cross-reference to the References section (pp. 415-26), e.g. Alfred Jules Ayer has been referred to by the numbers [16-18]. For convenience in identifying references within the text where numbers have been used, those numbers have been included below. A B C D ... H I J K L M ... T U V W X Y Z A bbott, Edwin Abbott (1838-1926) [1], 185, 412 Adams, Robert Merrihew (1937-) [2], 288 Adler, Irving (1913-) [3], 161n.11 Albrecht, Walter A., Jr. (?-1971) [194], 342n.9 Aleksander, Igor (1937-) [4], 413 Allaire, Edwin B. (1930-) [6-7], 308-9 Andronicus of Rhodes (c. 70 BC), 21n.11 Aquinas, St Thomas (1225-74) [8], 3, 330n.2 Arbib, Michael A. (1940-) [9], 83-4, 88 Aristotle (384-322 BC) [10-12], 3, 19-20, 21n.11, 87, 90, 138, 238, 257, 380n.11 Armstrong, David M. (1926-) [13], 270n.23 Atrens, Dale Michael (1941-) [14], 141n.6
Lebensdaten Von Mathematikern Translate this page von Dyck, Walther Franz Anton (1856 - 1934) von Eötvös, roland (1848 - 1919) vonHelmholtz, Hermann (1821 - 1894) von Karman, Theodore (1881 - 1963) http://www.mathe.tu-freiberg.de/~hebisch/cafe/lebensdaten.html
Extractions: Marc Cohn Dies ist eine Sammlung, die aus verschiedenen Quellen stammt, u. a. aus Jean Dieudonne, Geschichte der Mathematik, 1700 - 1900, VEB Deutscher Verlag der Wissenschaften, Berlin 1985. Helmut Gericke, Mathematik in Antike und Orient - Mathematik im Abendland, Fourier Verlag, Wiesbaden 1992. Otto Toeplitz, Die Entwicklung der Infinitesimalrechnung, Springer, Berlin 1949. MacTutor History of Mathematics archive A B C ... Z Abbe, Ernst (1840 - 1909)
I10 Wegeners Mechanism For Continental Drift Eötvös force roland Eötvös (18481919)full Hungarian name Vásárosnaményi BáróEötvös The excerpt from H. von Eötvös, Verhandlungen der 17. http://geowords.com/histbooknetscape/i10.htm
Extractions: Wegener described the kinetic motion of the continents as two concurrent motions: Polflucht (flight from the pole) and westward drift. Polflucht from the South Pole is evidenced by tillites of Late Paleozoic age that the southern continents have carried to low latitudes, and even to north of the equator in the case of India, and by the coals, which are the accumulations of Late Paleozoic equatorial plants, that the northern continents have carried north to temperate latitudes. Antarctica, an area of Pangea that was over the pole, has been left stranded there Westward drift with respect to the Pacific seafloor is evidenced by the crumpling of the Cordilleras on the leading edge of the westward moving Americas, by the opening of the Atlantic due to the lagging behind of the Old World, by the trailing island arc of the Antilles between the Americas, and by the trailing island arc of the South Antilles between the horn of South America and the Antarctic Peninsular. Africa may not have moved west at all. But west movement of Eurasia by opening the narrow oceans that separate its eastern margin from the island-arc festoons left stranded on the western edge of the Pacific seafloor. In Die Entstehung der Kontinente , (1912, 1915, 1920, 1922), Wegener proposed uniformitarian mechanisms for these motions: The continents are sial-rafts floating in sima, Wegener considered four forces that act on the continents: the E
UserGerritholl/mathematicians - Wikipedia, The Free Encyclopedia Alexander von Brill Walther von Dyck - roland von Eötvös - Hermann vonHelmholtz - Theodore von Kármán - Helge von Koch - Gottfried von Leibniz - Carl http://en.wikipedia.org/wiki/User:Gerritholl/mathematicians
Re: Resubmitted: What Is The Current Explanation Of Mass And Inertia? Galileo Galilei and more recently roland von Eötvös have shown experimentallythat gravitational and inertial mass seem to be equal. therefore Einstein http://www.madsci.org/posts/archives/apr2001/987171600.Ph.r.html
Extractions: Hi William, first of all let me say a few words on mass in general. there are two "types" of mass, as is well known, inertial mass and gravitational mass. the gravitational mass of a particle is the property that couples to gravity, inertial mass is the resistance if you want to accelerate a particle. but also energy couples to and experiences gravity. Galileo Galilei and more recently Roland von Eötvös have shown experimentally that gravitational and inertial mass seem to be equal. therefore Einstein postulated the equality in his general theory of relativity. as a consequence of this axiom, one cannot distinguish between gravity and and accelerated frame, locally. Does all matter have mass and is all mass matter?
THE EÖTVÖS SOCIETY ## It is the merit of roland Eötvös to recognize the full importance of active After John von Neumann the Eötvös Society elected honorary members like http://teo.elte.hu/fs/history/eotvsoc.html
Extractions: We will not let everyday politics dominate our lives. It is with great concern that we see science become dominated here and there by politics, and that some states with significant cultural heritages move toward scientific autarchy. This may have a devasting effect on science. There is no such thing as German physics, French mathematics, or English astronomy. These concepts are atrocious creations of national chauvinism. Truth is one and indivisible throughout the world. (Gustav Rados, president of the Society 1937) It is the merit of Roland Eötvös We have to raise the flag of science so high that it should be visible beyond our borders. That is our task! Terrestrial Gravitation and its Measurement was mailed out, but the letter also referred to further goals: Gentlemen! We hope that by meeting here we will take the first step towards assembling again and again with a similar purpose and come into closer contact with each other. Respectfully yours sincerely, Baron Roland Eötvös. To further the development of science by word of mouth at our meetings, and publish everything that is worth the attention of the experts in a journal: this goal does not seem more than the goal of a self-educating student circle, and still in case we give it the deserved attention, our work will have merit, it will fulfill an important task. If we carry out the task of self-education with dedication and seriousness, it will also have the result that in the future the researchers and developers of science will come from among us. I hereby declare the Mathematical and Physical Society founded.
AWVerlag - Dienstleistungen - Referenzliste - E Annalen der Physik 2 (1900) 425446; von Eötvös roland, Desiderius Pekár andEugen Fekete, Beiträge zum Gesetze der Proportionalität von Trägheit und http://www.info.global-scaling-verein.de/Ref/ReferenzE.htm
Extractions: Zurück E Eagleton Robert D., Two laboratory experiments involving the homopolar generator", American Journal of Physics /7 (July 1987) 621-623 Eagleton Robert D. and Martin N. Kaplan, The radial magnetic field homopolar motor", American Journal of Physics /9 (September 1988) 858-859 Ebner Guido und Heinz Schürch, "Verbessertes Fischzuchtverfahren", Europäische Patentschrift EP 351 357 B1 (Angemeldet: 15.06.1989, Patent veröffentlicht: 03.03.1993); Inhaber: Ciba Geigy AG, Basel (CH) Ebner Guido, "Methode zur Behandlung von Biologischem Material", Europäische Patentanmeldung EP 791 651 A1 (Angemeldet: 22.01.1997); Vertreter: IPR Institute for Pharmaceutical Research, Riehen (CH) Edmonds James D., "Generalized Charge in the Eight-Component Spin-½ Wave Equation", Foundations of Physics No.3 (1973) 313-319 Edmonds James D., Quaternion Quantum Theory: New Physics or Number Mysticism?", American Journal of Physics /3 (March 1974) 220-223 Edmonds James D., "A Relativistic ‚Higher Spin‘ Quaternion Wave Equation Giving a Variation on the Pauli Equation"
IL FISICO DELLA SETTIMANA Translate this page Eötvös Lòránd (roland Eötvös). Budapest, Ungheria, 27.7.1848 8.4.1919 John von Neumann, Theodor von Karman, linventore del BASIC John Kemény, http://www.a-i-f.it/FISICI/fisico30.htm
