Albert-Martmöller-Gymnasium Witten - Physik-Projekt Translate this page Walther Ritz * Ole Roemer * Heinrich Rohrer * Wilhelm Conrad Röntgen * ErnestRutherford * Janne Rydberg * Martin Ryle * felix savart * Erwin Schrödinger http://ping.de/schule/amg/projekte/physik/physik.htm
Extractions: oder: Bei passenden Gelegenheiten werden Schüler/-innen gebeten, sinnvolle Informationen über Physiker/-innen aus dem Internet oder anderen Quellen zu besorgen. Zu jedem der bereits "bearbeiteten" schulrelevanten Physiker wird dann eine Mappe angelegt, in der Ausdrucke / Kopien der gefundenen Texte / Bilder mit Quellenangabe abgeheftet werden.
CousinsGenWeb 93 : Les Données De LEE Chantal Translate this page felix, La-Courneuve, RIEUX, La-Courneuve, ROBEQUIN, La-Courneuve, ROUSSEAU, Aubervilliers,Montreuil savart Rosny-Sous-Bois Beffaral Saint-Denis Beffaral. http://vergezy.chez.tiscali.fr/cgw93/fc93_lee.htm
History A time line of the development of electromagnetism from 900 BC to 1905.Category Science Physics Electromagnetism History Rowland, Henry 1876, 1880. Rubens - 1903. Rutherford, Ernest - 1899. savart, felix- 1820. Savery, F. - 1827. Seebeck,Thomas Johann - 1822. Shuster, Arthur - 1896. http://maxwell.byu.edu/~spencerr/phys442/node4.html
Extractions: Next: Review Sheet Up: No Title Previous: Homework Assignments A Ridiculously Brief History of Electricity and Magnetism Mostly from E. T. Whittaker's A History of the Theories of Aether and Electricity... 900 BC - Magnus, a Greek shepherd, walks across a field of black stones which pull the iron nails out of his sandals and the iron tip from his shepherd's staff (authenticity not guaranteed). This region becomes known as Magnesia. 600 BC - Thales of Miletos rubs amber ( elektron in Greek) with cat fur and picks up bits of feathers. 1269 - Petrus Peregrinus of Picardy, Italy, discovers that natural spherical magnets (lodestones) align needles with lines of longitude pointing between two pole positions on the stone. 1600 - William Gilbert, court physician to Queen Elizabeth, discovers that the earth is a giant magnet just like one of the stones of Peregrinus, explaining how compasses work. He also discusses static electricity and invents an electric fluid which is liberated by rubbing. ca. 1620 - Niccolo Cabeo discovers that electricity can be repulsive as well as attractive.
Extractions: Antiquariaat Forum BV BIOT, Jean-Baptiste Relation du voyage de découvertes, exécuté par ordre des États-Unis d'Amérique, pendant les années 1838, 1839, 1840, 1841, 1842, rédigée par le lieutenant Charles Wilkes, commandant de l'expédition. Articles de M. J.-B. Biot. Extraits du Journal des Savants (Cahiers de novembre et décembre 1848, février 1849). Paris, Imprimerie Nationale, 1848, 1849. 57, (3)pp. Orig. blue wrappers. Very good uncut presentation copy offered to Monsieur de Roquemaure (?) by the author.- (Wrappers slightly soiled). This item is listed on Bibliopoly by Antiquariaat Forum BV ; click here for further details.
Korta Notiser Om Framstående Personer Inom Elläran felix savart och JeanBaptiste Biot (Om förhållandet mellan magnetfält och ström).http//www-groups.dcs.st-and.ac.uk/~history/Mathematicians/savart.html. http://www.physto.se/~klas/fyl2_el/historia.html
ViolinMan.com ViolinMan.com-The Easy-to-use Violin Resource after 1783. SAVANI (SCAVANI), GIUSEPPE, Carpi, 1809. savart, felix, Paris,b. Mezieres, 1791, d. Paris, 1841. SAVICKI (SAWITZKI), CARL http://www.violinman.com/Violin_Family/LUTHERIE/makers.htm
Lebensdaten Von Mathematikern Translate this page 1600 - 1667) Sarrus, Piere Frederic (1798 - 1861) Saurin, Joseph (1659 - 1737) Savage,Leonhard (1917 - 1971) savart, felix (1791 - 1841) Savary, felix (1797 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)
E-CASE-Eastern Catholic Alliance Of Schools For Excellence Venkata (1888 1970) Bhabha, Homi Jehangir (1909 - 1966) Rayleigh, John (1842- 1919) Bethe, Hans (1906 - ) here savart, felix (1791 - 1841) Biot, Jean http://www.volzcpa.com/ecase/lessonplans.asp?content=vplan&planid=816
Violino Mágico Translate this page utiliza uma versão adaptada do arco dos violinos, inovação aperfeiçoada peloluthier Gand Senior, a cujo estudo se dedicou o físico felix savart (1791-1841 http://www.violinomagico.hpg.ig.com.br/entretenimento/17/index_int_3.html
Neue Seite 1 Translate this page Saurin, Joseph (1659 - 1737). Savage, Leonhard (1917 - 1971). savart, felix(1791 - 1841). Savary, felix (1797 - 1841). Savile, Sir Henry (1549 - 1622). http://www.mathe-ecke.de/mathematiker.htm
Extractions: Abbe, Ernst (1840 - 1909) Abel, Niels Henrik (5.8.1802 - 6.4.1829) Abraham bar Hiyya (1070 - 1130) Abraham, Max (1875 - 1922) Abu Kamil, Shuja (um 850 - um 930) Abu'l-Wafa al'Buzjani (940 - 998) Ackermann, Wilhelm (1896 - 1962) Adams, John Couch (5.6.1819 - 21.1.1892) Adams, John Frank (5.11.1930 - 7.1.1989) Adelard von Bath (1075 - 1160) Adler, August (1863 - 1923) Adrain, Robert (1775 - 1843) Aepinus, Franz Ulrich Theodosius (13.12.1724 - 10.8.1802) Agnesi, Maria (1718 - 1799) Ahlfors, Lars (1907 - 1996) Ahmed ibn Yusuf (835 - 912) Ahmes (um 1680 - um 1620 v. Chr.) Aida Yasuaki (1747 - 1817) Aiken, Howard Hathaway (1900 - 1973) Airy, George Biddell (27.7.1801 - 2.1.1892) Aithoff, David (1854 - 1934) Aitken, Alexander (1895 - 1967) Ajima, Chokuyen (1732 - 1798) Akhiezer, Naum Il'ich (1901 - 1980) al'Battani, Abu Allah (um 850 - 929) al'Biruni, Abu Arrayhan (973 - 1048) al'Chaijami (? - 1123) al'Haitam, Abu Ali (965 - 1039) al'Kashi, Ghiyath (1390 - 1450) al'Khwarizmi, Abu Abd-Allah ibn Musa (um 790 - um 850) Albanese, Giacomo (1890 - 1948) Albert von Sachsen (1316 - 8.7.1390)
Chladni In het begin van de 19 e eeuw publiceerde de Franse fysicus felix savart samenmet de eminente vioolbouwer JB Villaume een methode om vioolbladen te stemmen http://www.vioolweb.nl/magazine/chladni.htm
Extractions: Elektronica als hulpmiddel bij vioolbouw Het is waar dat vioolbouw een traditie gebonden ambachtelijke bezigheid is. Toch wordt door de moderne vioolbouwers steeds vaker gebruik gemaakt van elektronica, waardoor betere instrumenten gemaakt worden. Door preciezere metingen worden een aantal parameters beter beheersbaar. Violen, alten en cello`s zijn gebouwd met twee verschillende houtsoorten. Het bovenblad is van fijnspar en het onderblad esdoorn. Traditioneel is deze combinatie met betrekking tot de klankvorming het meest succesvol gebleken. Er zijn een groot aantal factoren die bij de klankvorming een belangrijke rol spelen. Weinig ervan zijn wetenschappelijk te meten of te beheersen. Het bovenblad waarin de f-gaten zijn gesneden en dat voorzien is van een basbalk, produceert de klank. Het esdoorn onderblad heeft als functie de ontstane trillingen te versterken. Van zowel het boven- als onderblad zijn de diktes, veerkracht en de eigen frequentie nauwkeurig te meten.
Electroarea.com, Electricidad Y Nuevas Tecnologias Translate this page Jean-Baptiste Biot (1774-1862) y felix savart (1791-1841) Franceses, determinan laconocida ley de Biot-savart mediante la cual, calculan la fuerza que ejerce http://www.electroarea.com/historia.html
Untitled Also in Paris, a French scientist and Professor of Acoustics at the College de France,felix savart (17911841), commented on the problem of the violas size in http://cfaonline.asu.edu/haefer/classes/564/564.papers/schwandtviola.html
Extractions: THE HISTORY AND PROBLEMS OF VIOLA SIZE Jacquelyn J. Schwandt December 11, 2000 MHL 564 Professor Haefer NOTE: There were problems opening this Word Perfect File and the Illustrations are therefore not included. I'll try again at another time. Detail of Madonna of the Orange Trees The painting shows an instrument of three strings, with small, crude design, but is definitely a violin. The instrument is played on the shoulder, has a waisted shape, and has the characteristic f-holes of the modern violin. Ferrari worked in northern Italy near the city of Milan. This is the area where the well-known violin maker Andrea Amati worked around the same time period. INSTRUMENT SIZE Sizes of instruments (body length) VIOLA SIZE EARLIEST MAKERS OF SURVIVING VIOLAS (Ashmolean Museum, Oxford) Compare the 16th century viola on the left, with the short fingerboard, to the 20th century viola on the right, with a modern fingerboard a) Violin by Jacob Stainer, Absam, Tyrol, 1668; note the arched belly and back, short fingerboard with wedge, and short, straight neck; b) violin (Stradivari model) by Jean-Baptiste Vuillaume, Paris, 1867;
GS Physics Pythagoras, Lord Rayleigh, Bernhard Riemann. Johannes Rydberg, felix savart,Erwin Schroedinger. Karl Schwarzschild, Julian Schwinger, Willebrord Snell. http://www.elanco.k12.pa.us/schools/gshs/departments/science/Physics/biographies
Extractions: GSHS Home Academics Physics Department Academic Physics ... Internet Resources This site is maintained by Manfred Eller Please send e-mail with suggestions or questions, Garden Spot High School P.O. Box 609 669 East Main Street New Holland, PA, USA 17557 www.ELANCO FAMOUS PHYSICISTS, SCIENTISTS , AND MATHEMATICIANS In Alphabetical Order by Last Name Jean d'Alembert Andre-Marie Ampere Archimedes Aristotle ... Cosmological Stars Biographies with background information on the science related to their work. Back
BioWaves Sound Therapy - Musical Math Terms felix savart (1791 1841) improved upon the ideas of Daniel Bernoulli (1700- 1782) and Ernst Florens Fredrich Chlandni (1756 - 1827) and developed a http://www.biowaves.com/Physics/Music-Physics/MathTerms.cfm
Extractions: Felix Savart (1791 - 1841) improved upon the ideas of Daniel Bernoulli (1700 - 1782) and Ernst Florens Fredrich Chlandni (1756 - 1827) and developed a logarithmic interval term called the Savart. There are 303.03 Savarts are in one octave, or doubling of the frequency. This scheme works out very well when talking about musical notes, because it is completely ratiometric, and works the same for low frequencies through high frequencies. Later, Alexander John Ellis (1814 - 1890) developed another similar concept, the cent. In Alexander's scheme the octave would be broken down into 1200 cents, making each equal tempered half tone equal to exactly 100 cents.
Da H.C.Oersted A M.Faraday Translate this page matematico e geodeta francese Jean Baptiste Biot rende noto all'Académie des Sciencesdi avere trovato, assieme al suo collaboratore felix savart (1791-1841 http://www2.enel.it/home/enelandia/storia_nj/storia/par1.htm
Extractions: precedente Da H.C.Oersted a M.Faraday Rapporti fra elettricità e magnetismo Fra gli scienziati aderenti alla " Naturphilosophie " tedesca, il più importante, per la nostra storia, è il danese Hans Christian Oersted . Egli, infatti, proprio tentando di sceverare, sotto l'aspetto filosofico, i rapporti fra elettricità e magnetismo , giunge alla famosa osservazione dell'influenza del campo magnetico generato da una corrente elettrica , dimostrante che i fenomeni magnetici sono riducibili a quelli elettrici, e aprendo così la strada alla moderna elettrodinamica ed alle ricerche di Ampère e di Faraday Prima della sua osservazione, in un'edizione parigina del 1813 del suo trattato " Videnskaben om Naturens almindelige Love ", nel quale elabora un'immagine scientifica del mondo, afferma, fra l'altro, che esiste " una grande somiglianza fra le attrazioni e repulsioni elettriche e magnetiche ".
Alf Studios: American Heritage Article The first physicist to examine the violin in its own right was a nineteenthcenturyParisian, felix savart. savart performed a series http://www.alfstudios.com/news/Amerheri.html
Extractions: Spring 2000 - Volume 15/Number 4 The Mysterious Technology of the Violin How do you figure out what makes a Strad so great? And then how do you attempt to duplicate that greatness? By Steven L. Shepherd I tzhak Perlman has called Jasha Heifetz the "father of modern violin playing," and Isaac Stern credits him with extending the range of the possible more than any other violinist before or after. When in 1972, in Los Angeles, Heifetz gave his last public concert, the standing-room-only crowd included luminaries from throughout the violin world as well as a young Hollywood studio musician and Heifetz student named Ron Folsom. Heifetz died in 1987, and a year later Britain's venerable violin magazine The Strad published a full color poster of the violin he had used in that last concert. Named after the nineteenth-century virtuoso Ferdinand David, Heifetz's violin had been made in 1742 by Giuseppe Guarneri del Gesu. Guarneri's instruments are rarer and in many cases more valuable than those of Stradivari. Heifetz acquired his in 1922, paying the then lofty price of $30,000, and over time, says Folsom, it became for him "like religion. It was his life." He is even said to have rejected a 1969 offer of three million dollars for it that guaranteed his continued lifetime use and possession of the instrument.
Science Magnetism. The Mechanical universe and beyond. Part II, programs 3536 (530M486V pt.II35-36) Biot, Jean-Baptiste, 1774-1862. savart, felix, 1791-1841. http://www.mills.edu/library/LIB_COLL/videos_subj/science.html
Magnets According to the law named for the French physicists JB Biot and felix savart,(the Biotsavart Law) a magnetic field comes from moving charges or electric http://www.selah.k12.wa.us/MS/SciProj98/7TH/lindsayb/magnets.html
Extractions: How Do Two Types of Electromagnetic Radiation Effect the Strength and Polarity of aPermanent Magnet? By: Lindsay B. Abstract The purpose of this experiment was to determine if two types of electromagnetism affect a magnet's strength and polarity. I became interested in this idea when I saw the new list of topics in our packet of ideas. The topic was only about testing the magnet using x-ray radiation, but I wanted to take it a little further. So, I decided to test with temperature, too. The constants in this study were: The manipulated variables were choosing to radiate the magnets at two different settings, to heat, and chill the magnets. The responding variable was how the manipulated variables effected the strength and polarity of each magnet in which I tested. To measure the responding variable, I clamped each magnet on two ring stands. Then I took the plate of nails and brought it up to the magnet and let the nails touch the magnet for five seconds before bringing the plate back down. I then counted the number of nails on the magnet and weighed those nails.
