À§´ëÇѼöÇÐÀÚ ¸ñ·Ï 20 Nov 1917 in Detroit, Michigan, USA Died 1 Nov 1971 in New Haven, Connecticut,USA savart, felix savart Born 30 June 1791 in Mézières, France Died 16 http://www.mathnet.or.kr/API/?MIval=people_seek_great&init=S
Savart's Cup And Resonator felix savart (17911841) is probably best known for his 1820 investigation (withBiot) of the strength of a magnetic field as a function of the geometry of a http://physics.kenyon.edu/EarlyApparatus/Acoustics/Savarts_Cup/Savarts_Cup.html
Extractions: Savart's Cup and Resonator Felix Savart (1791-1841) is probably best known for his 1820 investigation (with Biot) of the strength of a magnetic field as a function of the geometry of a wire and the current through it. But, most of his research dealt with acoustics, including the first explanation of the operation of a violin. The edge of the cup or bell of Savart's apparatus is set into oscillation with a violin bow to produce a sound of definite pitch. The sliding piston of the resonator is then moved in and out to give the maximum amplitude of sound. Note that the relatively large diameter of the resonator gives large end corrections; the wavelength of the resonant wavelength is larger than four times the interior depth. The Union apparatus is by the Paris firm of Lerebours et Secretan, and is listed at 400 francs in the 1853 catalogue. Amherst College Colby College
Biot - Savart, Force Of (JeanBaptiste Biot, 17741862, and felix savart, 17911841, French physicists),force F which acts upon a current- carrying conductor in a magnetic field. http://www.amershamhealth.com/medcyclopaedia/Volume I/BIOT SAVART FORCE OF.asp
Extractions: Amershamhealth.com Search for: Type a word or a phrase. All forms of the word are searchable. Browse entry words starting with: A B C D ... Other characters Biot - savart, force of, (Jean-Baptiste Biot, 17741862, and Felix Savart, 17911841, French physicists), force F which acts upon a current- carrying conductor in a magnetic field. The force acting on an infinitesimal piece of conductor dl is proportional to the current times the vector product (see vector ) of the directional vector of the conductor and the magnetic induction (B) (I) (see magnetic field H dF = I[dl x B]
Biot - Savart, Force Of (JeanBaptiste Biot, 1774-1862, and felix savart, 1791-1841, French physicists),force F which acts upon a current- carrying conductor in a magnetic field. http://www.amershamhealth.com/medcyclopaedia/medical/Volume I/BIOT SAVART FORC
Extractions: Amershamhealth.com Search for: Type a word or a phrase. All forms of the word are searchable. Browse entry words starting with: A B C D ... Other characters Biot - Savart, force of (Jean-Baptiste Biot, 1774-1862, and Felix Savart, 1791-1841, French physicists), force F which acts upon a current- carrying conductor in a magnetic field. The force acting on an infinitesimal piece of conductor dl is proportional to the current times the vector product (see vector ) of the directional vector of the conductor of electricity and the magnetic induction (B) (I) (see magnetic field (H) dF = I[dl x B]
List Of People By Name: Sa-Sb pornographic actress; Savard, Serge; Savard, Serge, (15571578), Portuguesemonarch; savart, felix, (1791-1841), physicist; Sava, Saint http://www.fact-index.com/l/li/list_of_people_by_name__sa_sb.html
Extractions: Main Page See live article Alphabetical index List of people by name A B C ... R S T U V W ... Z Sa-Sb Sc-Sd Se Sf-Sg Sh ... Sz Saadi , (died 1283), Persian poet Saar, Betye, (born 1929), painter Saarinen, Eero , (1910-1961), Finnish architect Saarinen, Eliel , (1873-1950), Finnish architect Saba, Umberto , pseudonym of Italian poet Umberto Poli (1883-1957) Sabatini, Gabriela, (born 1970), (Argentina) Sabatini, Osvaldo, actor, brother of Gabriela Sabatini Sabato, Antonio, Jr, (born 1972), actor Sabbas of Alexandria, Patriarch of Alexandria Saberhagen, Fred , (born 1930), US science fiction writer Sabin, Albert, (born 1906), polio researcher Sabine, Edward , (died 1883), astronomer Sabinianus, Pope Sabourin, Roméo SOE agent, WW II hero Sabrina (actress) American actress Sabu, (1924-1963), actor Sacagawea , (c. 1787-1812), Native American guide Saccheri, Giovanni Gerolamo, non-euclidean geometry Sacco, Albert, astronaut Sacco, Joe, comic creator Sacco, Nicola, anarchist, executed with Vanzetti in 1927 Sac-Kuk , (died 640) Queen of Palenque Sansom-Hallowes, Odette
Annalen 1828 Bd. 89 Translate this page savart, felix, über die Zersetzung des Ammoniaks durch Metalle, Artikel, http://www.weltderphysik.de/forschung/geschichte/annalen/1828_89.html
Extractions: Geschichte Annalen 1828 Bd. 89 Die Inhalte dieses Bandes liegen in den Formaten PDF und TIFF Autor Titel Typ Dokument Inhaltsverzeichnis Inhalt Artikel Egen, P.N.C. Artikel Berzelius, J.J. Untersuchung des Wassers der Heilquelle zu Ronneby Artikel Rose, Heinrich Artikel Trolle-Wachtmeister Untersuchung des Fahlunits Artikel Artikel unbekannter Autor Artikel August, E.F. Artikel August, E.F. Artikel Bouvard Artikel Humboldt, A. von Artikel Egen, P.N.C. Artikel Gay-Lussac Artikel Zinken, J.C.L. Artikel Rose, Gustav Artikel Savart, Felix Artikel Hermann Artikel Egen Artikel Marum van Extrait du programme de la societe Hollandoise des sciences a Harlem, pour lacute; annee 182 Artikel Liebig, Justus Artikel Kupffer, A.T. Artikel unbekannter Autor Artikel Muncke, G.W. Artikel Fischer, N.W. Zur Geschichte des Tellurs Artikel Zenneck Artikel unbekannter Autor Darstellung des Stickstoffgases Artikel Osann, G. Fortsetzung der Untersuchung des Platins vom Ural Artikel Artikel Gay-Lussac Artikel unbekannter Autor Neue Methode, Salzkrystalle aufzubewahren Artikel Dove, H. W.
Meilensteine 19. Jahrhundert Translate this page Feldstärke im Feld eines stromführenden Leiters, Jean Baptiste Biot, felixsavart. 1820, elektrodyn. 1825, Theorie des Brummkreisels, felix savart. http://physikaufgaben.de/meile19.htm
Extractions: Physikseite Aufgaben Aufgabe der Woche Meilensteine ... Links Meilensteine: 19. Jahrhundert Jahr Leistung Physiker Entdeckung des Infrarot William Herschel Entdeckung der Interferenz des Schalls Thomas Young Herstellung des Normalmeterstabes und des Normalkilogramms in Paris Entdeckung des Ultraviolett Johann Ritter Thomas Young Atomhypothese Dalton Entdeckung der Polarisation Etienne Malus Zusammenhang zw. Teilchenanzahl und Volumen Amadeo Avogadro Untersuchung der Bogenentladung Humphry Davy Jean Biot Spektrallinien im Sonnenspektrum entdeckt Joseph Fraunhofer Allgemeine Zustandsgleichung des idealen Gases formuliert Louis Gay-Lussac Stirling-Motor Reverend Robert Stirling Thomas Young sehr exakte Temperaturmessungen mit einem Metallfederthermometer Abraham-Louis Breguet Augustin Jean Fresnel Ablenkung der Magnetnadel durch den elektrischen Strom wird entdeckt Christian Oersted Jean Baptiste Biot, Felix Savart Andre Marie Ampere Schweigger Untersuchung an stromdurchflossenen Leitern Michael Faraday Entdeckung des thermoelektrischen Effektes Th. J. Seebeck
The Biot-Savart Law Shortly after Oersted s discovery in 1819 that a compass needle is deflected by acurrentcarrying conductor, Jean Baptist Biot and felix savart reported that http://www.engineering.com/content/ContentDisplay?contentId=41004014
Great Physicists John (1842 1919); savart, felix (1791 - 1841); Schwarzschild, Karl(1873 - 1916); Schwinger, Julian (1918-1994); Snell, Willebrord http://www.hallym.ac.kr/~physics/reference/physicist/physicist.html
Extractions: Most of the following materials are from History of Mathematics Archive , St Andrews Univ., UK. For links that don't work, go to the original places above. Newton, Sir Isaac (1643 - 1727) Maxwell, James Clerk (1831 - 1879) Franklin, Benjamin : to Franklin Institute Science Museum at Philadelphia Geiger, Hans Gell-Mann, Murray Goudsmit, Samuel Abraham (1902-1978) Halley, Edmond (1656 - 1742) ... Millikan, Robert : Caltech Photo Archive Minkowski, Hermann (1864 - 1909) von Neumann, John (1902 - 1957) here Ohm, Georg Simon (1789 - 1854) ... Noted Figures in Physics, Engineering and Astronomy
Violin the Violin and Other Instruments Sandys and Forster William Reeves; London Memoiresur la Construction des Instruments a Cordes et a Archet savart, felix ? http://www.bcpl.net/~lcarpent/violin.html
Extractions: "Cello Making, Step by Step" Strobel, Henry A. by author "Useful Measurements for Violin Makers" Strobel, Henry A. by author "Violin MakerÕs Notebook" Strobel, Henry A. by author "Violin Making, Step by Step" Strobel, Henry A. by author full size plans (on a Stradivari model) "Liuteria-Storia ed Arte" Strocchi, Giuseppe ? Lugo, 1937 " Facts about Violins And Violin Making" Tietgen, Hans "L'Art du Luthier" Tolbeque, A. "A LutthierÕs Scrapbook" Wake, Henry S. "A Strad Model Cello " Wake, Henry S. "Amateur Fiddle Makers Q and A" Wake, Henry S. "To Make A Double Bass" Wake, Henry S. "The Violin Makers of the United States" Wenberg, Thomas James This page created by Lane Owen Carpenter,
CAS Index - Authors: E -- F Fletcher, D. Translation (I) felix savart A. Masson reports on his work, (pub. Translation(II) felix savart A. Masson reports on his work, (pub. http://ccrma.stanford.edu/marl/CASL/etof.html
Extractions: Sound synthesis by physical modeling with Modalys (abstract) Eckhardt, P. A. Sanding machine Eggers, F. Mechanical impedance measurements on the violoncello (abstract) See Terhardt, E. issue 1.4:47-48 11/89 VibraVision and electroacoustical methods applied to determine vibration properties of wooden "blanks" for violin plates Computer-processed plate-archings for bowed instruments A new type of violin drawing Contour-control A study of the Stradivari-Sacconi violin arching for getting a computerizable arching of the same type Tuning air-body resonances for the violin maker (Note) Measuring the string angle on a violin (Note) More on violin string angles (Note) Blister cup indicators and bm-values as aids when indicating body resonances B1, B0 and B-1 Air resonance testing, experiments and views Paillette indicators: an alternative to the blister cup indicators See Compton, Jr. S. R. issue 2.6:34 11/94
Template29 discovery that a compass needle is reflected by a currentcarrying wire two scientistby the name of Jean-baptiste Biot and felix savart performed experiments http://ffden-2.phys.uaf.edu/212_fall2003.web.dir/Aaron_Behnen/mag_elecfields.htm
Extractions: T he relationship between magnetism and electricity is very close. This page is dedicated to how magnetism and electricity interact in fields but before we discuss that I feel it is important to know a little bit about the electromagnetic force. According to this physics page "[the electromagnetic force] one of the four fundamental forces the electromagnetic force manifests itself through the forces between charges (Coulomb's Law) and the magnetic force, both of which are summarized in the Lorentz force law." The lorentz force is is given by this equation: (Images Courtesy of http://hyperphysics.phy-astr.gsu.edu/hbase/magnetic/magfor.html#c2) Below is the explanation of the variables. Now that we know how closely related the electric and magnetic forces are it is appropriate to discuss further the interaction between electricity and magnetism in fields. The first interaction is a magnetic force acting on a current carrying wire. This situation acts similar to the situation of a charged particle moving through a magnetic field. There is a force on the wire. It is simply a collection of charges in motion. "Hence the resultant force exerted by the field on the wire is the vector sum of the individual forces exerted on all the charged particles making up the current" (Serway). The total Magnetic force on a wire is equal to the current(I) times L(length of wire) cross B(magnetic field). If we have a closed current loop the net magnetic force acting on it is 0. The magnetic field of an electric current is shown below in a picture:
MSN Encarta - Centro De ArtÃculos - BiografÃas F, F. Sherwood Rowland * Federico García Moliner * felix Bloch * Félix de Azara* Félix savart * felix Wankel * Ferdinand Marie Lesseps * Ferdinand von http://es.encarta.msn.com/artcenter_0.6.3/BiografÃas.html
Extractions: ENCYCLOPEDIA U com Lists of articles by category ... SEARCH : List of people by name A B C ... R S T U V W ... Z Sa-Sb Sc-Sd Se Sf-Sg Sh ... Sz Saadi , (died 1283), Persian poet Saar, Betye, (born 1929), painter Saarinen, Eero , (1910-1961), Finnish architect Saarinen, Eliel , (1873-1950), Finnish architect Saba, Umberto , pseudonym of Italian poet Umberto Poli (1883-1957) Sabatini, Gabriela, (born 1970), (Argentina) Sabatini, Osvaldo, actor, brother of Gabriela Sabatini Sabato, Antonio, Jr, (born 1972), actor Sabbas of Alexandria, Patriarch of Alexandria Saberhagen, Fred , (born 1930), US science fiction writer Sabin, Albert, (born 1906), polio researcher Sabine, Edward , (died 1883), astronomer Sabinianus, Pope Sabourin, Roméo SOE agent, WW II hero Sabrina (actress) American actress Sabu, (1924-1963), actor Sacagawea , (c. 1787-1812), Native American guide Saccheri, Giovanni Gerolamo, non-euclidean geometry Sacco, Albert, astronaut Sacco, Joe, comic creator Sacco, Nicola, anarchist, executed with Vanzetti in 1927 Sac-Kuk , (died 640) Queen of Palenque Sansom-Hallowes, Odette
List Of Physicists - Reference Library Faraday Britain (1791-1867); felix savart - France (1791-1841); NicolasL?nard Sadi Carnot - France (1796-1832); Joseph Henry - USA http://www.campusprogram.com/reference/en/wikipedia/l/li/list_of_physicists.html
The Journal 4/212225 Rostal, Max (Henkle) 6/3103-08 Sacconi, Simone 1/14 Salomon String Quartet(Carlson) 7/1137-40 savart, felix (Verdon) 8/113-26 Schenk, Otto Karl http://www.vsa.to/subjectindex.htm
Physik-Lexikon Physik Translate this page Feldstärke im Feld eines stromführenden Leiters Jean Baptiste Biot, felixsavart. 1820 elektrodyn. 1825 Theorie des Brummkreisels felix savart. http://www.physik-lexikon.de/chronik.htm
Physics Lecture 15 - Sources Of Magnetic Fields of the magnetic field around a long (assume infinitely long) wire carrying a steadycurrent, two French scientists, Jean Biot and felix savart, worked out the http://dept.physics.upenn.edu/courses/gladney/phys151/lectures/lecture_feb_28_20
Extractions: Sources of Magnetic Field In keeping with our previous statement about the association of charges acted upon by fields and the fields produced by those charges, it is only natural to think that, once it is established that magnetic fields act on moving electric charges, then moving electric charges should create magnetic fields. In fact, experiment shows just such a relationship! The symmetry inherent in nature between fields and charges is therefore upheld. We find that a single moving point charge q which has constant velocity v in a vacuum produces a magnetic field m p /C p So, if m is a constant of nature, why is it defined rather than measured as other constants have been? The reason lies in what was historically recognized as a curious relationship between the permittivity and the permeability of free space. Namely, their product is the inverse of the square of the speed of light, i.e.
Antique Radio JeanBaptiste BIOT (1774-1862) and felix savart (1791-1841) French physicists, establishedin 1820, a means to measure the strength of a magnetic field created http://perso.club-internet.fr/dspt/antiqueA.htm
Extractions: The development of the Radio was the culmination of a long process bringing together the fundamentals of theoretical physics and the experiments of a few, exceptional, engineers. The story starts at the end of the 17th century, a time when the learned and the wise sought to understand and explain the mysteries of the universe and to answer the question, 'What is light?' Science, at that time, was primarily interested in astronomy and all things optical... ... but some researchers were already experimenting with magnetism. The first machines were developed to carry out experiments based on static electricity, allowing the experimenters to become familiar with new and spectacular phenomena, such as disruptive discharges, 'electric wind' and the ionisation of gas, by flame. The English doctor, William GILBERT (1544-1603), Royal Physician to Queen Elizabeth I and to James I, was the first to propose the idea that the earth is an enormous magnet, and that all matter is either isolating ('nonelectrics') or conducting (electrics).
CMH - Work With Saunders reasons, but Saunders wrote back on February 14, 1950, saying that it seemed likea lot of work and reviewing the problems that felix savart (17911841)a http://www.catgutacoustical.org/PEOPLE/cmh/laird3.html
Extractions: Work With Saunders In 1949, the same year that Hutchins began her study as a luthier, Helen Rice introduced her to Frederick A. Saunders (1875-1963), a retired Harvard physicist who had been conducting research on violin acoustics since the early 1930s. Best known for the Russell-Saunders coupling (a principle of atomic spectroscopy), Saunders had been chair of the physics department at Harvard, a fellow of the National Academy of Sciences, and one-time president of the Acoustical Society of America. An amateur violinist and violist, he tried her viola and said that he would look forward to seeing her next one. At that point, Hutchins insists, she had no intention of making another. After speaking with Saunders and reading some of his articles, Hutchins realized how she could help him: [FN 14] ...the only thing he'd ever been able to do was to work with musicians who came with the instruments as they were. He didn't dare change anything except to maybe take a little bit of wax and put a penny, or a little bit of weight on the bridge... What Hutchins offered was to build instruments on which Saunders could make actual changes, like the position and size of the f-holes or height of the ribs. Evidence of this joint work is found in the many surviving letters from Saunders to Hutchins.
