PH2200 Electricity & Magnetism Bfield Sources, Andre-Marie Ampere Jean-Baptiste Biot felix savart A History ofMagnetic Fields, . Faraday's Law, Michael Faraday II, . Inductance, Joseph Henry,. http://www.phy.mtu.edu/~weidman/ph2200/pages/historymisc.html
Életrajzok felix savart (17911841) francia fizikus. http://www.tfk.elte.hu/tanszekek/fizika/webfiz/erajz/savart.htm
ïÛÉÂËÁ 404 described here draws heavily on the experience of violinmakers and provides somenew answers to a question asked in 1830 by felix savart, a physician and http://vitagrad.sch2.net/physics/page1.html
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Biografias Translate this page Galileo Galilei- Marie Curie- (Marie Curie) Charles de Coulomb- James Clerk Maxwell-Michael Faraday- felix savart- Jean Baptiste Biot- Nicola Tesla- Heinrich http://www.efis.ucr.ac.cr/apoyo_educativo/APOYO EDUCATIVO8.htm
Extractions: Jean-Baptiste Biot was a physicist and mathematician who made advances in geometry, astronomy, elasticity, magnetism, heat and optics. For his work on the polarization of light passing through chemical solutions, Biot received the Rumford Medal from the Royal Society in 1840. Biot's father was a treasury official who had planned for his son to enter the world of commerce. Biot was provided with a private math tutor in his youth and was educated at the college of Louis-le-Grand before joining the French army in 1793. After serving briefly in the artillery, he enrolled at the Polytechnic School in Paris. He later moved to Beauvais to act as a mathematics professor, but returned to Paris in 1800 when he was given the position of chair of mathematical physics at the College de France. Elected to the French Academy of Sciences at an unusually young age in 1803, that same year Biot was sent to investigate objects falling from the sky. His findings helped initiate the general acceptance of the existence of meteorites. Then, in 1804, he accompanied Joseph Gay-Lussac on the first balloon trip undertaken for scientific purposes. Biot's interest in optics was spurred in 1806 when Thomas Young revived the wave theory of light. The resurgence of the theory divided the great physics minds of the day into two separate camps, one that supported the wave theory, and another that believed in the corpuscular nature of light. Biot, a member of the latter group, began devoting his time to developing mathematical support for the idea that light existed as particles. In 1808, experiments performed by Etienne-Louis Malus showed that reflected light became polarized, a finding that could only be explained by the wave theory of light. However, Biot chose to repeat and expand upon the work of Malus in hopes of attaining validation for the opposing light theory.
Extractions: Galleria Photo Gallery ... Home From the earliest days in Alexandria (circa 300 BC) when Euclid described the laws of reflection in Optica , the science of optics has fascinated and challenged society's most brilliant minds. The earliest pioneers in optics reached for the stars with difficulty as they developed crude lenses and mirrors for their telescopes while other investigators focused on the hidden microscopic world through aberration-plagued compound optical systems that hampered early microscopes. Today, millions of the optically-challenged need be thankful to these pioneers for the eyeglasses, contact lenses, and other advances that have evolved from innovations dating back as early as 1303 when Bernard of Gordon, a French physician, wrote about the use of spectacles as a way of correcting long-sightedness (hypermetropia). From the earliest compound microscopes, enabling anatomists to describe the properties of blood cells, to the modern electron and scanning laser confocal microscopes and NASA's Hubble space telescope, the science of optics has helped us understand the world around us, our bodies, and the diseases we face in our daily lives. Whether it is Polaroid instant photos, sunglasses, disposable contact lenses, the ubiquitous television, videos, or the more recent compact discs, fiber optics communications, and digital cameras, we all reap the harvest of seeds planted by pioneers in the optical sciences. Tribute is paid to these heroes through brief biographies that acknowledge their tremendous accomplishments and how they have affected our civilization.
Violins felix savarts Trapezoid Violin has a strangely modern appearance whenyou consider that its history dates back to the 19th century! http://www.users.waitrose.com/~ratter/html/violins.html
Extractions: E-mail: Raymond of Watford Home Welcome Savarts Trapezoid Violin Felix Savarts Trapezoid Violin has a strangely modern appearance when you consider that its history dates back to the 19th century! It is relatively simple to construct and yet never fails to impress the serious musician. It looks brilliant on a folk or rock stage where it invariably attracts interest from both the audience and the band! Savart was a scientist and it seems that he was drawn to consider the classical violin as a scientific instrument which could be investigated, analysed and rationalised. His was by no means the only attempt to develop the classical model but contemporary reports suggest that it was one of the more successful. The 21st century builder will require only basic woodworking skill to produce a very pleasing result. Featured in Practical Woodworking Magazine.
Hall Of Pioneers In 1820, with felix savart, he discovered the law known as Biot and savart's Law. He was especially interested in questions relating to the polarization of http://www.seas.ucla.edu/jht/pioneers/pioneers.html
Extractions: Leo Graetz (1856-1941) Leo Graetz was a German Physicist born at Breslau, Germany on September 26, 1856. He studied Mathematics and Physics at Breslau, Berlin and Strassburg. In 1881, he became the assistant to A. Kundt at Strassburg and in 1883 he went to the University of Munchen where he became a Professor in 1908 and occupied the Second Chair for Physics parallel to Roentgen. His scientific work was first concerned with the fields of heat conduction, radiation, friction and elasticity. After 1890, his work forcused upon problems of electromagnetic waves and cathode rays. Graetz was a prolific technical writer as evidenced by his twenty-three editions of book Electricity and Its Applications and a five volume work Handbook of Electricity and Magnetism. These works contributed to the wide dissemination of knowledge in electricity which, at their time of printing, was still in its infancy. He died in Munchen on November 12, 1941, at age 85. Franz Grashof (1826-1893)
1800- Volta Completes The Voltaic Pile And Announces It. 1820- 1820 Jean Baptiste Biot (pictured) and felix savart (picture not yet available)use Oersted's discovery to prove that the force between a current-carrying http://www.ee.vt.edu/~museum/time/time3.html
Extractions: - Hans Christian Oersted sets a precedent when he discovers that a charged wire placed near a large magnetic needle causes the needle to position itself at a right angle to the wire. If the wire's direction is reversed, so is the needle's. - Jean Baptiste Biot (pictured) and Felix Savart (picture not yet available) use Oersted's discovery to prove that the force between a current-carrying wire and a magnet pole are inversely proportional to the distance between them. - From the previous findings of Oersted, Biot, and Savart, Andre Marie Ampere furthered the findings to define electrodynamics. This led to the construction of a long spiral coil of wire called a "solenoid" which acts as a magnet when connected to a battery. - Georg Simon Ohm, professor of mathematics at Jesuit College in Cologne, used Jean Baptiste Joseph Fourier's theory of heat flow in hisown theoretical investigations into the relationship of voltage and current. He discovered that there was a linear relationship between current and voltage for a metallic conductor. This relationship is known today as
Founding A Family Of Fiddles - Sec. 1 Groundwork in the scientific investigation of the violin was laid by such men asMarin Mersenne (1636), Ernst Chladni (1802), felix savart (1819) and Hermann http://www.marymt.edu/~cas/research/articles/fiddfam/fiddfam1.html
Extractions: Catgut Acoustical Society Groundwork in the scientific investigation of the violin was laid by such men as Marin Mersenne (1636), Ernst Chladni (1802), Felix Savart (1819) and Hermann L. F. Helmholtz (1880). Savart, who can rightly be considered the grandfather of violin research, used many ingenious devices to explore the vibrational characteristics of the violin. But he was unable to gain sufficient knowledge of its complicated resonances to apply his ideas successfully to development and construction of new instruments. Recent research that has led to our new fiddle family is largely the work of Hermann Backhaus, Herman Meinel, Gioacchino Pasqualini, Ernst Rohloff, Werner Lottermoser and Frieder Eggers in Europe and of the late Frederick A. Saunders, John C. Schelleng, William Harvey Fletcher and myself in the United States. Among other accomplishments of our Catgut Acoustical Society is a concert played at Harvard last summer during the meeting of the Acoustical Society of America. It was dedicated to Saunders and the instruments were our eight new fiddles, which are the outgrowth of research he began. I write about the concert and about the instruments as a member of the society and as one who worked with Saunders from 1948 until his death in 1963. My activities include reconciliation of the wisdom of experienced musicians and violin makers, coordination of much technical information from widely separated sources, and design, construction and testing of experimental instruments. In 1937 Saunders reported
Holiday Inn Metz-Technopole 2000 - Reviews, Reservations And Deals Category Hotel 1, rue felix savart Metz 57074 France, Tel 3303-87399450 Fax 33-03-87399455Rooms 90, View all Metz hotels Click here if you own this property http://smarterliving.tripadvisor.com/Hotel_Review-g187164-d228000-Reviews-Holida
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Extractions: PREPARED BY U. GRIGULL, H. SANDNER, J. STRAUB, H. WINKLER ON THE OCCASION OF THE 7TH INTERNATIONAL HEAT TRANSFER CONFERENCE, MUNCHEN 1982 LEHRSTUHL A FUER THERMODYNAMIK TECHNISCHE UNIVERSITAET MUENCHEN BARON JEAN BAPTISTE JOSEPH FOURIER French mathematician and physicist famous for his pioneer work on the representation of functions by trigonometric series, was born at Auxere on March 21, 1768, the son of a tailor. He became a teacher in mathematics in 1784 at the military school there. He taught at the Ecole Normale at Paris from its founding in 1795, where his success soon led to the offer of the chair of analysis at the Ecole Polytechnique. In 1807 he was made a member of the academy of sciences. Fourier's masterpiece was his mathematical theory of heat conduction stated in "Theorie Analytique de la Chaleur" (1822), one of the most important books published in the 19th century. It marked an epoch both in the history of pure and of applied mathematics, for in it Fourier developed the theory of the series known by his name and applied it to the solution of boundary-value problems in partial differential equations. This work brought to a close a long controversy, and henceforth it was generally agreed that almost any function of a real variable can be represented by a series involving the sines and cosines of integral multiples of the variable. Fourier died in Paris on May 16, 1830. JEAN BAPTISTE BIOT French physicist, best known for his work in polarization of light, was born in Paris on April 21, 1774. In 1800 he became professor of phsysics at the College de France, through the influence of Laplace, from whom he had sought and obtained the favour of reading the proof sheets of the "Mecanique Celeste".
Untitled The Biotsavart law, named for French physicist JB BIOT and felix savart, permitsthe calculation of the magnetic field from any arbitrarily shaped current http://www.angelfire.com/co2/eradani7/magnet.html
TheTenor Violin The Paris acoustics professor felix savart, later a member of the Acadeiiiie Française,ascertained in his Ménzoire sur bo construction des instruments ~i http://www.angelfire.com/md2/customviolins/tenorviolin.html
The Violin Varnishes Of Italian Violin-Makers By George Fry properties Old varnish penetrated the wood - EJ Payne's description of the penetratingquality of Stradivari's varnish - The views of felix savart quoted and http://members.aol.com/brohanpress/violincontents.html
Extractions: and Their Influence on Tone George Fry ORDER INFO CONTENTS Contents Preface xi 1. Introduction Evolution of violins from viols - Introduction of the sound-post - Probable influence of the Church on the evolution of violin and varnish - The varnishes were oil-varnishes, the early ones perhaps excepted - Brown colour of early instruments and its recrudescence - Improvement of colour attends that of form - Extinction of the varnish about 1750 - Its quality as excellent as its colour - Differentiation of Cremonese and Venetian varnish - Introduction of Neapolitan varnish - Assumption of composition of the varnish, derived from superficial examination, generally accepted - Improvement suggested by Eugene Mailand - Defects in imitations supposed to be remedial by age - Observations which caused suspicion of the correctness of established dogma - Definition of dichroism - Origin and progress of a research on a new hypothesis - Scope and arrangement of the present treatise....
Biot Biotsavart Law. In order to find the magnetic field produced by a current, we are.introdudec to the lawof Jean Baptiste Biot and felix savart. The biott-savart. http://www.fordhamprep.com/physics/biot.htm
Electricity And Magnetism Lab #2 His work, however, was based on earlier work by Hans Christian Oersted,JeanBaptiste Biot, felix savart, and Andre-Marie Ampere. http://alpha.enc.edu/physics/courses offered/py322/Lab2/LAB2.html
Extractions: Physics PY322 Electricity and Magnetism Lab #2 Spring Semester 2000 Magnetic Fields I. Introduction One of the great triumphs of 19 th century science was the unification of the theories of electricity and magnetism by James Clark Maxwell in 1873. His work, however, was based on earlier work by Hans Christian Oersted, Jean-Baptiste Biot, Felix Savart, and Andre-Marie Ampere. These pioneers developed a mathematical description of the magnetic fields produced by moving charges. In this lab we will calculate the magnetic field produced by a short, thick solenoid, and compare this theoretical prediction to the measured fields. II. Theory We already worked out the magnetic field of the solenoid in class. Therefore, I will only present our final result here. The theory section of your paper should, however, contain the complete derivation of this result, with all its wonderful details. Below is the diagram of the solenoid used in the calculation. Using the law of Biot and Savart we obtained the magnetic field along the axis of the solenoid: III. Experimental Apparatus
Physik-Lexikon 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.php
Informations Généalogiques Translate this page Famille THIERRY - felix, felix, Nicole, Naissance vers 1600. THIERRY, Jeanne, FamilleCHEVREAU - savart, savart, Marie Geneviève, Naissance 1796. http://connat.chez.tiscali.fr/ged2charton/dat36.htm
Informations Généalogiques Translate this page -DARENNE, Pierre DARENNE, Claude savart, Claire, Naissance vers1675 -THIERRY, Marin THIERRY, Jeanne felix, Nicole, Naissance 30 http://connat.chez.tiscali.fr/ged2charton/dat5.htm
