ViolinMan.com 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
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....
NAOMI Summary Commissioning Log savartplate interferometer (felix) Tom and Sebastian have flattened the DM usingthis, ie they have now demonstrated an alternative to the troublesome white http://www.ing.iac.es/~crb/wht/aocommlog.html
Extractions: NAOMI technical information WHT Astronomy ING ... Search The entries below summarise results from each NAOMI run (defined as any period when NAOMI was scheduled to be available for commissioning or observing) and from some of Durham's Rayleigh-laser tests: Total NAOMI commissioning time 2000 Jan 1 - 2004 Feb 2 = 47.4 clear bright nights (the earlier runs were with ELECTRA, total time on-sky ~ 10 nights?). Total OASIS commissioning time 5.0 nights. More detailed reports can be found in ~crb/ao/yymmdd.report. Laser tests by Durham team. Nights used: 2 for RLGS tests Conditions: seeing ? Observers: Tim Morris, Richard Myers, Colin Dunlop, Paul Berry, Roy Ostensen Tim ? Successes Problems NAOMI in GRACE with OASIS/MIT3 as science camera, to test on-sky performance after discovery of problems with FSM. Nights used: 0.4 for NAOMI tests
Untitled Document the field of Physics JeanBaptiste Biot and felix savart performed quantitativeexperiments on the force exerted by and electric current on a nearby magnet. http://www.u.arizona.edu/~kdinh/bodypage.htm
Extractions: Abstract: In the course of history, men come and men go. Some make a mark upon their times that lasts only while they are alive, other men have their mark appear only after they have died. A few rare men do both. Jean Baptiste Biot is one of those men. Known in his time and until today as one of the most brilliant physicist and mathematician, Biot was the champion of the corpuscular theory of light and which he then extended to explain the phenomena of polarization in Optics. Biot discovered the laws of rotary polarization by crystalline bodies and applied these laws to the analysis of saccharine solutions. However, his fame rested mainly on his work in polarization and double refraction of light. Biots History: Jean Baptiste Biot was born in Paris, France, 21 April, 1774. He was educated at the college of Louis-le-grand in Paris, and soon after college he enrolled himself in the army in 1793. However, he decided that the army live was not for him, so he soon left the service to enter the Ecole Polytechnique, where he became a professor of mathematics. After beginning his career as a mathematician and astronomer, he was assigned to the section of geometry in the Academy of Sciences. He did a lot of research and discoveries during the time period of (1804-1824), this enormous work covers the entire field of experimental and mathematical physics, as well as ancient and modern astronomy. What is also interesting about Biot was that his talent for writing.
Origem Do Arco 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://lci.upf.tche.br/~35507/origem_do_arco1.htm
Extractions: Em sua origem, o arco dos instrumentos de cordas em tudo se assemelhava ao seu homônimo, peça de arma utilizada para arremessar flechas: vareta curvada em forma de meia-lua, a cujas pontas se atava algum tipo de corda ou cerda retorcida, mais tarde substituída por crina animal. Pois era com artefato similar que o músico da antiguidade lograva produzir o atrito com a corda necessário à produção do som. Quanto à construção, o arco moderno pode ser subdividido em dois grupos principais. O primeiro seria o modelo do violino, padrão também empregado pela viola e o violoncelo, assim como uma das modalidades do arco do contrabaixo, a chamada frandesa. Este último instrumento tem história e personalidade próprias, e as características de construção e utilização de seu arco lhe são absolutamente peculiares. Cabe a seguir abrir espaço para uma breve abordagem da história e principais características das duas modalidades de arco utilizadas em sua execução. A modalidade francesa (overhand) do arco do contrabaixo utiliza uma versão adaptada do arco dos violinos, inovação aperfeiçoada pelo luthier Gand Senior, a cujo estudo se dedicou o físico Felix Savart (1791-1841), a pedido do governo da França. Esse modelo leva também a denominação Napolitano. A segunda modalidade (underhand) derivou daquela utilizada para os instrumentos da família da gamba, tendo recebido inúmeras denominações entre elas, Dragonetti, Tedesco, Butler, Bolonhês e Simandl.
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)
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.
Fellows Of The Royal Society L Cauchy 9 Jun 1832 Carl GJ Jacobi 6 Jun 1833 George B Airy 21 Jan 1836 James J Sylvester25 Apr 1839 Lambert AJ Quetelet 30 May 1839 felix savart 30 May 1839 http://dwb.unl.edu/Teacher/NSF/C09/C09Links/www-groups.dcs.st-and.ac.uk/7Ehistor
Extractions: The list of fellows given below is only those scientists elected Fellows of the Royal Society whose biographies appear in the MacTutor History of Mathematics Archive, together with some present day mathematicians. The list also gives their date of their election to the Society. William Brouncker 22 Apr 1663
Hintergrundinformationen: Magnetfelder - Forschungszentrum Rossendorf Translate this page 1820, Jean-Baptiste Biot and felix savart zeigen, dass Kräfte die von einem stromdurchflossenenDraht auf einen Magneten ausgeübt werden mit 1/r abfallen. http://www.fz-rossendorf.de/pls/rois/Cms?pNid=232
History In 1829, the French physicist felix savart 2 found that specimens from cast ingotsof various metals exhibited acoustic anisotropy, and concluded that cast http://www2.umist.ac.uk/material/staff/academic/fjh2/history.htm
Extractions: Home Glossary History Sources ... Links THE HISTORY OF RECRYSTALLIZATION Although the art of metalworking including the procedures of deformation and heating has been practised for thousands of years, it is only comparatively recently that some understanding has been gained of the structural changes which accompany these processes. The early history of the annealing of deformed metals has been chronicled very elegantly by Beck [1]. Crystallinity and crystallization In 1829, the French physicist Felix Savart [2] found that specimens from cast ingots of various metals exhibited acoustic anisotropy, and concluded that cast ingots consisted of crystals of different orientations. He also found that although the anisotropy was changed by plastic deformation and subsequent annealing, heating alone produced no change. This is the first recorded evidence for a structural change occurring during the annealing of a cold worked metal. In the mid 19th century, the concept of the crystallization of metals was extensively discussed, and it was widely thought that plastic deformation rendered metals amorphous. This belief arose from the inability to observe grain structures in the deformed metals using visual inspection.
Holiday Inn Metz - Hotelbase Holiday Inn Metz 1 rue felix savart, Metz, 57070, Cancellation policy, 24hours before date of arrival. Address, 1 rue felix savart, Metz, 57070. http://www.hotelbase.com/france/hotels/50598.htm
The Sound The logarithmic unit is the savart (felix savart, French physicist). That isto say to find the interval in savart between 660 and 440 = f1 / f2 = 1,5. http://uk.geocities.com/piklemas/Soneng.html
Extractions: The sound The audible sounds are vibrations whose frequency lies between 20Hz and 20000Hz, these limits varying with the individuals. Among the audible sounds one distinguishes the musical sounds resulting from one or more vibrations of determined frequency and persisting long enough, and the noises due to nonperiodic vibrations, or of which the period and the amplitude evolve quickly. So that periodic vibrations correspond to a perceptible sound it is necessary that they have a sufficient amplitude and that their frequencies lie between certain limits. Under 20Hz, the vibrations form the field of infrasons; with the top of 20000Hz that of the ultrasounds. The study of the sounds can be objectively made way independence of the properties of the ear. The musical sounds are characterized by three physiological qualities: intensity, the height and the stamp. A musical instrument can play strong or gently: we will say that in the first case, the emitted sounds are more intense than in the second. It is easy to note that the sound is all the more intense since the source, for a given frequency, vibrates with a greater amplitude: the violin emits an intense sound when the bow strongly attacks the cord; the piano emits an intense note when the key is inserted energetically. The ear will be all the more strongly affected that the sound will bring a greater vibratory energy to him: this energy grows like the square of the amplitude.
Metz Help And AZ Hotel Index MONNET. HOLIDAYINN TECHNOPOLE, $ 0.6km NW from Center, Holiday InnMetz-Technopole 2000, 1 rue felix savart. HOLIDAYINN TECHNOPOLE, http://www.hotels-shopper.com/FR/MZM.Help.html
Extractions: ****DEFINITIONS**** 0-99 km Hotels located miles from Center of Metz, does not include some hotels whose location is not specified, listed as OTHER ALL LARGE REPORT of all hotels of Metz Deluxe 4-5 star and other exclusive hotels; does not include some Metz hotels whose rating is unspecified, listed by location or as OTHER France Index page of all cities and towns of France HELP! Place MOUSE OVER any underlined word for general explanation. Or click to go to relevant data on this or other pages Index Index of all hotels of Greater Metz, by zones Metz Hotels of Metz, info and rates aggregated from many reservations systems for comparison shopping More HELP. Glossary page: Explanation of terms online We periodically poll the providers and you need to reconfirm current availability and rates either by following the links in the tables below OR see summary of real-time rates by filling the form on the right Other/Unspecified Location/rating unspecified, some of these hotels may be DELUXE and may be downtown rates official and unofficial rates, rack rates, corporate rates (which are de-facto available to everybody), specials, consolidators, discounters, rebates
List Of People By Name: Sa-Sb - InfoSearchPoint.com pornographic actress; Savard, Serge; Savard, Serge, (15571578), Portuguesemonarch; savart, felix, (1791-1841), physicist; Sava, Saint, (died http://www.infosearchpoint.com/display/List_of_people_by_name:_Sa-Sb
Extractions: Home Add to Favourites Make HomePage Categories Business Games Medicine Nutrition and Health ... Shopping From Wikipedia, the free encyclopedia 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
S Ir al principio Regresar. savart, Félix (17911841) Obtuvo estos resultados utilizando el disco de savart, un dispositivo dotado de una rueda dentada giratoria que http://www.electrogenios.com/s.htm
Extractions: Programas de afiliados gestionados por Geopromos.com: ganar dinero con pago por click (CPC), sms, dialers... S A B C D ... Z Sagan, Carl (1934-1996) Astrónomo de origen estadounidense y pionero de la exobiología. Nació en Nueva York y estudió en la Universidad de Chicago, donde se doctoró en astrofísica. La investigación de Sagan se dirigió hacia la evidencia de vida en el espacio exterior. Luego de desempeñarse como profesor ayudante de astronomía en la Universidad de Harvard y como astrofísico en el Observatorio Astrofísico Smithsoniano (1962-1968), fue director del Laboratorio para Estudios Planetarios de la Universidad de Cornell. Trabajó en muchos proyectos de exploración espacial. Además de sus numerosas publicaciones científicas, escribió diversos libros de divulgación científica: Los dragones del edén El cerebro de Broca Cosmos (1980) (basado en la serie de televisión del mismo título, producida por él) El cometa Contacto Ir al principio Regresar Savart, Félix (1791-1841)
Savart The summary for this Korean page contains characters that cannot be correctly displayed in this language/character set. http://user.chollian.net/~ahnsi/sci/savart.htm
Loeng 13 Vastava katseseeria viisid esimesena läbi Jean Biot ja felix Savart1820. a., kasutades välja allikana sirgjuhet. Nad tegid kindlaks http://www.obs.ee/~jaak/loengud/teine/kolmas/kolmteist.html
Extractions: Der zweiseitige Ruhm des Michael Faraday Den eigentlichen Beginn des "elektromagnetischen" Denkens vermag heute niemand genau anzugeben. Es steht nur fest, daß wir, die Modernen, trotz allen Wissens und Könnens, die Anfangshürden zwar übersprungen, aber noch nicht beiseite geräumt haben. Obwohl elektrische und magnetische Erscheinungen schon seit der Antike bekannt sind, so z.B. die Kraftwirkung zwischen geriebenen Körpern (statische Aufladungen), die Nutzung der magnetischen Kraftwirkung (Kompaßnadel) u.a., begannen systematische Untersuchungen erst im 16. Jahrhundert. Man empfinde die Situation: Die elektromagnetischen Erscheinungen haben äußerlich nichts Greifbares. Meßgeräte gab es nicht, deren Prinzipien mußten erst noch erkannt werden. Der Begriff " Elektron" wurde erst ganz am Ende des 19. und zu Beginn des 20. Jahrhunderts geprägt. Was verbirgt sich hinter den Erscheinungen, und wie sind sie nutzbar? William Gilbert (1544-1603) hielt die elektrische Ladung der Körper für ein "Fluidum", etwas Einfließendes. Die magnetische Wirkung eines Dauermagneten und der Erde betrachtete er als ausströmendes Fluidum.
