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41. Molecular Expressions: Science, Optics And You - Timeline - Pioneers In Optics
Biot also worked with felix savart to discover that the intensity of the magneticfield established by a wire carrying an electric current is inversely
http://micro.magnet.fsu.edu/optics/timeline/people/

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Molecular Expressions Website

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Pioneers in the Optical Sciences
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.

42. Molecular Expressions: Science, Optics And You - Timeline - Jean-Baptiste Biot
Collaboration with the physicist felix savart led to another of Biot s significantaccomplishments. Together, in 1820, they discovered that the intensity of
http://micro.magnet.fsu.edu/optics/timeline/people/biot.html

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Jean-Baptiste Biot
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.

43. Antique Radio
JeanBaptiste BIOT (1774-1862) and felix savart (1791-1841) French physicists,established in 1820, a means to measure the strength of a magnetic field
http://dspt.club.fr/antiqueR.htm
History
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).

44. Physics Today On The Web - Feature Article - May 2000
This flow configuration was first analyzed by felix savart in 1833. Taylor provideda theoretical description of the shape of the bell.
http://www.deas.harvard.edu/brenner/taylor/physic_today/taylor.htm
Feature Article Modern Classical Physics Through the Work of G. I. Taylor
A water bell

He wrote one of the first scientific papers using random walks; gave the first consistent theory of the structure of shocks in gases; and explained the importance of dislocations for determining the strength of solids. He also described the counterintuitive physics of fluid motion in a rotating environment, providing the basic principles for important aspects of atmospheric and oceanic dynamics.
Taylor studied all of these topics during the first 30 years of his career, between his 20th and 50th years. During the next 30 years, among other achievements, he quantitatively described dispersion of solute in fluid flow; elaborated the basic principles for how microorganisms can swim; and predicted, by dimensional analysis, the energy of the atomic bomb explosion from a series of US government publicity photographs. He also recognized that accelerating an interface between two fluids can lead to instability, and did seminal work on the interaction between fluids and electric fields, providing the foundation for electrohydrodynamics and the basic principles for a slew of present-day industrial processes and devices. Taylor did much of this research involving electric fields between his 70th and 80th years.

45. PSIgate - Physical Sciences Information Gateway Search/Browse Results
felix savart Born 30 June 1791 in Mézières, France Died 16 March 1841 in Paris,France Show birthplace location Previous (Chronologically) Next
http://www.psigate.ac.uk/roads/cgi-bin/search_webcatalogue2.pl?limit=350&term1=b

46. Guild Of American Luthiers, AL #80
like an electric bass and sounds like a bass fiddle. This solution uses asimplified body inspired by felix savart and strings made for an electric.
http://www.luth.org/backissues/80.htm
AMERICAN LUTHERIE #80
Winter 2004 Preview:
Ervin Somogyi has been decorating his steel string guitars with lute roses and other fine chip-carving techniques for years. In this issue we get a close-up look at just how he does it. Seems like guitar repair guru Frank Ford is everywhere: At lutherie conventions, in catalogs, at lutherie schools, and on the Internet. And now he's in our Meet the Maker column as well. The photo shows Frank in 1974. R.M. Mottola is on a lutherie quest. A quest to make a bass that plays like an electric bass and sounds like a bass fiddle. This solution uses a simplified body inspired by Felix Savart and strings made for an electric. How did Armin Kelly go from being an English teacher to a successful dealer in fine classic guitars? It had a lot to do with impulsively ordering guitars that he could not afford. We meet him in this issue and get the rundown. What the heck can you do with a one-toothed saw? Plenty, if you are Eugene Clark! Or if Eugene has showed you how, as he does in this article.
You might have the necessary stuff lying around the house to do some pretty spiffy audio spectroscopy. John Moore describes some simple experiments with guitars and free plates.

47. AllRefer.com - Jean Baptiste Biot (Physics, Biography) - Encyclopedia
With French physicist FranCois Arago, Biot measured properties of gases, and withFrench physicist felix savart, he formulated a law for the magnetic force
http://reference.allrefer.com/encyclopedia/B/Biot-Jea.html
AllRefer Channels :: Health Yellow Pages Reference Weather September 07, 2005 Medicine People Places History ... Maps Web AllRefer.com You are here : AllRefer.com Reference Encyclopedia Physics, Biographies ... Jean Baptiste Biot
By Alphabet : Encyclopedia A-Z B
Jean Baptiste Biot, Physics, Biographies
Related Category: Physics, Biographies Jean Baptiste Biot [zhAN bAt E O Pronunciation Key Arago , Biot measured properties of gases, and with French physicist Felix Savart, he formulated a law for the magnetic force near a wire carrying an electric current. He discovered that when light passes through some substances, including sugar solutions, the plane of polarization of the light is rotated by an amount that depends on the color of the light.
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48. NAOMI Summary Commissioning Log
savartplate interferometer (felix) Tom and Sebastian have flattened the DMusing this, ie they have now demonstrated an alternative to the troublesome
http://www.ing.iac.es/~crb/wht/aocommlog.html
NAOMI summary commissioning log
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.
2004 Apr 10
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
  • Laser worked fine, first 2 half nights used for alignment and focus. Second two half nights wiped out by bad weather, no chance to close loop on WFS.
Problems
2004 Feb 2
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

49. NAOMI Commissioning Plan
savartplate interferometer felix, manual operation by 4/04. TG. 4-arcsec skybaffle for testing in 04A. Ideally 2.5-arcsec and 4-arcsec sky baffles
http://www.ing.iac.es/~crb/wht/aocommtodo.html
ll NAOMI/OASIS job list
NAOMI technical information
WHT Astronomy ING ... Search Version: 2005 Feb 22 NAOMI/OASIS commissioning / enhancements jobs are summarised below under 8 headings: Under each heading, the goals are listed in rough priority order, with some indication of which tasks are crucial, and which are to be attempted as time permits. Crucial goals are listed within each section before the line-break.
Further OASIS-specific commissioning tasks are included in CRAL's 13/6/03 plan for the Jul 2003 commissioning. Most of the tasks below relate to one of the following critical issues ultimately affecting delivered image quality or observing overheads for NAOMI, OASIS, OSCA and INGRID:
  • On-sky PSF with bright guide stars V < 10 (WFS modes, loop speed, FSM response, reconstructor, pupil stops, segmentation of DM, INGRID optics/filters etc.)
  • On-sky PSF with faint guide stars (WFS and lenslet modes, throughput to WFS, sky baffle, low-noise WFS CCD, LGS development etc.)

50. Sketches Of The History Of Electromagnetics
Fall, JeanBaptiste Biot (1774-1862) and felix savart (1792-1841) deduce theformula for the strength of the magnitec effect produced by a short segment of
http://history.hyperjeff.net/electromagnetism_slim.html
Back to the
Full version
Jeff Biggus
Part of the HyperJeff Network
Sketches of a History of
Classical Electromagnetism
(Optics, Magnetism, Electricity, Electromagnetism) last updated Monday, 14-Jan-2002 00:20:30 CST A
n
t
i
q
u i t y Many things are known about optics: the rectilinearity of light rays; the law of reflection; transparency of materials; that rays passing obliquely from less dense to more dense medium is refracted toward the perpendicular of the interface; general laws for the relationship between the apparent location of an object in reflections and refractions; the existence of metal mirrors (glass mirrors being a 19th century invention). ca BC Euclid of Alexandria (ca 325 BC - ca 265 BC) writes, among many other works, Optics, dealing with vision theory and perspective. Convex lenses in existence at Carthage. cent BC Chinese fortune tellers begin using loadstone to construct their divining boards, eventually leading to the first compasses. (Mentioned in Wang Ch'ung's Discourses weighed in the balance of 83 B.C.)

51. Lexikon Felix Savart
felix savart aus der freien EnzyklopädieWikipedia und steht unter der GNU Lizenz. Die Liste der Autoren ist unter
http://lexikon.freenet.de/Felix_Savart

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Felix Savart
Felix Savart 30. Juni in M©zi¨res (Ardennen); † 16. M¤rz in Paris ) war ein franz¶sischer Arzt und Physiker, der im fr¼hen 19. Jahrhundert gemeinsam mit Jean Baptiste Biot den Zusammenhang zwischen elektrischem Strom und Magnetismus untersuchte ( Biot-Savart-Gesetz Savart untersuchte ebenfalls die Eigenschaften von schwingenden Saiten und baute eine trapezf¶rmige Violine , deren klangliche Eigenschaften nicht ¼berzeugen konnten. Das Original befindet sich im Museum der "Ecole Polytechnique" in Paris. Eine in Mittenwald angefertigter verbesserter Nachbau von befindet sich im Deutschen Museum M¼nchen Der bekannte franz¶sische Geigenbauer Jean Baptiste Vuillaume arbeitete eng mit F©lix Savart zusammen, um die Qualit¤t seiner Instrumente zu verbessern. Auf Holzstreifen von (180 mm x 25mm x 2,5mm ) welche dem Boden von Stradivarius und Guarnerius Geigen entnommen wurden, streute Savart Sand und strich mit einem Geigenbogen entlang der Kante des Holzstreifens und erzeugte jedesmal den Ton E und im Sand bildeten sich zwei parallele Linien. Den gleichen Versuch unternahm er mit der Decke entnommenen Streifen und stellte fest, daŸ bei diesen hochwertigen Geigen der mit dem Deckenstreifen erzeugte Ton um genau einen Ton h¶her lag als der dem Boden entnommener. Bei Versuchen mit herk¶mmlichen Geigen, lag die Differenz mindesten bei einer Terze und konnte mehr als eine Quarte betragen.

52. Tem5.3.
Translate this page Jean Baptiste Biot y felix savart informaron que un conductor de De susresultados experimentales, Biot y savart fueron capaces de llegar a una
http://www.itlp.edu.mx/publica/tutoriales/electymagnet/tem5_3_.htm
5.3. Ley de Biot-Savart
2. La magnitud dB es inversamente proporcional a r , donde r es la distancia desde el elemento hasta el punto p. 3. La magnitud de dB es proporcional a la corriente y la longitud ds del elemento. 4. La magnitud de dB es proporcional a sen , donde donde Km es una constante que en SI de unidades es exactamente 10 es otra constante, llamada permeabilidad del espacio libre. Es decir, K m X 10 7 Wb/A*m
y
sustituyendo, dado que dB=kdB, con Ya que tan y definidos como en la figura 5.4b. Esto da y = y , como puede verse en la figura 5.4b, para segmentos que van desde
x = - hasta x = +.. Como (cos 1 - cos ) = (cos - cos Ejercicio 1. Respuesta. 2.5X10-5 T

53. J Hist Med Allied Sci -- Sign In Page

http://jhmas.oxfordjournals.org/cgi/reprint/XIV/10/411
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54. Golem.de - Lexikon
Translate this page Dieser Artikel basiert auf dem Artikel felix savart aus der freien EnzyklopädieWikipedia und steht unter der GNU Lizenz für freie Dokumentation.
http://lexikon.golem.de/Felix_Savart
News Forum Archiv Markt ... Impressum Lexikon-Suche Lizenz Dieser Artikel basiert auf dem Artikel Felix Savart aus der freien Enzyklopädie Wikipedia und steht unter der GNU Lizenz für freie Dokumentation . In der Wikipedia ist eine Liste der Autoren verfügbar, dort kann man den Artikel bearbeiten Letzte Meldungen Deutscher Entwicklerpreis: Die besten Spiele gesucht Neue Version von Lotus Notes und Domino ... Originalartikel
Lexikon: Felix Savart
Felix Savart 30. Juni in in Paris 19. Jahrhundert gemeinsam mit Jean Baptiste Biot den Zusammenhang zwischen elektrischem Strom und Magnetismus untersuchte ( Biot-Savart-Gesetz Savart untersuchte ebenfalls die Eigenschaften von schwingenden Saiten Violine Mittenwald angefertigter verbesserter Nachbau von befindet sich im Deutschen Museum Jean Baptiste Vuillaume Bild: Violine Savart.jpg
Personendaten
NAME Savart, Felix ALTERNATIVNAMEN KURZBESCHREIBUNG GEBURTSDATUM 30. Juni 1791 GEBURTSORT STERBEDATUM STERBEORT Paris
Die Inhalte unter lexikon.golem.de entstammen der freien Enzyklopädie Wikipedia und wurden von ihren Autoren unter der GNU Lizenz für freie Dokumentation veröffentlicht. Die einzelnen Wikipedia-Artikel sind als solche gekennzeichnet.

55. Antenna Tutorial On Gain And Beamwidth From ATI Space And Communications Trainin
The laws of force between current bearing wires were at once investigated byAndreMarie Ampere and by Jean-Baptiste Biot and felix savart.
http://www.aticourses.com/antennas_tutorial.htm
Written by ATI Instructor Robert Nelson for Via Satellite , September, 1999 Antennas The Interface with Space by Robert A. Nelson The antenna is the most visible part of the satellite communication system. The antenna transmits and receives the modulated carrier signal at the radio frequency (RF) portion of the electromagnetic spectrum. For satellite communication, the frequencies range from about 0.3 GHz (VHF) to 30 GHz (Ka-band) and beyond. These frequencies represent microwaves, with wavelengths on the order of one meter down to below one centimeter. High frequencies, and the corresponding small wavelengths, permit the use of antennas having practical dimensions for commercial use. This article summarizes the basic properties of antennas used in satellite communication and derives several fundamental relations used in antenna design and RF link analysis. HISTORY OF ELECTROMAGNETIC WAVES At the beginning of the nineteenth century, the electrochemical cell was invented by Alessandro Volta, professor of natural philosophy at the University of Pavia in Italy. The cell created an electromotive force, which made the production of continuous currents possible. Then in 1820 at the University of Copenhagen, Hans Christian Oersted made the momentous discovery that an electric current in a wire could deflect a magnetic needle. News of this discovery was communicated to the French Academy of Sciences two months later. The laws of force between current bearing wires were at once investigated by Andre-Marie Ampere and by Jean-Baptiste Biot and Felix Savart. Within six years the theory of steady currents was complete. These laws were also "action at a distance" laws, that is, expressed directly in terms of the distances between the current elements.

56. Vie Extra Scolaire
la résidence 12, rue felix savart 57070 Metz Tel 03.87.37.46.45
http://www.metz.ensam.fr/Vie_extra_scolaire/vie_extra_scolaire.htm
La vie extra scolaire
Tel: 03.87.37.46.45
Association Sportive :

A.S ENSAM de Metz

12, rue Felix Savart 57070 Metz

Tel : 03.87.37.46.45
...
Tel :

57. Liceo Foscarini - Museo Virtuale Di Fisica: Timbro Di Savart Con Risuonatore
Translate this page Lo strumento, ideato dal francese felix savart (1791-1841), aveva il compito dievidenziare come la presenza di una cassa di risonanza accrescesse
http://www.liceofoscarini.it/fisica94/rissavart.html
onde acustica ScriviLogo ('') Timbro di Savart con risuonatore ScriviInizio(907) Datazione ScriviDatazione(907, 8) Questa pagina richiede Javascript
Galleria d'immagini Lo strumento
Vista dall'alto
Il tubo di catone tubo ScriviFine('', 3)

58. Dia 2
Translate this page felix savart. 30 de Junho · 1791 16 de Março · 1841. Taça e ressonador de savart conjunto com Biot, o françês felix savart nasceu em Mézières em 1791.
http://faraday.fc.up.pt/wyp/3/Dia-16.html
16 · MAR‡O · 1841 [164 ANOS] Felix Savart Ta§a e ressonador de Savart Conhecido pelo seu trabalho em conjunto com Biot, o fran§ªs Felix
Savart nasceu em M©zi¨res em 1791. Savart come§ou com uma carrei- ra de m©dico, mas rapidamente se
virou para a experimenta§£o. No seu trabalho sobre o magne- tismo, descobriu com Biot a lei que ficou baptizada com os seus nomes
e que descreve a origem do campo indu§£o magn©tica est¡tico. Apesar de este ser o seu feito mais famoso, a maior parte do seu tra- balho incidiu na acºstica. Produziu neste ¡rea uma primeira explica§£o para o funcionamento do violino, fazendo uso da “ta§a e ressonador de Savart”. A ta§a © posta
em vibra§£o com um arco de violino e o ressonador © usado para variar
a intensidade do som movendo o pist£o que se encontra no fundo. Estudou ainda a acºstica do ar, da voz humana, do canto das aves, de s³lidos em vibra§£o e das ondas sonoras em liquidos em movimento. Em sua honra foi criada uma unidade de intervalo de frequªncia com o seu nome (1 oitava © aproximadamente 301 Sav).

59. Annalen 1828 Bd. 89
Translate this page savart, felix, über die Zersetzung des Ammoniaks durch Metalle, Artikel. Hermann,Bemerkungen über die Darstellung des Broms, des Kaliums und des Natriums
http://www.weltderphysik.de/forschung/geschichte/annalen/1828_89.html
Geschichte Annalen 1828 Bd. 89
Annalen der Physik Jahrgang 1828, Band 89
Die Inhalte liegen in den Formaten PDF und TIFF (Multipage) oder JPG In den Jahrgängen 1903, 1904 und 1905 stehen einige Artikel aus urheberrechtlichen Gründen leider nicht zur Verfügung. 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.

60. Annalen 1830 Bd. 96
Translate this page savart, felix, Über die Empfindlichkeit des Gehörorgans, Artikel. Plateau, J.Über einige Eigenschaften der vom Lichte auf das Gesichtsorgan
http://www.weltderphysik.de/forschung/geschichte/annalen/1830_96.html
Geschichte Annalen 1830 Bd. 96
Annalen der Physik Jahrgang 1830, Band 96
Die Inhalte liegen in den Formaten PDF und TIFF (Multipage) oder JPG In den Jahrgängen 1903, 1904 und 1905 stehen einige Artikel aus urheberrechtlichen Gründen leider nicht zur Verfügung. Autor Titel Typ Dokument Inhaltsverzeichnis Inhalt Weber, E. H.; Weber, W. Artikel Coriolis, C. Artikel Seebeck, August Artikel Liebig, J. Artikel Braconnot, H. Artikel Boullay, P. Artikel Lenz, E. Artikel Anon. Artikel Frick Artikel Rose, Heinrich Artikel Anon. Artikel Anon. Artikel Soubeiran, E. Artikel Bussy Artikel Weber, Wilhelm Artikel Nobili, Leopold Artikel Nobili, Leopold Beschreibung eines Thermo-Multiplicators oder elektrischen Thermoskops Artikel Pearsall, Th. J. Artikel Daniell, J. F. Artikel Brunner, C. Artikel Erman Jr. Artikel Savart, Felix Artikel Plateau, J. Artikel Dove, H. W. Artikel Kobell, Fr. v. Artikel Wittstock Artikel Pelouze, J. Artikel Berzelius, J. J. Artikel Anon. Mittel, die Gegenwart von Chlormetallen in Brommetallen aufzufinden Artikel Artikel Kobell, Franz v. Artikel Kobell, Franz v.

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