Léon Foucault
Léon Foucault | |
---|---|
Léon Foucault (1819–1868) | |
Born |
18 September 1819 Paris, Kingdom of France |
Died |
11 February 1868 48) Paris, Second French Empire | (aged
Residence | France |
Nationality | French |
Fields | Physics |
Institutions | Paris Observatory |
Alma mater | University of Paris |
Known for | Foucault pendulum, eddy currents |
Notable awards | Copley Medal (1855) |
Jean Bernard Léon Foucault (French pronunciation: [ʒɑ̃ bɛʁnaʁ leɔ̃ fuko]) (18 September 1819 – 11 February 1868) was a French physicist best known for his demonstration of the Foucault pendulum, a device demonstrating the effect of the Earth's rotation. He also made an early measurement of the speed of light, discovered eddy currents, and is credited with naming the gyroscope (although he did not invent it).
Early years
Foucault was the son of a publisher in Paris, where he was born on 18 September 1819. After an education received chiefly at home, he studied medicine, which he abandoned in favour of physics due to a blood phobia.[1] He first directed his attention to the improvement of Louis Daguerre's photographic processes. For three years he was experimental assistant to Alfred Donné (1801–1878) in his course of lectures on microscopic anatomy.
With Hippolyte Fizeau he carried out a series of investigations on the intensity of the light of the sun, as compared with that of carbon in the arc lamp, and of lime in the flame of the oxyhydrogen blowpipe; on the interference of infrared radiation, and of light rays differing greatly in lengths of path; and on the chromatic polarization of light.
Middle years
In 1850, he did an experiment using the Fizeau–Foucault apparatus to measure the speed of light; it came to be known as the Foucault–Fizeau experiment, and was viewed as "driving the last nail in the coffin" of Newton's corpuscular theory of light when it showed that light travels more slowly through water than through air.[2]
In 1851, he provided an experimental demonstration of the rotation of the Earth on its axis (diurnal motion). This experimental setup had been used by Vincenzo Viviani as early as 1661, but became well known to the public by Foucault's work. Foucault achieved the demonstration by showing the rotation of the plane of oscillation of a long and heavy pendulum suspended from the roof of the Panthéon, Paris. The experiment caused a sensation in both the learned and popular worlds, and "Foucault pendulums" were suspended in major cities across Europe and America and attracted crowds. In the following year he used (and named) the gyroscope as a conceptually simpler experimental proof. In 1855, he received the Copley Medal of the Royal Society for his 'very remarkable experimental researches'. Earlier in the same year he was made physicien (physicist) at the imperial observatory at Paris.
In September 1855 he discovered that the force required for the rotation of a copper disc becomes greater when it is made to rotate with its rim between the poles of a magnet, the disc at the same time becoming heated by the eddy current or "Foucault currents" induced in the metal.
In 1857 Foucault invented the polarizer which bears his name,[3] and in the succeeding year devised a method of testing the mirror of a reflecting telescope to determine its shape.[4][5] The so-called "Foucault knife-edge test" allows the worker to tell if the mirror is perfectly spherical or has non-spherical deviation in its figure. Prior to Foucault's publication of his findings, the testing of reflecting telescope mirrors was a "hit or miss" proposition.
Foucault's knife edge test determines the shape of a mirror by finding the focal lengths of its areas, commonly called zones and measured from the mirror center. In the test, light from a point source is focused onto the center of curvature of the mirror and reflected back to a knife edge. The test enables the tester to quantify the conic section of the mirror, thereby allowing the tester to validate the actual shape of the mirror, which is necessary to obtain optimal performance of the optical system. The Foucault test is in use to this date, most notably by amateur and smaller commercial telescope makers as it is inexpensive and uses simple, easily made equipment.
With Charles Wheatstone’s revolving mirror he, in 1862, determined the speed of light to be 298,000 km/s – 10,000 km/s less than that obtained by previous experimenters and only 0.6% in error of the currently accepted value.
Later years
In 1862 Foucault was made a member of the Bureau des Longitudes and an officer of the Legion of Honour. He became a member of the Royal Society of London in 1864, and member of the mechanical section of the Institute a year later. In 1865 he published his papers on a modification of James Watt's centrifugal governor; he had for some time been experimenting with a view to making its period of revolution constant and developing a new apparatus for regulating the electric light. Foucault showed how, by the deposition of a transparently thin film of silver on the outer side of the object glass of a telescope, the sun could be viewed without injuring the eye. His chief scientific papers are to be found in the Comptes Rendus, 1847–1869. Near his death he returned to Roman Catholicism that he previously abandoned.[6]
Death and afterwards
Foucault died of what was probably a rapidly developing case of multiple sclerosis[7] on 11 February 1868 in Paris and was buried in the Montmartre Cemetery.
The asteroid 5668 Foucault was named for him.[8] His name is one of the 72 names inscribed on the Eiffel Tower.
Bibliography
Collected Works:
- Recueil des travaux scientifiques de Léon Foucault Volume One, Volume Two, 1878. (Université de Strasbourg) or Internet Archive (US)
- Donné & Foucault Atlas of medical micrographs 1845
References
- ↑ "Jean-Bertrand-Léon Foucault". Catholic Encyclopedia. New York: Robert Appleton Company. 1913.
- ↑ David Cassidy, Gerald Holton, James Rutherford (2002). Understanding Physics. Birkhäuser. ISBN 0-387-98756-8.
- ↑ Léon Foucault (August 17, 1857) "Nouveau polariseur en spath d'Island. Expérience de fluorescence" (New polarizer made of Icelandic spar. Fluorescence experiment.), Comptes rendus, vol. 45, pages 238–241. English translation: Léon Foucault (1857) "On a new polarizer of Iceland spar. Experiment on fluorescence.," The London, Edinburgh and Dublin Philosophical Magazine and Journal of Science, series 4, vol. 14, pages 552–555.
- ↑ L. Foucault (1858) "Description des procedes employes pour reconnaitre la configuration des surfaces optiques" (Description of the methods used to recognize the configuration of optical surfaces), Comptes rendus ... , vol. 47, pages 958–959.
- ↑ L. Foucault (1859) "Mémoire sur la construction des télescopes en verre argenté" (Memoir on the construction of reflecting telescopes), Annales de l'Observatoire impériale de Paris, vol. 5, pages 197–237.
- ↑ William Tobin (2003). The Life and Science of Léon Foucault: The Man Who Proved the Earth Rotates. Cambridge University Press. p. 272. ISBN 9780521808552.
- ↑ W. Tobin, The Life and Science of Léon Foucault, Cambridge University Press (2003).
- ↑ Schmadel, Lutz D.; International Astronomical Union (2003). Dictionary of minor planet names. Berlin; New York: Springer-Verlag. p. 480. ISBN 978-3-540-00238-3. Retrieved 9 September 2011.
Further reading
Wikimedia Commons has media related to Jean Bernard Léon Foucault. |
- Amir D. Aczel, Pendulum: Léon Foucault and the Triumph of Science, Washington Square Press, 2003, ISBN 0-7434-6478-8
- Umberto Eco, Foucault's Pendulum (trans. William Weaver). Secker & Warburg, 1989.
- William Tobin, Perfecting the Modern Reflector. Sky & Telescope, October 1987.
- William Tobin, Léon Foucault. Scientific American, July 1998.
- William Tobin, The Life and Science of Léon Foucault: The Man who Proved the Earth Rotates. Cambridge University Press, 2003. ISBN 0-521-80855-3
- Foucault Disk – Interactive Java Tutorial Foucault created this device showing how eddy currents work (National High Magnetic Field Laboratory)
- "Foucault and Measuring the Speed of Light in Water and in Air", analysis of his 1853 thesis (BibNum, click "À télécharger" for English text)
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