Alfred Potier
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Alfred Potier (11 May 1840 - 8 May 1905) was a French
polymath A polymath or polyhistor is an individual whose knowledge spans many different subjects, known to draw on complex bodies of knowledge to solve specific problems. Polymaths often prefer a specific context in which to explain their knowledge, ...
who contributed to many theoretical and practical fields of science when this was rapidly expanding. His interests covered mainly
mathematical physics Mathematical physics is the development of mathematics, mathematical methods for application to problems in physics. The ''Journal of Mathematical Physics'' defines the field as "the application of mathematics to problems in physics and the de ...
, the nature of light and the ether, geology, electricity and
magnetism Magnetism is the class of physical attributes that occur through a magnetic field, which allows objects to attract or repel each other. Because both electric currents and magnetic moments of elementary particles give rise to a magnetic field, ...
and their practical applications in industry. His name appears in a little explored footnote inserted by Albert A. Michelson and Edward W. Morley in their famous
publication To publish is to make content available to the general public.Berne Convention, articl ...
.


Biography

Born in 1840, Potier entered the
École Polytechnique (, ; also known as Polytechnique or l'X ) is a ''grande école'' located in Palaiseau, France. It specializes in science and engineering and is a founding member of the Polytechnic Institute of Paris. The school was founded in 1794 by mat ...
at age 17, where in 1867 he became a physics teacher, and then in 1881 full Professor of Physics, succeeding Jamin and preceding Nobel Laureate
Henri Becquerel Antoine Henri Becquerel ( ; ; 15 December 1852 – 25 August 1908) was a French nuclear physicist who shared the 1903 Nobel Prize in Physics with Marie and Pierre Curie for his discovery of radioactivity. Biography Family and education Becq ...
. At the same time, he was member of the State Mining Engineers Corps, occupying the chair of Physics in the École des Mines where he taught
Henri Poincaré Jules Henri Poincaré (, ; ; 29 April 185417 July 1912) was a French mathematician, Theoretical physics, theoretical physicist, engineer, and philosophy of science, philosopher of science. He is often described as a polymath, and in mathemati ...
. Geological works included revisions of the geological map of France and submarine topographies in
Pas-de-Calais The Pas-de-Calais (, ' strait of Calais'; ; ) is a department in northern France named after the French designation of the Strait of Dover, which it borders. It has the most communes of all the departments of France, with 890, and is the ...
in order to examine the feasibility of a tunnel to England. These, and his valor during the German siege of Paris in 1870, earned him the
Légion d'honneur The National Order of the Legion of Honour ( ), formerly the Imperial Order of the Legion of Honour (), is the highest and most prestigious French national order of merit, both military and Civil society, civil. Currently consisting of five cl ...
. His other publications concerned Fresnel’s theories of light and the ether, diffraction of polarized light, elliptical reflection, magnetic rotational forces, or interference fringes. He contributed extensive notes to JC Maxwell’s treatise on electromagnetism, facilitating its reading in France. Potier was a member of many committees at the famous 1881 Universal Exposition in Paris, including the one that set the standards for units in electricity. The French Physics Society appointed Potier as president in 1884; the International Electricians Society did the same in 1895. In 1891 he was accepted into the French Academy of Science.


Speed of light

Following Thomas Young’s ideas, light was regarded in the 19th century to move as vibrations (undulations) in a substance called the
Luminiferous aether Luminiferous aether or ether (''luminiferous'' meaning 'light-bearing') was the postulated Transmission medium, medium for the propagation of light. It was invoked to explain the ability of the apparently wave-based light to propagate through empt ...
, contrary to Newton’s ideas that light itself was made of substantive corpuscles. Exploring the nature of this aether, Albert Michelson published in 1881 his laboratory experiments where he had light travel in the direction of the earth’s motion and perpendicular to it. Thus measured on the moving earth, he found no difference in the speed of light traveling with the earth or perpendicular to it. It would have fully conformed to rules prevailing in a Galilean invariance system of coordinates, also called Newtonian inertial system, which apply to moving material particles. In the 1887 paper, written with Edward Morley, Michelson amended the route of the perpendicular light from ab1 to ab: “It may be mentioned here that the error was pointed out to the author of the former paper by M.A. Potier, of Paris, in the winter of 1881.” When the instrument on the moving earth is observed from a stationary point outside earth, the mirror at b1 already moved to b while light was traveling there from a. “This meant that Michelson had overestimated by a factor of two the fringe shifts originally expected.” The mirror at c also moved forward at the same time, but this was not taken into account. It thus seemed that light traveled different distances at the same time, which led George FitzGerald and Hendrik Lorentz (Lorentz ether theory) to postulate that distances shortened and time dilated in direction of motion (FitzGerald-Lorentz contraction).


References

*Swenson LS. ''The Ethereal Aether''. Austin. University of Texas Press, 1972; p. 73. . * Holton G. '' Thematic Origins of Scientific Thought''. Cambridge. Harvard University Press, 1988; p. 283. . * Michelson AA, Morley EW. 1887. “On the relative motion of the earth and the luminiferous ether”. ''Am. J. of Science'', 3rd series, 34; 1887: 333-45. * Liénard A. 1908. “Alfred Potier”. http://www.annales.org/archives/x/potier.html. Retrieved 9/9/09. *Potier A. 1874. “Consequences de la formule de Fresnel àl’entrainement de l’ether par les milleux transparantes”. ''Journal de Physique'' (Paris); 3: 201-4. * Maxwell JC. 1885. ''Traité d’electricité et de magnétisme''. A. Curnu, A. Potier, E. Sarrau (eds.). Paris; Gauthier-Villars. * Michelson AA. 1881. “The relative motion of the Earth and the luminiferous ether”. ''American Journal of Science'', 3rd series; 22; pp. 120–29. * Barbour J. 1989. ''Absolute or Relative Motion''. Cambridge. Cambridge University Press. . {{DEFAULTSORT:Potier, Alfred French physicists 1840 births 1905 deaths École Polytechnique alumni Members of the French Academy of Sciences Officers of the Legion of Honour