Émile Hilaire Amagat (2 January 1841 in Saint-Satur – 15 February 1915) was a French physicist.[1] His doctoral thesis, published in 1872, expanded on the work of Thomas Andrews, and included plots of the isotherms of carbon dioxide at high pressures.[2] Amagat published a paper in 1877 that contradicted the current understanding at the time, concluding that the coefficient of compressibility of fluids decreased with increasing pressure.[2] He continued to publish data on isotherms for a number of different gases between 1879 and 1882,[2] and invented the hydraulic manometer, which was able to withstand up to 3200 atmospheres, as opposed to 400 atmospheres using a glass apparatus.[3] In 1880 he published his law of partial volumes, now known as Amagat's law.

Émile Hilaire Amagat
Born(1841-01-02)2 January 1841
Died15 February 1915(1915-02-15) (aged 74)
Saint-Satur, France
NationalityFrench
Known forAmagat's law, Hydraulic Manometer
Scientific career
FieldsPhysics, Thermodynamics

For his studies, he developed many original piezometer devices. His originality went so far as to use the depth of a mine shaft being drilled to reach high pressures of 430 atmospheres in order to study the equations of state of certain gases.[4] His expertise led him to collaborate with the physicist Peter Tait in the development of a piezometer suitable for measuring the compressibility of liquids.[5]

Amagat was elected a member of the French Academy of Sciences on 9 June 1902.[6] A unit of number density, amagat, was named after him. He was elected a foreign member of the Royal Society of London in 1897.[7]

The French Academy of Sciences gave him the posthumous award of the Prix Jean Reynaud for 1915.[8]

In film

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References

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  1. ^ "Encyclopédie [personnage]: Amagat". Éditions Larousse. Retrieved 19 March 2023.
  2. ^ a b c Daintith, J.; Mitchell, S.; Tootill, E., eds. (1981). "Amagat, Emile Hilaire". Biographical Encyclopedia of Scientists. Vol. 1. New York: Facts on File. p. 15. ISBN 978-0-87196-396-3. OCLC 6709010. OL 24722815M.
  3. ^ Bridgman, P. W. (1909). "An absolute gauge for measuring high hydrostatic pressures". Physical Review. Series I. 28 (2). American Physical Society: 145. Bibcode:1909PhRvI..28..140.. doi:10.1103/PhysRevSeriesI.28.140.
  4. ^ Foulc, J.-N.; Aitken, F. (2020). "Une expérience scientifique au XIXe siècle dans le puits Verpilleux". Revue des Amis du Musée de la Mine de Saint-Étienne (in French). 59: 25–28. hal-03038309v1.
  5. ^ Aitken, F.; Foulc, J.-N. (2019). From Tait's Work on the Compressibility of Seawater to Equations-of-State for Liquids. From Deep Sea to Laboratory. Vol. 3. London: ISTE. doi:10.1002/9781119663362. ISBN 978-1-78630-376-9. S2CID 204258765.
  6. ^ Payen, J. (1970). "Amagat, Émile". In Gillispie, C. C. (ed.). Dictionary of Scientific Biography. Vol. 1. New York: Charles Scribner's Sons. pp. 128–129. ISBN 978-0-68410-114-9. OCLC 89822..
  7. ^ Boyle, R.; Amagat, E. H. (1899). The Laws of Gases. Harper's Scientific Memoirs. Vol. V. Translated by Barus, C. New York: Harper & Brothers Publishers. p. 107. OCLC 1738914. OL 14018425M.
  8. ^ "Académie des sciences – Séance du 18 décembre". Le Moniteur Scientifique du Docteur Quesneville (in French). 84 (903): 67–69. March 1917. OCLC 40372762.
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