Daniel Gabriel Fahrenheit: Difference between revisions

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Daniel Gabriel Fahrenheit^[1] (14 May 1686 – 16 September 1736) was a physicist and engineer who determined a temperature scale now named after him.

Fahrenheit was born in 1686 in Gdańsk (German: Danzig), Royal Prussia, a province of the Polish-Lithuanian Commonwealth^[2], but lived most of his life in the Dutch Republic. The Fahrenheits were a Hanse merchant family who had lived in several Hanseatic cities. Fahrenheit's great-grandfather had lived in Rostock, and research suggests that the Fahrenheit family originated in Hildesheim.^[3] Daniel's grandfather moved from Kneiphof (Knipawa) (in Königsberg (Królewiec)) to Danzig and settled there as a merchant in 1650. His son, Daniel Fahrenheit (the father of the subject of this article), married Concordia (widowed name, Runge), daughter of the well-known Danzig business family of Schumann. Daniel Gabriel was the eldest of the five Fahrenheit children (two sons, three daughters) who survived childhood. His sister, Virgina Elisabeth Fahrenheit, married Benjamin Ephraim Krueger of a patrician family of Danzig.^[4]

At age 16, Daniel Gabriel Fahrenheit began training as a merchant in Amsterdam after his parents died on August 14 in 1701 from accidentally eating poisonous mushrooms. However, Fahrenheit's interest in natural science caused him to begin studies and experimentation in that field. From 1707, he traveled to Berlin, Halle, Leipzig, Dresden, Kopenhagen, and also to his hometown, where his brother still lived. During that time, Fahrenheit met or was in contact with Ole Rømer, Christian Wolff, and Gottfried Leibniz. In 1717, Fahrenheit settled in The Hague with the trade of glassblowing, making barometers, altimeters, and thermometers. From 1718 onwards, he lectured in chemistry in Amsterdam. He visited England in 1724 and became a member of the Royal Society.^[5] Fahrenheit died in The Hague and was buried there at the Kloosterkerk (Cloister Church).

According to Fahrenheit's 1724 article^[6][7], he determined his scale by reference to three fixed points of temperature. The lowest temperature was achieved by preparing a frigorific mixture of ice, water, and ammonium chloride (a salt), and waiting for it to reach equilibrium. The thermometer then was placed into the mixture and the liquid in the thermometer allowed to descend to its lowest point. The thermometer's reading there was taken as 0 °F. The second reference point was selected as the reading of the thermometer when it was placed in still water when ice was just forming on the surface.^[8] This was assigned as 32 °F. The third calibration point, taken as 96 °F, was selected as the thermometer's reading when the instrument was placed under the arm or in the mouth.

Fahrenheit noted that mercury boils around 600 degrees on this temperature scale. Work by others showed that water boils about 180 degrees above its freezing point. The Fahrenheit scale later was redefined to make the freezing-to-boiling interval exactly 180 degrees^[6], a convenient value as 180 is a highly composite number, meaning that it is evenly divisible into many fractions. It is because of the scale's redefinition that normal body temperature today is taken as 98.6 degrees, whereas it was 96 degrees on Fahrenheit's original scale.^[9]

Until the switch to the Celsius scale, the Fahrenheit one was widely used in Europe. It is still used for everyday temperature measurements by the general population in the United States and Belize and, less so, in the UK.^[10]

• Fahrenheit hydrometer

• Bolton, Henry Carrington (1900). Evolution of the Thermometer, 1592-1743. Easton, Pennsylvania: The Chemical Publishing Company. pp. 66–79.
• Fahrenheit, D. G. (1724). "Experimenta circa gradum caloris liquorum nonnullorum ebullientium instituta (Experiments done on the degree of heat of a few boiling liquids)". Philosophical Transactions (London). 33: 1.
• Fahrenheit, D. G. (1724). "Experimenta et Observationes de Congelatione aquae in vacuo factae". Philosophical Transactions (London). 33: 78. doi:10.1098/rstl.1724.0016. (Latin)
• Klemm, Friedrich (1959), "Daniel Gabriel Fahrenheit", Neue Deutsche Biographie (in German), vol. 4, Berlin: Duncker & Humblot, pp. 746–747
• Kops, J (1976), "Who was G.D. Fahrenheit?", Zdravotnická pracovnice, vol. 26, no. 2 (published 1976 Feb), pp. 118–9, PMID 775856 {{citation}}: Check date values in: |publication-date= (help) (Czech)
• Lommel (1877), "Fahrenheit, Gabriel Daniel", Allgemeine Deutsche Biographie (in German), vol. 6, Leipzig: Duncker & Humblot, p. 535
• Friedrich Klemm (1959), "Daniel Gabriel Fahrenheit", Neue Deutsche Biographie (in German), vol. 4, Berlin: Duncker & Humblot, pp. 746–747
• Middleton, W. E. Knowles (1966). A History of the Thermometer and its Use in Meteorology. Baltimore, Maryland: Johns Hopkins Press.
• Sorokina, T S (1986), "Creators of medical thermometry (on the 300th anniversary of the birth of Gabriel Daniel Fahrenheit--24 May 1686 and on the 350th anniversary of the death of Santorio Santorio--22 February 1636)", Klinicheskaia meditsina, vol. 64, no. 10 (published 1986 Oct), pp. 147–51, PMID 3543477 {{citation}}: Check date values in: |publication-date= (help) (Russian)
• Van Der Star, P., ed. (1984), Fahrenheit's Letters to Leibniz and Boerhaave, Editions Rodopi

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• Letter from Daniel Gabriel Fahrenheit (scan) to Carl Linnaeus, 7 May 1736 n.s., [1] Template:De icon
• Senese, Fred (2005). "Why isn't 0°F the lowest possible temperature for a salt/ice/water mixture?".

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