Engineering:Timeline of temperature and pressure measurement technology

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This is a timeline of temperature and pressure measurement technology or the history of temperature measurement and pressure measurement technology.

Timeline

1500s

  • 1592–1593 — Galileo Galilei builds a device showing variation of hotness known as the thermoscope using the contraction of air to draw water up a tube.[1]

1600s

  • 1612 — Santorio Sanctorius makes the first thermometer for medical use.
  • 1617 — Giuseppe Biancani published the first clear diagram of a thermoscope
  • 1624 — The word thermometer (in its French form) first appeared in La Récréation Mathématique by Jean Leurechon, who describes one with a scale of 8 degrees.[2]
  • 1629 — Joseph Solomon Delmedigo describes in a book an accurate sealed-glass thermometer that uses brandy
  • 1638 — Robert Fludd the first thermoscope showing a scale and thus constituting a thermometer.
  • 1643 — Evangelista Torricelli invents the mercury barometer
  • 1654 — Ferdinando II de' Medici, Grand Duke of Tuscany, made sealed tubes part filled with alcohol, with a bulb and stem, the first modern-style thermometer, depending on the expansion of a liquid, and independent of air pressure[2]
  • 1669 — Honoré Fabri suggested using a temperature scale by dividing into 8 equal parts the interval between "greatest heat of summer" and melting snow.[3]
  • 1676 to 1679 — Edme Mariotte conducted experiments that under the French Academy of Science’s Paris Observatory, resulting in wide adoption of temperatures of deep cellars as a fixed reference point, rather than snow or water freezing points.[4]
  • 1685 — Giovanni Alfonso Borelli's posthumously published De motu animalium ["On the movements of animals"] reported that the temperature of blood in a vivisected stag is the same in the left ventricle of the heart, the liver, lungs and intestines.[5]
  • 1688 — Joachim Dalencé proposed constructing a thermometer by dividing into 20 equal degrees the interval between freezing water and melting butter, then extrapolating 4 degrees upwards and downwards.[6]
  • 1695 — Guillaume Amontons improved the thermometer.

1700s

  • 1701 — Newton publishes anonymously a method of determining the rate of heat loss of a body and introduces a scale, which had 0 degrees represent the freezing point of water, and 12 degrees for human body temperature. He used linseed oil as the thermometric fluid.[6]
  • 1701 — Ole Christensen Rømer made one of the first practical thermometers. As a temperature indicator it used red wine. (Rømer scale), The temperature scale used for his thermometer had 0 representing the temperature of a salt and ice mixture (at about 259 s).
  • 1709 — Daniel Gabriel Fahrenheit constructed alcohol thermometers which were reproducible (i.e. two would give the same temperature)
  • 1714 — Daniel Gabriel Fahrenheit invents the mercury-in-glass thermometer giving much greater precision (4 x that of Rømer). Using Rømer's zero point and an upper point of blood temperature, he adjusted the scale so the melting point of ice was 32 and the upper point 96, meaning that the difference of 64 could be got by dividing the intervals into 2 repeatedly.[7]
  • 1731 — René Antoine Ferchault de Réaumur produced a scale in which 0 represented the freezing point of water and 80 represented the boiling point. This was chosen as his alcohol mixture expanded 80 parts per thousand. He did not consider pressure.[8]
  • 1738 — Daniel Bernoulli asserted in Hydrodynamica the principle that as the speed of a moving fluid increases, the pressure within the fluid decreases. (Kinetic theory)
  • 1742 — Anders Celsius proposed a temperature scale in which 100 represented the temperature of melting ice and 0 represented the boiling point of water at 25 inches and 3 lines of barometric mercury height.[8] This corresponds to 751.16 mm,[9] so that on the present-day definition, this boiling point is 99.67 degrees Celsius.[10]
  • 1743 — Jean-Pierre Christin had worked independently of Celsius and developed a scale where zero represented the melting point of ice and 100 represented the boiling point but did not specify a pressure.[8]
  • 1744 — Carl Linnaeus suggested reversing the temperature scale of Anders Celsius so that 0 represented the freezing point of water and 100 represented the boiling point.
  • 1782 — James Six invents the Maximum minimum thermometer

1800s

1900s

See also

Main page: Outline of metrology and measurement

References

  1. Vincenzo Viviani (1654) Racconto istorico della vita del Sig.r Galileo Galilei
  2. 2.0 2.1 R. P. Benedict (1984) Fundamentals of Temperature, Pressure, and Flow Measurements, 3rd ed., ISBN:0-471-89383-8, p. 4
  3. Henry Carrington Bolton (1900): Evolution of the thermometer 1592–1743. The Chemical pub. co., Easton, Pennsylvania. pp. 25-78.
  4. Wright, William F. (February 2016). "Early evolution of the thermometer and application to clinical medicine". Journal of Thermal Biology 56: 18–30. doi:10.1016/j.jtherbio.2015.12.003. ISSN 0306-4565. PMID 26857973. http://dx.doi.org/10.1016/j.jtherbio.2015.12.003. 
  5. Borelli, Giovanni Alfonso (1989). "Proposition XCVI: Respiration was not instituted to cool and ventilate the flame and heat of the heart.". On the Movement of Animals. Berlin, Heidelberg: Springer Berlin Heidelberg. ISBN 978-3-642-73812-8. OCLC 851779618. https://www.worldcat.org/oclc/851779618. 
  6. 6.0 6.1 Middleton, W. E. Knowles (1966). A history of the thermometer and its use in meteorology. Baltimore: Johns Hopkins Press. pp. 57–59. ISBN 0-8018-7153-0. OCLC 413443. https://www.worldcat.org/oclc/413443. 
  7. Henry Carrington Bolton (1800): Evolution of the thermometer 1592–1743. The Chemical pub. co., Easton, Pennsylvania. pp. 60-79.
  8. 8.0 8.1 8.2 Henry Carrington Bolton (1800): Evolution of the thermometer 1592–1743. The Chemical pub. co., Easton, Pennsylvania. pp. 79-87.
  9. Köhler, Hilding (1944). "Unknown". Kungl. Vetenskapssamhällets i Uppsala årsbok: 111. 
  10. Middleton, W. E. Knowles (1966). A history of the thermometer and its use in meteorology. Baltimore: Johns Hopkins Press. pp. 95. ISBN 0-8018-7153-0. OCLC 413443. https://www.worldcat.org/oclc/413443. 
  11. Louis Figuier; Émile Gautier (1867). L'Année scientifique et industrielle. L. Hachette et cie.. pp. 485–486. https://archive.org/details/bub_gb_Cus0AAAAMAAJ. 
  12. Ronalds, B.F. (2016). Sir Francis Ronalds: Father of the Electric Telegraph. London: Imperial College Press. ISBN 978-1-78326-917-4. 
  13. Ronalds, B.F. (2016). "The Beginnings of Continuous Scientific Recording using Photography: Sir Francis Ronalds' Contribution". European Society for the History of Photography. http://www.eshph.org/blog/2016/04/19/1642/. Retrieved 2 June 2016. 
  14. Sir Thomas Clifford Allbutt, Encyclopædia Britannica

es:Termómetro#Los termómetros a través del tiempo