Water/Freezing point

Not measurable

Note: The freezing point of "pure" water is not measurable,^[1]^[2] whereas the melting point is. This is because pure water does not freeze without help of a solid crystallization kernel.^[3] Very cold (metastable) pure liquid water can be obtained by "supercooling" pure water. Pure liquid water has been reported to be possible down to various extremely low temperatures: (-38°C to -45°C^[4]) and (231 K=-43.9°C^[5]).

The standard unit of thermodynamic temperature, currently defined in the SI system as K (Kelvin), selects as the fundamental fixed point the triple point of water. One Kelvin, and therefore 1°C (Celsius), is specified by multiple standards bodies^[6]^[7] as the fraction 1/273.16 of waters triple point. Formerly (until 1954^[7] the definition developed by Anders Celsius had fixed the 0°C point at the "freezing point" of water.^[8] It is now generally accepted that while the phase transition from solid to liquid water occurs at a predictable temperature (namely 0°C), the transition from liquid to solid water does not. This is because the actual "Freezing" is dependent upon the previously mentioned nucleation as well as the temperature.

↑ For more information on why the freezing point of pure water is not measurable see:Revised Release on the Equation of State 2006 for H2O Ice Ih The International Association for the Properties of Water and Steam, The Netherlands, September 2009
↑ For more information on the colligative property of freezing point depression of water by adding of a solvent (such as a salt) see:Freezing Point Depression in Solutions Rod Nave, Department of Physics and Astronomy, Georgia State University
↑ Supercooled Water Demonstration,10/16/2004 from the website of the Argonne National Laboratory
↑ The relationship between liquid, supercooled and glassy water, Osamu Mishima & H. Eugene Stanley Nature, vol 396, 26 November 1998
↑ Supercooled and Glassy Water, Pablo G. Debenedetti and H. Eugene Stanley Physics Today, vol 40, June 2003
↑ Unit of thermodynamic temperature (kelvin) From the website of the Bureau International des Poids et Mesures (BIPM)
↑ ^7.0 ^7.1 Unit of thermodynamic temperature (kelvin) From the website of the National Institute of Standards and Technology (NIST)
↑ Anders Celsius From the website of the California Energy Commission

[1] For more information on why the freezing point of pure water is not measurable see:Revised Release on the Equation of State 2006 for H2O Ice Ih The International Association for the Properties of Water and Steam, The Netherlands, September 2009

[2] For more information on the colligative property of freezing point depression of water by adding of a solvent (such as a salt) see:Freezing Point Depression in Solutions Rod Nave, Department of Physics and Astronomy, Georgia State University

[3] Supercooled Water Demonstration,10/16/2004 from the website of the Argonne National Laboratory

[4] The relationship between liquid, supercooled and glassy water, Osamu Mishima & H. Eugene Stanley Nature, vol 396, 26 November 1998

[5] Supercooled and Glassy Water, Pablo G. Debenedetti and H. Eugene Stanley Physics Today, vol 40, June 2003

[6] Unit of thermodynamic temperature (kelvin) From the website of the Bureau International des Poids et Mesures (BIPM)

[NIST-7] 7.0 ^7.1 Unit of thermodynamic temperature (kelvin) From the website of the National Institute of Standards and Technology (NIST)

[8] Anders Celsius From the website of the California Energy Commission

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Water/Freezing point

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