Search results

Page title matches

• Absolute zero
  '''Absolute zero''' is the point at which no further [[heat]] can be removed from an object. ...ve zero points vastly above this theoretical lowest possible temperature. Absolute zero corresponds to −273.15 °C on the Celsius temperature scale and to −459
  2 KB (249 words) - 20:01, 18 September 2021
• Absolute zero/Definition
  101 bytes (16 words) - 02:32, 14 December 2009
• Absolute zero/Bibliography
  | title = The quest for absolute zero the meaning of low temperature physics | title = Absolute zero and the conquest of cold
  391 bytes (47 words) - 15:11, 3 January 2010
• Absolute zero/External Links
  *[http://www.pbs.org/wgbh/nova/zero/ PBS NOVA -Absolute Zero]
  365 bytes (53 words) - 02:47, 14 December 2009
• Absolute zero/Related Articles
  296 bytes (38 words) - 02:59, 14 December 2009

Page text matches

• Absolute zero/Bibliography
  | title = The quest for absolute zero the meaning of low temperature physics | title = Absolute zero and the conquest of cold
  391 bytes (47 words) - 15:11, 3 January 2010
• Kelvin (unit)
  ...opic composition of water.</ref>. Zero kelvin (0 K) is the thermodynamic [[absolute zero]]. In some disciplines, the term ''absolute temperature'' indicates the use ...F) equal to 273.15 K, and the increment of 1.8°F equal to one kelvin; thus absolute zero is -459.67°F.
  2 KB (241 words) - 13:38, 6 December 2022
• Cold probe (NMR)/Definition
  ...and receiving probe whose electronics are cooled to 15-25 degrees above [[absolute zero]].
  154 bytes (20 words) - 12:21, 8 November 2008
• Absolute zero/External Links
  *[http://www.pbs.org/wgbh/nova/zero/ PBS NOVA -Absolute Zero]
  365 bytes (53 words) - 02:47, 14 December 2009
• William Thomson, 1st Baron Kelvin/Definition
  (1824-1907) British scientist who developed the concept of [[absolute zero]] and devised a [[temperature]] scale based on it, which is now [[Kelvin (u
  213 bytes (30 words) - 17:04, 13 December 2009
• Absolute zero
  '''Absolute zero''' is the point at which no further [[heat]] can be removed from an object. ...ve zero points vastly above this theoretical lowest possible temperature. Absolute zero corresponds to −273.15 °C on the Celsius temperature scale and to −459
  2 KB (249 words) - 20:01, 18 September 2021
• Rankine (unit)/Definition
  A unit of [[temperature]], defined by [[absolute zero]] being at 0 degrees (°R), with 1°R being equal to 1°F ([[Fahrenheit (un
  308 bytes (44 words) - 18:44, 12 December 2009
• Kelvin (unit)/Definition
  Unit of [[temperature]], with 0 degrees set to [[absolute zero]] and the difference between the [[melting point|melting]] and [[boiling po
  284 bytes (40 words) - 15:57, 13 December 2009
• Kelvin (unit)/Related Articles
  {{r|Absolute zero}}
  509 bytes (59 words) - 15:50, 13 December 2009
• Celsius (unit)/Related Articles
  {{r|Absolute zero}}
  467 bytes (53 words) - 23:35, 13 December 2009
• Helium/Melting point
  ...annot be solidified by lowering the temperature. It remains liquid down to absolute zero at ordinary pressures, but will readily solidify by increasing the pressure
  549 bytes (84 words) - 22:08, 14 April 2011
• Fahrenheit (unit)/Related Articles
  {{r|Absolute zero}}
  528 bytes (62 words) - 18:14, 12 December 2009
• Rankine (unit)/Related Articles
  {{r|Absolute zero}}
  566 bytes (66 words) - 18:16, 12 December 2009
• Temperature/Related Articles
  {{r|Absolute zero}}
  729 bytes (87 words) - 13:53, 20 December 2009
• Celsius (unit)
  ...the temperature zero degrees Celsius (0 °C) to be exactly 273.15 K, thus [[absolute zero]] is -273.15 °C.
  2 KB (339 words) - 11:35, 2 February 2023
• Rankine (unit)
  ...Fahrenheit]]. As with the [[Kelvin]] scale, zero in the Rankine scale is [[absolute zero]]. A temperature of −459.67 °F is exactly 0 °R.
  844 bytes (117 words) - 19:15, 28 December 2012
• Fahrenheit (unit)
  ...ater is 212 °F, placing those two reference points exactly 180 °F apart. [[Absolute zero]] in the Fahrenheit scale is −459.67 °F. ...water is 100 °C, placing those two reference points exactly 100 °C apart. Absolute zero in the Celsius scale is 273.15 °C.
  3 KB (386 words) - 13:23, 2 February 2023
• William Thomson, 1st Baron Kelvin
  ..., was a [[Great Britain|British]] scientist who developed the concept of [[absolute zero]] and devised a temperature scale based on it, which is now named in his ho
  931 bytes (144 words) - 14:01, 18 December 2009
• Cold probe (NMR)
  ...ing probe in which the electronics are cooled to about 15-25 degrees above absolute zero. By doing this the electronic noise normally associated with electronic ci
  957 bytes (151 words) - 15:21, 2 August 2008
• Open Knowledge Conference/Program/The Post-Analogue World
  * The fundamental shift where the cost of information will be absolute zero.
  2 KB (330 words) - 09:19, 24 April 2010
• Laws of thermodynamics
  ;[[Third law of thermodynamics]], about [[absolute zero]] [[temperature]]<nowiki>:</nowiki>: <blockquote>As a system [[Asymptotic|asymptotically]] approaches absolute zero of temperature all processes virtually cease and the entropy of the system
  6 KB (873 words) - 06:20, 29 June 2010
• Ideal gas law
  ...xis at about &minus;273 [[Celsius|°C]]. This temperature is defined as the absolute zero temperature. Since any real gas would [[liquefaction|liquefy]] before reach ...in statistics itself needs only to be applied at temperatures close to the absolute zero. For higher temperatures Bose-Einstein statistics goes over into [[Boltzman
  14 KB (2,204 words) - 15:26, 20 November 2022
• Temperature conversion
  |'''Absolute zero'''||0 K||−273.15 °C||−459.67 °F||0 °R
  3 KB (426 words) - 10:37, 17 October 2021
• Temperature
  ...The thermal motions of atoms are ''very'' fast and temperatures close to [[absolute zero]] are required to directly observe them. For instance, when scientists at ...sic” (non-[[Quantum mechanics|quantum mechanical]]) sense. By definition, absolute zero is a temperature of precisely 0 [[kelvin]]s (–273.15 [[Celsius (unit)|°C
  23 KB (3,670 words) - 05:52, 15 March 2024
• Thermodynamics
  * [[Third law of thermodynamics]], about [[absolute zero]] [[temperature]] ::As a system [[asymptotically]] approaches absolute zero of temperature all processes virtually cease and the entropy of the system
  21 KB (3,073 words) - 20:08, 1 September 2020
• Vacuum (classical)
  </ref> It is an idealization, like [[absolute zero]] for temperature, that can be approached, but never actually realized:<ref
  10 KB (1,488 words) - 12:29, 16 November 2011
• Hydrogen
  ...' of the molecule can be described by classical physics. Very close to the absolute zero (mK or less) cooperative quantum effects, like Bose-Einstein condensation, ...udy of superconductivity, as its boiling point is only 20.28 degrees above absolute zero.
  20 KB (3,081 words) - 21:57, 31 March 2022
• Benchmark quantities
  | Absolute zero
  45 KB (6,572 words) - 12:36, 9 March 2024
• Water
  ...wn substance exhibits this peculiar behavior as it was assumed that at the absolute zero temperature every molecule would be totally frozen, having an energy of 0 J
  24 KB (3,756 words) - 01:56, 29 April 2021
• Zero-point energy
  ...bservable in [[nanoscale device]]s. Also, as the temperature is lowered to absolute zero, helium remains a liquid, rather than freezing to a solid, owing to the irr
  16 KB (2,522 words) - 14:33, 14 May 2023
• Vacuum (quantum electrodynamic)
  ...principle.<ref name=Longo/><ref name=Dirac/> It is an idealization, like [[absolute zero]] for temperature, that can be approached, but never actually realized:<ref
  19 KB (2,820 words) - 09:33, 18 February 2012