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• Molar gas constant
  In [[chemistry]], [[chemical engineering]] and [[physics]], the '''molar gas constant''' (also called '''universal gas constant''') '''R''' is a fundamental phys ...s most accurate value is:<ref>[http://physics.nist.gov/cgi-bin/cuu/Value?r Molar gas constant] Obtained on January 19, 2012 from the [[NIST]] website</ref>
  5 KB (821 words) - 16:14, 14 October 2013
• Molar gas constant/Approval
  12 bytes (1 word) - 17:16, 27 January 2008
• Molar gas constant/Definition
  275 bytes (44 words) - 21:26, 3 September 2009
• Molar gas constant/Related Articles
  60 bytes (8 words) - 01:55, 2 April 2008
• Molar gas constant/External Links
  217 bytes (33 words) - 02:34, 2 April 2008

Page text matches

• Universal gas constant
  #REDIRECT[[Molar gas constant]]
  31 bytes (4 words) - 01:34, 21 February 2010
• Gas constant
  #REDIRECT[[Molar gas constant]]
  31 bytes (4 words) - 22:27, 19 February 2010
• Universal gas law constant
  #REDIRECT[[Molar gas constant]]
  31 bytes (4 words) - 01:35, 21 February 2010
• Compressibility factor (gases)/Related Articles
  {{r|Molar gas constant}}
  276 bytes (36 words) - 01:18, 16 September 2008
• Avogadro's constant/Related Articles
  {{r|Molar gas constant}}
  734 bytes (98 words) - 11:11, 11 January 2010
• Boltzmann constant/Related Articles
  {{r|Molar gas constant}}
  663 bytes (87 words) - 11:27, 11 January 2010
• Molar gas constant
  In [[chemistry]], [[chemical engineering]] and [[physics]], the '''molar gas constant''' (also called '''universal gas constant''') '''R''' is a fundamental phys ...s most accurate value is:<ref>[http://physics.nist.gov/cgi-bin/cuu/Value?r Molar gas constant] Obtained on January 19, 2012 from the [[NIST]] website</ref>
  5 KB (821 words) - 16:14, 14 October 2013
• Boltzmann constant
  ...Boltzmann constant''' ''k'' (also ''k''_B) is the ratio of the [[molar gas constant]] ''R'' to [[Avogadro's constant]] ''N''_A. It can be thought of
  1 KB (229 words) - 19:34, 27 November 2010
• Reference conditions of gas temperature and pressure/Related Articles
  {{r|Molar gas constant}}
  603 bytes (78 words) - 03:16, 18 December 2009
• Foot (unit)/Related Articles
  {{r|Molar gas constant}}
  531 bytes (73 words) - 16:36, 11 January 2010
• Mole (unit)/Related Articles
  {{r|Molar gas constant}}
  1 KB (161 words) - 11:55, 31 December 2022
• Equipartition theorem
  ...h> per [[mole]], where ''k'' is the [[Boltzmann constant]], ''R'' is the [[molar gas constant]] and ''T'' is [[temperature]] in [[kelvin]]."'''<ref>Fundamentals of Physi
  1 KB (156 words) - 09:42, 5 May 2009
• Molar volume
  |align=left|= the [[molar gas constant|universal gas law constant]] of 8.314472 m³·Pa·mol<sup>-1</su
  6 KB (890 words) - 02:36, 13 January 2010
• Joule/Related Articles
  {{r|Molar gas constant}}
  915 bytes (131 words) - 17:46, 11 January 2010
• Ideal gas law/Tutorials
  * <i> The molar gas constant</i> ''R'' = 0.082057 atm·L/(K·mol).
  4 KB (627 words) - 13:03, 16 January 2009
• Factor-label conversion of units
  * The [[Molar gas constant|universal gas law constant]] ''R'' is in Pa·m³/(mol·K)
  4 KB (683 words) - 22:39, 11 January 2010
• Clausius-Clapeyron relation
  * Phase I satisfies the [[ideal gas law]], where ''R'' is the [[molar gas constant]],
  9 KB (1,442 words) - 18:43, 19 February 2010
• Barometric formula
  ...sed); ''g'' is the constant [[gravitational acceleration]]; ''R'' is the [[molar gas constant]]; ''T'' is the absolute [[temperature]] (assumed to be independent of ''z'
  6 KB (1,076 words) - 18:14, 27 August 2009
• Gas stoichiometry
  The ideal gas law and the [[molar gas constant|universal molar gas constant]] of R = 8.205745 × 10&thinsp;⁻⁵ [[metre|m]]³&thin |align=left|= 8.205745 × 10&thinsp;⁻⁵ = universal molar gas constant, in m³&thinsp;<math>\cdot</math>&thinsp;atm&thinsp;<math>\cdot</
  8 KB (1,289 words) - 22:35, 20 June 2010
• Specific heat ratio/Citable Version
  where <math>R</math> is the [[molar gas constant]] (also known as the [[Universal gas constant]]). This equation can be re-a
  10 KB (1,457 words) - 16:09, 23 September 2013
• Specific heat ratio
  where <math>R</math> is the [[molar gas constant]] (also known as the [[Universal gas constant]]). This equation can be re-a
  10 KB (1,459 words) - 16:10, 23 September 2013
• Reference conditions of gas temperature and pressure
  |align=left|= the [[molar gas constant|universal gas law constant]] of 8.314472 m³·Pa·mol<sup>-1</su
  17 KB (2,520 words) - 10:32, 28 June 2023
• Mole (unit)
  ...8.314472 J mol^&minus;1 T^{&thinsp;&minus;1} ) is the [[molar gas constant]]. A mole of a real gas will deviate from this volume, but for many real ga
  5 KB (914 words) - 14:09, 2 February 2023
• Choked flow
  |align=left|= the [[Molar gas constant|universal gas law constant]] = 8314.5 Pa·m³/(kmole·[[kelvin|K]
  12 KB (1,845 words) - 16:31, 10 February 2024
• Ideal gas law
  where ''R'' is the [[molar gas constant]], defined as the product of the [[Boltzmann constant]] ''k''_B a ...t accurate value of R is:<ref>[http://physics.nist.gov/cgi-bin/cuu/Value?r Molar gas constant] Obtained from the [[NIST]] website. [http://www.webcitation.org/query?url=
  14 KB (2,204 words) - 15:26, 20 November 2022
• Air pollutant concentrations/Citable Version
  |align=left|= [[Molar gas constant|Universal gas constant]] in atm·m³/(kmol·K)
  12 KB (1,764 words) - 10:19, 30 July 2023
• Avogadro's number
  ...'', and Avogadro’s constant through ''k'' = ''N''_A/''R''. The [[molar gas constant]] ''R'' was already known in 1908 with high precision. Perrin in his first ...'h'' and [[Boltzmann's constant]] ''k''. From the ratio of ''k'' and the [[molar gas constant]] ''R'' Avogadro’s constant could be determined. Planck's estimate was
  19 KB (2,947 words) - 20:20, 27 December 2020
• Air pollutant concentrations
  |align=left|= [[Molar gas constant|Universal gas constant]] in atm·m³/(kmol·K)
  12 KB (1,812 words) - 10:42, 8 April 2024
• Accidental release source terms/Citable Version
  |align=left|= the [[Molar gas constant|universal gas law constant]] = 8314.5 Pa·m³/(kmole·[[kelvin|K]
  19 KB (3,081 words) - 13:47, 12 August 2013
• Accidental release source terms
  |align=left|= the [[Molar gas constant|universal gas law constant]] = 8314.5 Pa·m³/(kmole·[[kelvin|K]
  19 KB (3,099 words) - 10:42, 8 April 2024
• Entropy (thermodynamics)
  ...he order of 10²³&times;''k''_B &asymp; ''R'', the [[molar gas constant]]. where ''R'' is the [[molar gas constant]], ''p'' the pressure, and ''V'' the volume of the gas.
  36 KB (5,928 words) - 10:21, 8 July 2019
• Boiling point
  |align=left|= the [[molar gas constant]], 8.314 J '''·''' K^&ndash;1 '''·''' mol^&ndash;1
  15 KB (2,372 words) - 00:31, 28 October 2013
• Boiling point/Citable Version
  |align=left|= the [[molar gas constant]], 8.314 J '''·''' K^&ndash;1 '''·''' mol^&ndash;1
  15 KB (2,373 words) - 19:13, 5 August 2018
• Density (chemistry)
  ...ssibility factor (gases)|compressibility factor]], <math>R</math> is the [[molar gas constant]], <math>P</math> is the [[pressure]], <math>M</math> is the [[molecular ma
  14 KB (2,241 words) - 12:26, 26 October 2021
• Carnot cycle
  ...d 6 for a gas of arbitrarily shaped molecules. The quantity ''R'' is the [[molar gas constant]]. For the present discussion it is important to notice that ''U'' is a fun
  21 KB (3,684 words) - 10:27, 8 July 2019
• Vapor pressure/Citable Version
  |align=left|= [[Molar gas constant|Universal gas constant]]
  14 KB (2,121 words) - 09:40, 29 June 2023
• Vapor pressure
  |align=left|= [[Molar gas constant|Universal gas constant]]
  15 KB (2,319 words) - 10:47, 9 September 2023
• James Clerk Maxwell/Citable Version
  ...ulation. The energy of one mole of such gas is 3''RT''/2, with ''R'' the [[molar gas constant]] and ''T'' the absolute [[temperature]]. The entropy of one mole is ''S''(
  35 KB (5,595 words) - 12:26, 6 September 2013
• James Clerk Maxwell
  ...ulation. The energy of one mole of such gas is 3''RT''/2, with ''R'' the [[molar gas constant]] and ''T'' the absolute [[temperature]]. The entropy of one mole is ''S''(
  35 KB (5,571 words) - 12:27, 6 September 2013