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  • ...lent to the [[Boltzmann constant]] (''k<sub>B</sub>'') times [[Avogadro's constant]] (''N''): ''R'' = ''k''<sub>B</sub>''N''<sub>A</sub>. ...urate 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) - 21:14, 14 October 2013
  • ...eal gas law and the Nernst equation, and it is equivalent to the Boltzmann constant, but expressed in units of energy
    275 B (44 words) - 02:26, 4 September 2009
  • 12 B (1 word) - 22:16, 27 January 2008
  • *[http://www.katmarsoftware.com/gconvals.htm Values of the Universal Gas Constant R] ...//pete.metu.edu.tr/PETE/mahmut/pete216/gas-constants.pdf Values of the gas constant in different unit systems]
    217 B (33 words) - 07:34, 2 April 2008
  • *[[Ideal gas law]]
    60 B (8 words) - 06:55, 2 April 2008

Page text matches

  • #REDIRECT[[Molar gas constant]]
    31 B (4 words) - 06:35, 21 February 2010
  • #REDIRECT[[Molar gas constant]]
    31 B (4 words) - 03:27, 20 February 2010
  • #REDIRECT[[Molar gas constant]]
    31 B (4 words) - 06:34, 21 February 2010
  • ...lent to the [[Boltzmann constant]] (''k<sub>B</sub>'') times [[Avogadro's constant]] (''N''): ''R'' = ''k''<sub>B</sub>''N''<sub>A</sub>. ...urate 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) - 21:14, 14 October 2013
  • The '''molar volume''' (symbol '''''V'''''<sub>m</sub>) of a substance is the [[volume ( ...(m<sup>3</sup>/kmol) or cubic decimetres per mol (dm<sup>3</sup>/mol) for gases and as centimetres per mole (cm<sup>3</sup>/mol) for liquids and solids.
    6 KB (890 words) - 07:36, 13 January 2010
  • ...conditions of gas temperature and pressure|reference conditions]] used for gas stoichiometric calculations are taken to be a temperature of 0 °[[Celsius ...ts involved in chemical reactions by using, for the most part, the [[ideal gas law]].<ref>{{cite book|author=John Olmstead III and Gregory M. Williams|tit
    8 KB (1,289 words) - 03:35, 21 June 2010
  • ...because gas volumes vary with the [[temperature]] and [[pressure]] of the gas. ...sure]] (see Table 1 below). For that reason, simply stating gas volumes or gas volumetric flow rates are at ''standard conditions'' or at ''STP (Standard
    17 KB (2,506 words) - 04:07, 18 February 2010
  • {{r|Ideal gas law}} {{r|Gas compressor}}
    276 B (36 words) - 06:18, 16 September 2008
  • ...rough a de Laval nozzle used to produce supersonic velocity of the exhaust gases from a rocket engine.}} ...t of the hot inlet gas [[Heat|heat energy]] that is converted into exhaust gas [[kinetic energy]].
    10 KB (1,535 words) - 18:11, 23 October 2021
  • {{Image|Compressibility Factors.png|right|194px|Figure 1: Example graphs of gas compressibility factors}} ...io of the actual volume of a real gas to the volume predicted by the ideal gas at the same temperature and pressure as the actual volume.
    23 KB (3,673 words) - 22:14, 25 August 2013
  • ...]], [[petrochemical]] plants, [[natural gas processing]] plants, oil and [[gas]] transportation [[Pipeline transport|pipelines]], [[chemical plant]]s, or ...f the calculation methods used for determining the mass flow rate at which gaseous pollutants may be accidentally released. Given those mass flow rates, [
    19 KB (3,093 words) - 20:58, 27 July 2014
  • ...]], [[petrochemical]] plants, [[natural gas processing]] plants, oil and [[gas]] transportation [[Pipeline transport|pipelines]], [[chemical plant]]s, and ...f the calculation methods used for determining the mass flow rate at which gaseous pollutants may be accidentally released. Given those mass flow rates, [
    19 KB (3,081 words) - 18:47, 12 August 2013
  • {{Image|Compressibility Factors.png|right|194px|Figure 1: Example graphs of gas compressibility factors}} ...io of the actual volume of a real gas to the volume predicted by the ideal gas at the same temperature and [[pressure]] as the actual volume.
    23 KB (3,690 words) - 22:16, 25 August 2013
  • ...val nozzle]], an [[orifice plate]] hole, a leak in a gas pipeline or other gas container, a [[rocket engine]] exhaust nozzle, etc.</ref> into a lower pres ...e that although the gas velocity becomes choked, the mass flow rate of the gas can still be increased by increasing the upstream pressure or by decreasing
    12 KB (1,845 words) - 05:44, 14 April 2012
  • ...[Avogadro's constant]] ''N''<sub>A</sub>. It can be thought of as the gas constant for a single [[molecule]] (or even for an arbitrary particle in a [[colloid The Boltzmann constant is illustrated here in the equation for the [[translational kinetic energy]
    1 KB (229 words) - 00:34, 28 November 2010
  • ...nfusingly symbolized by ''S'', as in extensive entropy. The dimensions of molar entropy are energy per absolute temperature and number of moles [SI unit: ...f 10<sup>23</sup>&times;''k''<sub>B</sub> &asymp; ''R'', the [[molar gas constant]].
    36 KB (5,928 words) - 15:21, 8 July 2019
  • ...le, the [[concentration]] of [[nitrogen oxides]] (i.e., NOx) in the [[flue gas]] from an industrial [[furnace]] can be converted to a [[mass]] flow rate e ...y volume = 10 ppmv = (10 volumes of NOx) / (10<sup>6</sup> volumes of flue gas)
    4 KB (683 words) - 03:39, 12 January 2010
  • ...align="center" style="background:#cccccc;"| Specific heat ratio of various gases<ref>{{cite book|author=Frank M. White|title=Fluid Mechanics|edition= Four | bgcolor="#E0E0E0" align="center" | Gas
    10 KB (1,457 words) - 21:09, 23 September 2013
  • ...align="center" style="background:#cccccc;"| Specific heat ratio of various gases<ref>{{cite book|author=Frank M. White|title=Fluid Mechanics|edition= Four | bgcolor="#E0E0E0" align="center" | Gas
    10 KB (1,459 words) - 21:10, 23 September 2013
  • {{r|Ideal gas law}} {{r|Molar gas constant}}
    531 B (73 words) - 21:36, 11 January 2010

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