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- The '''Boltzmann constant''' ''k'' (also ''k''<sub>B</sub>) is the ratio of the [[molar gas constant] The Boltzmann constant is illustrated here in the equation for the [[translational kinetic energy]1 KB (229 words) - 19:34, 27 November 2010
- 12 bytes (1 word) - 14:43, 2 January 2008
- 141 bytes (19 words) - 02:21, 28 April 2009
- Auto-populated based on [[Special:WhatLinksHere/Boltzmann constant]]. Needs checking by a human.663 bytes (87 words) - 11:27, 11 January 2010
Page text matches
- #REDIRECT [[Boltzmann constant]]32 bytes (3 words) - 11:54, 22 January 2009
- The '''Boltzmann constant''' ''k'' (also ''k''<sub>B</sub>) is the ratio of the [[molar gas constant] The Boltzmann constant is illustrated here in the equation for the [[translational kinetic energy]1 KB (229 words) - 19:34, 27 November 2010
- ...as the ideal gas law and the Nernst equation, and it is equivalent to the Boltzmann constant, but expressed in units of energy275 bytes (44 words) - 21:26, 3 September 2009
- {{r|Boltzmann constant}}258 bytes (30 words) - 18:25, 27 August 2009
- {{r|Boltzmann constant}}892 bytes (119 words) - 12:49, 16 January 2009
- {{r|Boltzmann constant}}734 bytes (98 words) - 11:11, 11 January 2010
- Auto-populated based on [[Special:WhatLinksHere/Boltzmann constant]]. Needs checking by a human.663 bytes (87 words) - 11:27, 11 January 2010
- {{r|Boltzmann constant}}496 bytes (64 words) - 19:50, 11 January 2010
- : <math>\, k </math> is the [[Boltzmann constant]] and926 bytes (134 words) - 09:57, 16 January 2009
- ...lecule or <math> \frac{1}{2}\ RT</math> per [[mole]], where ''k'' is the [[Boltzmann constant]], ''R'' is the [[molar gas constant]] and ''T'' is [[temperature]] in [[ke1 KB (156 words) - 09:42, 5 May 2009
- {{r|Boltzmann constant}}460 bytes (58 words) - 16:21, 11 January 2010
- where ''k'' is the [[Boltzmann constant]]. Most noticeable in this expression are (i) the energy in an exponential,8 KB (1,247 words) - 12:22, 12 March 2011
- ...quations of state]] and the [[Nernst equation]]. It is equivalent to the [[Boltzmann constant]] (''k<sub>B</sub>'') times [[Avogadro's constant]] (''N''): ''R'' = ''k''5 KB (821 words) - 16:14, 14 October 2013
- {{r|Boltzmann constant}}2 KB (229 words) - 09:18, 6 March 2024
- | [[Boltzmann constant]]4 KB (537 words) - 09:19, 11 September 2022
- Boltzmann constant. Given Avogadro's number, this equation3 KB (437 words) - 10:19, 27 December 2020
- where ''R'' is the [[molar gas constant]], defined as the product of the [[Boltzmann constant]] ''k''<sub>B</sub> and [[Avogadro's constant]] ''N''<sub>A</sub>14 KB (2,204 words) - 15:26, 20 November 2022
- :<math>k_B</math> = the [[Boltzmann constant]]11 KB (1,729 words) - 05:20, 3 September 2013
- |align=left|= the [[Boltzmann constant]]13 KB (2,084 words) - 05:21, 3 September 2013
- ...e [[gas constant]], ''R'' = ''N''<sub>A</sub> ''k'', where ''k'' is the [[Boltzmann constant]] and ''N''<sub>A</sub> is [[Avogadro's constant]].16 KB (2,711 words) - 16:42, 23 September 2013
- ...e [[gas constant]], ''R'' = ''N''<sub>A</sub> ''k'', where ''k'' is the [[Boltzmann constant]] and ''N''<sub>A</sub> is [[Avogadro's constant]].18 KB (2,966 words) - 19:13, 10 March 2023
- where ''k''<sub>B</sub> is the [[Boltzmann constant]]. It is common to designate the ''partition function'' of the system of c36 KB (5,928 words) - 10:21, 8 July 2019
- ...ub>F</sub>'' is called the ''Fermi energy'' and ''k<sub>B</sub>'' is the [[Boltzmann constant]]. This occupancy function is plotted in the figure versus the energy ''E�19 KB (3,143 words) - 05:30, 9 September 2011
- ...article, the [[gravitation|gravitational acceleration]] ''g'', and the [[Boltzmann constant]] ''k''. For suspended Brownian particles one has to make a correction for19 KB (2,947 words) - 20:20, 27 December 2020
- ...>V_\mathrm{T} = \begin{matrix}\frac {kT}{ q}\end{matrix}</math> is the ''[[Boltzmann constant#Role in semiconductor physics: the thermal voltage|thermal voltage]]'', cal13 KB (2,071 words) - 10:15, 1 July 2011
- ...s proportional to exp(-E/k<sub>B</sub>T), where ''k<sub>B</sub>'' is the [[Boltzmann constant]] and ''T'' is the [[absolute temperature]]. Summing over the allowed value23 KB (3,481 words) - 14:29, 25 December 2010
- ...ltage''' (''k<sub>B</sub>T/q'' ≈ 25 mV at 290K, ''k<sub>B</sub>'' is the [[Boltzmann constant]]), ''I<sub>S</sub>'' = reverse saturation current, or scale current; ''V<s where ''V<sub>T</sub>'' = [[Boltzmann constant#Role in semiconductor physics: the thermal voltage|thermal voltage]] and ''25 KB (4,187 words) - 10:12, 22 June 2011
- ...e acceleration, ''c'' the [[speed of light]] in vacuum, and ''k'' is the [[Boltzmann constant]]. "Thus vacuum energy can be made observable by acceleration."<ref name=Br16 KB (2,522 words) - 14:33, 14 May 2023
- where ''V''<sub>T</sub> is the [[Boltzmann constant#Role in semiconductor physics: the thermal voltage|thermal voltage]].17 KB (2,850 words) - 20:14, 17 December 2010
- <math>k_{\rm B} </math> is the [[Boltzmann constant]]. Note that the right-hand side of Equation (1) does not depend on <math>~15 KB (2,338 words) - 08:12, 27 June 2010
- : ''T'' = Absolute temperature in Kelvin; <math>\quad</math> k = Boltzmann constant39 KB (6,024 words) - 04:54, 21 March 2024
- where ''k<sub>B</sub>'' is the [[Boltzmann constant]] and ''T'' is the temperature in [[Kelvin (unit)|kelvin]]s. At 290 K, ''V<20 KB (3,320 words) - 07:39, 23 October 2021
- : ''T'' = Absolute temperature in Kelvin; <math>\quad</math> k = Boltzmann constant41 KB (6,350 words) - 04:54, 21 March 2024
- ...factor]] exp(−''E''<sub>dip-dip</sub>/''kT''), where ''k'' is the [[Boltzmann constant]] and ''T'' the absolute temperature.56 KB (8,720 words) - 07:31, 20 April 2024
- * [[Boltzmann constant]]25 KB (3,396 words) - 13:29, 2 April 2024