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- ...up>-1</sup> or 20 kK. Photon energy and frequency are proportional to wavenumber: 10 kK corresponds to 1.24 eV. .... As radians and cycles are both considered dimensionless quantities, both wavenumber and wavevector are given in the same units of inverse length.1 KB (239 words) - 22:14, 23 October 2020
- 12 bytes (1 word) - 15:39, 19 December 2007
- 131 bytes (17 words) - 03:42, 29 April 2009
- Auto-populated based on [[Special:WhatLinksHere/Wavenumber]]. Needs checking by a human.514 bytes (66 words) - 21:37, 11 January 2010
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- ...up>-1</sup> or 20 kK. Photon energy and frequency are proportional to wavenumber: 10 kK corresponds to 1.24 eV. .... As radians and cycles are both considered dimensionless quantities, both wavenumber and wavevector are given in the same units of inverse length.1 KB (239 words) - 22:14, 23 October 2020
- Auto-populated based on [[Special:WhatLinksHere/Wavenumber]]. Needs checking by a human.514 bytes (66 words) - 21:37, 11 January 2010
- {{r|Wavenumber}}748 bytes (97 words) - 20:03, 11 January 2010
- {{r|Wavenumber}}2 KB (294 words) - 14:14, 6 April 2024
- ...tion can be described in terms of its [[Energy]] (E), [[frequency]] (f), [[wavenumber]] (v'), or [[wavelength]] (<math>\lambda</math>). These properties are all3 KB (372 words) - 10:35, 4 April 2024
- ...is the [[Laplace operator]], <math>k>0</math> is a constant, called the ''wavenumber'', <math>u:\mathbb R^n\to \mathbb C</math> is the unknown solution, <math>f4 KB (604 words) - 23:44, 30 November 2010
- </ref> and the [[wavenumber]] <math>k</math> is given by4 KB (711 words) - 09:31, 26 March 2011
- in [[Wavenumber|wave numbers]], cm<sup>−1</sup>, a unit that is often used in rotatio25 KB (3,876 words) - 03:13, 1 October 2013
- | [[wavenumber]] || m<sup>−1</sup>23 KB (3,590 words) - 20:32, 4 February 2024