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- {{r|Electromagnetic wave}}990 bytes (131 words) - 12:05, 6 March 2024
- {{r|Electromagnetic wave}}830 bytes (107 words) - 18:10, 11 January 2010
- {{r|Electromagnetic wave}}923 bytes (114 words) - 17:36, 17 April 2010
- ...agnetic research and the first person to demonstrate the transmission of [[electromagnetic wave]]s through space.2 KB (233 words) - 04:14, 30 November 2009
- {{r|Electromagnetic wave}}915 bytes (131 words) - 17:46, 11 January 2010
- {{r|Electromagnetic wave}}1 KB (148 words) - 16:47, 11 January 2010
- ...vices, on ships or closely cooperating aircraft, to produce high-intensity electromagnetic wave|electromagnetic radiation that can cause sensitive electrically initiated4 KB (599 words) - 07:30, 18 March 2024
- {{r|Electromagnetic wave}}1 KB (180 words) - 11:54, 31 December 2022
- {{r|Electromagnetic wave}}2 KB (211 words) - 09:35, 29 March 2024
- {{r|Electromagnetic wave}}2 KB (245 words) - 17:08, 22 March 2024
- ...dent [[magnetic field]]; the two time-dependent fields together form an [[electromagnetic wave|electromagnetic field]]. ...ld with an accompanying magnetic field is propagated through space as an [[electromagnetic wave]] at the same [[speed of light|speed as that of light]].6 KB (914 words) - 18:48, 30 October 2021
- The [[electromagnetic wave|electromagnetic (EM) field]] is of importance as a carrier of solar energy15 KB (2,576 words) - 00:07, 1 December 2010
- In [[physics]], an '''electromagnetic wave''' is a change, periodic in space and time, of an [[electric field]] '''E'' {{Image|Electromagnetic wave.png|right|550px|Fig. 1. Electromagnetic wave. Electric component (red) in plane of drawing; magnetic component (blue) in25 KB (3,994 words) - 17:54, 17 April 2010
- ...e can be thought of as rotating with the system ket, only that part of the electromagnetic wave that approximately co-rotates is kept; the counter-rotating component is di10 KB (1,685 words) - 12:22, 14 November 2007
- Consider an [[electromagnetic wave|electromagnetic field]] ('''E'''('''r''',''t''), '''B'''('''r''',''t'')).8 KB (1,395 words) - 02:07, 1 September 2009
- ...''quantization of the electromagnetic field''', the EM (electromagnetic) [[electromagnetic wave|field]] consists of discrete energy parcels, [[photon]]s. Photons are massl In [[electromagnetic wave|this article]] the electromagnetic energy density was computed that a 100kW23 KB (3,635 words) - 05:33, 1 April 2024
- ...operties is that the ratio of electric to magnetic field strengths in an [[electromagnetic wave]] propagating in classical vacuum is an exact value provided by NIST as the10 KB (1,488 words) - 12:29, 16 November 2011
- ...cillations of atoms or ions of a crystalline lattice. Also the energy of [[electromagnetic wave]]s in a cavity can be looked upon as the energy of a large set of harmonic10 KB (1,632 words) - 21:28, 11 September 2021
- ...loitation of signals are ubiquitous, for instance in the manipulation of [[electromagnetic wave|electromagnetic waves]] to carry the content of radio and television progra4 KB (713 words) - 01:42, 10 February 2010
- ...gy parcels are of size ''hν'', where ν is the [[frequency]] of the [[electromagnetic wave]]s.<ref>For black-body radiation ν is about 5×10<sup>12</sup> [[Hz]], s13 KB (1,900 words) - 10:49, 30 November 2009