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  • ...aves passing through small openings will tend to 'bend' towards the edges. Diffraction applies to virtually all kinds of waves including sound, [[light]], and oth ...wise opaque screen. Some distance behind the slit is a screen on which the diffraction pattern can be observed. The slit has a width ''b'' and a height which is l
    12 KB (2,005 words) - 19:28, 10 September 2021
  • 98 bytes (13 words) - 12:24, 19 October 2010
  • ...]]. In many cases, corresponding techniques employing neutron or electron diffraction may be used to elucidate similar structural information. ...constructive interference. The angular position of the peaks, now termed "diffraction peaks" or "Bragg peaks", may be expressed by [[Bragg's Law]]:
    3 KB (423 words) - 03:44, 1 November 2010
  • 201 bytes (22 words) - 09:04, 1 November 2010
  • 12 bytes (1 word) - 01:13, 16 November 2007
  • 227 bytes (26 words) - 03:41, 29 April 2009
  • {{r|Diffraction}} Auto-populated based on [[Special:WhatLinksHere/X-ray diffraction]]. Needs checking by a human.
    635 bytes (84 words) - 03:46, 1 November 2010

Page text matches

  • An ionizing type of [[electromagnetic radiation]] whose [[absorption]] or [[diffraction]] often used for structural investigations of [[matter]].
    181 bytes (20 words) - 08:38, 22 February 2010
  • {{r|Diffraction}} Auto-populated based on [[Special:WhatLinksHere/X-ray diffraction]]. Needs checking by a human.
    635 bytes (84 words) - 03:46, 1 November 2010
  • ...]]. In many cases, corresponding techniques employing neutron or electron diffraction may be used to elucidate similar structural information. ...constructive interference. The angular position of the peaks, now termed "diffraction peaks" or "Bragg peaks", may be expressed by [[Bragg's Law]]:
    3 KB (423 words) - 03:44, 1 November 2010
  • {{r|Diffraction}}
    308 bytes (39 words) - 17:29, 19 February 2011
  • {{r|X-ray diffraction}}
    494 bytes (63 words) - 05:04, 21 September 2009
  • {{r|X-ray diffraction}}
    468 bytes (60 words) - 19:38, 11 January 2010
  • {{r|X-ray diffraction}}
    556 bytes (73 words) - 17:13, 11 January 2010
  • {{r|X-ray diffraction}}
    800 bytes (101 words) - 18:22, 11 January 2010
  • ...cally, and the ''wave-like behaviors'' include refraction, interference, [[diffraction]], and reflection. ===Diffraction===
    6 KB (897 words) - 19:10, 5 September 2021
  • {{r|Diffraction||**}}
    926 bytes (120 words) - 06:10, 10 March 2024
  • ===Resolution and diffraction===
    4 KB (723 words) - 05:40, 20 November 2009
  • {{r|X-ray diffraction}}
    1 KB (164 words) - 12:47, 24 May 2008
  • ==X-ray diffraction== {{r|X-ray diffraction}}
    6 KB (839 words) - 11:43, 31 October 2021
  • ...aves passing through small openings will tend to 'bend' towards the edges. Diffraction applies to virtually all kinds of waves including sound, [[light]], and oth ...wise opaque screen. Some distance behind the slit is a screen on which the diffraction pattern can be observed. The slit has a width ''b'' and a height which is l
    12 KB (2,005 words) - 19:28, 10 September 2021
  • While the complex [[diffraction]] theory was not yet known, Lockheed's Skunk Works were aware that the engi ===Diffraction concept===
    8 KB (1,162 words) - 10:07, 10 February 2023
  • ==Example: Diffraction patterns== {{Image|Double-slit diffraction pattern.png|right|200px|Diffraction pattern of a double slit has a single-slit envelope.}}
    12 KB (1,810 words) - 11:41, 18 June 2012
  • ...f><ref>[http://www.launc.tased.edu.au/online/sciences/Physics/diffrac.html Diffraction – Huygen’s Principle] Launceston College, University of Tasmania</ref>< ...ight bands and the dark bands there is some amount of light due, again, to diffraction.<ref>[http://www.colorado.edu/physics/2000/schroedinger/two-slit2.html Clas
    14 KB (2,229 words) - 06:14, 17 March 2014
  • Using the rule, a physical equation such as the equation for [[diffraction]] minima:
    2 KB (368 words) - 20:13, 29 January 2022
  • ...[[nuclear microscopy (HEFIB)]], [[Rutherford backscattering]], [[neutron diffraction]], etc.). ...cterization (materials science)|Materials Characterization]] --- such as [[diffraction]] with [[x-rays]], [[electrons]], or [[neutrons]], and various forms of [[s
    11 KB (1,457 words) - 03:51, 1 November 2010
  • Sziklas, E.A., Siegman, A.E. Diffraction calculations using fast Fourier transform methods. Okan Ersov. Diffraction, Fourier Optics and Imaging. November 2006. ISBN: 978-0-471-23816-4, 413 pa
    9 KB (1,368 words) - 11:59, 8 September 2020
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