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  • {{rpl|Dirac delta function|Delta function}}
    225 bytes (30 words) - 05:03, 26 September 2013
  • #REDIRECT [[Dirac delta function]]
    34 bytes (4 words) - 11:50, 23 December 2008
  • #REDIRECT [[Dirac delta function]]
    34 bytes (4 words) - 02:55, 12 January 2009
  • {{r|Dirac delta function}}
    523 bytes (68 words) - 15:54, 11 January 2010
  • {{r|Dirac delta function}}
    721 bytes (92 words) - 17:54, 11 January 2010
  • ...s the block function in the limit of zero width, see the article on the [[Dirac delta function]]. where δ(''u'') is the [[Dirac delta function]] and P stands for the [[Cauchy principal value]].
    5 KB (796 words) - 13:09, 24 December 2008
  • {{r|Dirac delta function}}
    965 bytes (124 words) - 17:23, 11 January 2010
  • {{r|Dirac delta function}}
    482 bytes (61 words) - 17:07, 11 January 2010
  • {{r|Dirac delta function}}
    554 bytes (70 words) - 16:01, 11 January 2010
  • {{r|Dirac delta function}}
    611 bytes (76 words) - 16:59, 11 January 2010
  • Nowadays, the physicist's definition of the Dirac delta function
    5 KB (786 words) - 21:28, 19 February 2010
  • ...the German mathematician [[Leopold Kronecker]] (1823 – 1891). See [[Dirac delta function]] for a generalization of the Kronecker delta to real ''i'' and ''j''.
    1 KB (209 words) - 07:59, 22 December 2008
  • {{r|Dirac delta function}}
    1,006 bytes (129 words) - 20:33, 11 January 2010
  • {{r|Dirac delta function}}
    629 bytes (80 words) - 17:36, 11 January 2010
  • ...total mass ''M''. In the limit of a point mass the distribution becomes a Dirac delta function. Heuristically, the Dirac delta function can be seen as an extension of the [[Kronecker delta]] from integral indice
    14 KB (2,220 words) - 12:28, 26 October 2021
  • {{r|Dirac delta function}}
    879 bytes (114 words) - 03:09, 8 March 2024
  • ...to the inhomogeneous Helmholtz equation with <math>f</math> equaling the [[Dirac delta function]], so <math>G</math> satisfies
    4 KB (604 words) - 23:44, 30 November 2010
  • where &delta;('''''x'''''-'''''y''''') is the [[Dirac delta function]]. Once ''G''('''''x''''','''''y''''') is known, any differential equation where in the last step the defining property of the Dirac delta function is used.
    10 KB (1,681 words) - 12:22, 11 June 2009
  • where the right hand side is the [[Dirac delta function]]. Now, the Laplace operator &nabla;<sup>2</sup> acting on the Coulomb pote ...ub>1</sub> at position '''r'''<sub>1</sub>, then &rho; simplifies to the [[Dirac delta function]],
    13 KB (2,015 words) - 10:16, 21 October 2021
  • ...ond term vanishes. Use for the first term the following equation for the [[Dirac delta function]],
    11 KB (1,756 words) - 14:38, 12 April 2009
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