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  • A '''matrix''' (plural "matrices") is a mathematical construct generally represented as ...ormation]] can be represented by a [[uniqueness|unique]] matrix, and every matrix represents a unique linear transformation.
    15 KB (2,209 words) - 02:10, 14 February 2010
  • ...ent]] for [[matrix multiplication]] and as the [[additive identity]] for [[matrix addition]]. It represents the zero [[linear map]]. ...may be denoted <math>\scriptstyle 0_{m,n}</math> for an ''m''&times;''n'' matrix, so (for example)
    1 KB (172 words) - 16:40, 6 February 2009
  • In [[matrix algebra]], a '''diagonal matrix''' is a [[square matrix]] for which only the entries on the main [[diagonal]] can be non-zero, and The [[matrix addition|sum]] and [[matrix multiplication|product]] of diagonal matrices are again diagonal, and the d
    2 KB (230 words) - 02:39, 7 January 2009
  • ...x conjugate|complex conjugate]] of the corresponding entry in the original matrix: or in matrix notation:
    6 KB (1,000 words) - 10:33, 3 February 2011
  • #REDIRECT [[Matrix#Matrix multiplication]]
    42 bytes (4 words) - 15:25, 12 December 2008
  • #REDIRECT [[Matrix]]
    20 bytes (2 words) - 02:08, 10 December 2008
  • #REDIRECT [[Matrix#Idempotent Matrix]]
    38 bytes (4 words) - 15:34, 12 December 2008
  • ...ath>A</math> of a [[Graph (mathematics)|graph]] ''G'' = (''V'',''E'') is a matrix used to determine the existence of a [[perfect matching]]: that is, a set o ...tices ''V'' has 2''n'' elements then the Tutte matrix is a 2''n'' × 2''n'' matrix A with entries
    2 KB (259 words) - 17:10, 28 October 2008
  • #REDIRECT [[Matrix inverse]]
    28 bytes (3 words) - 02:13, 10 December 2008
  • #REDIRECT [[Matrix#Symmetric matrix]]
    37 bytes (4 words) - 02:20, 10 December 2008
  • 12 bytes (1 word) - 19:54, 7 October 2007
  • #REDIRECT [[Resultant (algebra)#Sylvester matrix]]
    50 bytes (5 words) - 16:34, 17 December 2008
  • ...cation]]. Its entries are those of the [[Kronecker delta]]. The identity matrix represents the [[identity function]] as a [[linear map|linear operator]] on The identity matrix is also known as '''unit matrix''' because it possesses many of the properties of the multiplicative unit o
    1,020 bytes (136 words) - 10:39, 23 April 2009
  • #REDIRECT [[Matrix#Orthogonal matrix]]
    38 bytes (4 words) - 02:32, 10 December 2008
  • #REDIRECT [[Matrix#Square matrices]]
    36 bytes (4 words) - 14:38, 7 November 2008
  • 36 bytes (3 words) - 16:06, 10 December 2008
  • #REDIRECT [[Matrix#Operations]]
    31 bytes (3 words) - 07:39, 22 December 2008
  • 36 bytes (3 words) - 16:09, 10 December 2008
  • * ''Basic Matrix Theory'', Leonard E. Fuller, Prentice-Hall, 1962 * ''Matrix Computations'', Gene H.Golub and Charles F. Van Loan, John Hopkins Universi
    336 bytes (40 words) - 15:20, 14 November 2007
  • #REDIRECT [[Matrix#Scalar matrix]]
    34 bytes (4 words) - 09:39, 22 December 2008

Page text matches

  • ...ent]] for [[matrix multiplication]] and as the [[additive identity]] for [[matrix addition]]. It represents the zero [[linear map]]. ...may be denoted <math>\scriptstyle 0_{m,n}</math> for an ''m''&times;''n'' matrix, so (for example)
    1 KB (172 words) - 16:40, 6 February 2009
  • #REDIRECT [[Diagonal matrix#Diagonalizable matrix]]
    51 bytes (5 words) - 16:29, 11 December 2008
  • ...cation]]. Its entries are those of the [[Kronecker delta]]. The identity matrix represents the [[identity function]] as a [[linear map|linear operator]] on The identity matrix is also known as '''unit matrix''' because it possesses many of the properties of the multiplicative unit o
    1,020 bytes (136 words) - 10:39, 23 April 2009
  • In [[matrix algebra]], a '''diagonal matrix''' is a [[square matrix]] for which only the entries on the main [[diagonal]] can be non-zero, and The [[matrix addition|sum]] and [[matrix multiplication|product]] of diagonal matrices are again diagonal, and the d
    2 KB (230 words) - 02:39, 7 January 2009
  • #REDIRECT [[Matrix#Antisymmetric matrix]]
    41 bytes (4 words) - 07:37, 22 December 2008
  • #REDIRECT [[Matrix#Symmetric matrix]]
    37 bytes (4 words) - 02:20, 10 December 2008
  • #REDIRECT [[Matrix#Matrix addition]]
    36 bytes (4 words) - 15:24, 12 December 2008
  • #REDIRECT [[Matrix#Scalar matrix]]
    34 bytes (4 words) - 09:39, 22 December 2008
  • #REDIRECT [[Matrix#Orthogonal matrix]]
    38 bytes (4 words) - 02:32, 10 December 2008
  • #REDIRECT [[Matrix#Matrix multiplication]]
    42 bytes (4 words) - 15:25, 12 December 2008
  • #REDIRECT [[Matrix#Idempotent Matrix]]
    38 bytes (4 words) - 15:34, 12 December 2008
  • ...h ones on the main diagonal and zeroes elsewhere: the identity element for matrix multiplication.
    152 bytes (21 words) - 13:19, 5 December 2008
  • Matrix which equals its conjugate transpose matrix, that is, is self-adjoint.
    114 bytes (14 words) - 08:43, 4 September 2009
  • ...ixation and the organelles DNA; thylakoid membranes are surrounded by this matrix.
    180 bytes (26 words) - 15:56, 17 May 2010
  • Auto-populated based on [[Special:WhatLinksHere/Identity matrix]]. Needs checking by a human. {{r|Diagonal matrix}}
    965 bytes (124 words) - 17:23, 11 January 2010
  • * ''Basic Matrix Theory'', Leonard E. Fuller, Prentice-Hall, 1962 * ''Matrix Computations'', Gene H.Golub and Charles F. Van Loan, John Hopkins Universi
    336 bytes (40 words) - 15:20, 14 November 2007
  • In [[matrix algebra]], the '''inverse''' of a [[square matrix]] '''A''' is '''X''' if where '''I'''<sub>''n''</sub> is the ''n''-by-''n'' [[identity matrix]]
    1 KB (158 words) - 00:36, 18 April 2009
  • Auto-populated based on [[Special:WhatLinksHere/Diagonal matrix]]. Needs checking by a human. {{r|Identity matrix}}
    550 bytes (71 words) - 15:57, 11 January 2010
  • Auto-populated based on [[Special:WhatLinksHere/Zero matrix]]. Needs checking by a human. {{r|Diagonal matrix}}
    514 bytes (67 words) - 21:47, 11 January 2010
  • ...nent of a matrix computation of the determinant; a signed determinant of a matrix minor.
    131 bytes (19 words) - 16:33, 10 December 2008
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