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• Imaginary number
  the sum ''a''+''b''i of a real number ''a'' and an imaginary number ''b''i Since the square (''b''i)² = −''b''² of an imaginary number is a negative real number,
  3 KB (468 words) - 17:28, 1 January 2010
• Imaginary number/Approval
  12 bytes (1 word) - 17:50, 3 November 2007
• Imaginary number/Definition
  170 bytes (23 words) - 09:38, 1 January 2010
• Imaginary number/Related Articles
  183 bytes (22 words) - 17:31, 1 January 2010

Page text matches

• Imaginary number
  the sum ''a''+''b''i of a real number ''a'' and an imaginary number ''b''i Since the square (''b''i)² = −''b''² of an imaginary number is a negative real number,
  3 KB (468 words) - 17:28, 1 January 2010
• Wigner D-matrix/Related Articles
  {{r|Imaginary number}}
  572 bytes (74 words) - 21:40, 11 January 2010
• Elementary function/Related Articles
  {{r|Imaginary number}}
  682 bytes (88 words) - 10:48, 4 October 2013
• Elementary function
  Where <math>i</math> is the [[imaginary number|imaginary unit]].
  8 KB (1,289 words) - 13:46, 26 May 2009
• Complex number
  ...o in a sense, we can imagine that the dummy variable <math>x</math> is the imaginary number <math>i</math>, and the elements of the quotient ring behave exactly the wa
  18 KB (3,028 words) - 17:12, 25 August 2013
• Fractal/Bibliography
  2 KB (297 words) - 13:37, 21 February 2009
• Complex number/Citable Version
  ...o in a sense, we can imagine that the dummy variable <math>x</math> is the imaginary number <math>i</math>, and the elements of the quotient ring behave exactly the wa
  20 KB (3,304 words) - 17:11, 25 August 2013
• Number
  ...wo parts, where one is real and the other is some number multiplied by the imaginary number <math>i\!</math>, which is defined as <math>i = \sqrt{-1}</math>. The compl
  11 KB (1,701 words) - 20:07, 1 July 2021
• Wigner D-matrix
  where ''i'' is the purely [[imaginary number]] and Planck's constant <math>\hbar</math> has been put equal to one. The o
  11 KB (1,671 words) - 06:37, 1 November 2009
• Real number
  ...led because they can be expressed as the sum of a real number and a purely imaginary number, i.e., the [[product (mathematics)|product]] of a real number and <math>i</
  19 KB (2,948 words) - 10:07, 28 February 2024
• Logarithm
  The exponential function of an imaginary number is given as
  19 KB (3,039 words) - 12:51, 7 March 2023
• I (letter)
  *In mathematics, i represents the square root of -1. It is the base of the imaginary number system, so the square root of -9 is 3i, for example.
  8 KB (1,392 words) - 09:48, 13 August 2016