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  • Transcendental number
    Transcendental numbers are necessarily [[irrational number|irrational]], but there are many irrational numbers that are not transcende
    875 bytes (130 words) - 12:27, 8 May 2008
  • Golden ratio/Definition
    An [[irrational number|irrational]] [[mathematical constant]] — equal to (1+√5)/2, or appr
    254 bytes (29 words) - 02:13, 10 September 2009
  • Irrational numbers
    #REDIRECT[[irrational number]]
    30 bytes (3 words) - 17:22, 27 July 2007
  • Number/Related Articles
    {{r|Irrational number}}
    258 bytes (33 words) - 02:29, 8 February 2009
  • Irrational number
    In [[mathematics]], an '''irrational number''' is any [[real number]] that is not a [[rational number]], i.e. it cannot ...It is possible to demonstrate that <math>\scriptstyle\sqrt{2}</math> is an irrational number.
    4 KB (666 words) - 11:23, 3 October 2009
  • Vitali set/Definition
    ...real numbers such that the difference of any two members of the set is an irrational number and any real number is the sum of a rational number and a member of the set
    212 bytes (39 words) - 20:45, 4 September 2009
  • E (mathematics)/Related Articles
    {{r|Irrational number}}
    564 bytes (72 words) - 16:08, 11 January 2010
  • Rational number/Related Articles
    {{r|Irrational number}}
    1 KB (169 words) - 19:54, 11 January 2010
  • Imaginary number
    &mdash; "[[rational number|rational]]", "[[irrational number|irrational]]", and "[[real number|real]]" &mdash; are.
    3 KB (468 words) - 17:28, 1 January 2010
  • Fraction (mathematics)/Related Articles
    {{r|Irrational number}}
    590 bytes (73 words) - 16:38, 11 January 2010
  • Square root of two
    ...y 1.4142135623730950488016887242097. It provides a typical example of an [[irrational number]].
    2 KB (307 words) - 04:13, 14 October 2010
  • Integer/Related Articles
    {{r|Irrational number}}
    2 KB (247 words) - 17:28, 11 January 2010
  • E (mathematics)
    ...is a [[constant]] [[real number]] equal to 2.71828 18284 59045 23536.... [[Irrational number|Irrational]] and [[transcendental number|transcendental]], ''e'' is the bas In 1737, [[Leonhard Euler]] proved that ''e'' is an [[irrational number]]<ref name="maor_37">Eli Maor, ''e: The Story of a Number'', Princeton Univ
    3 KB (527 words) - 12:19, 16 March 2008
  • Non-Borel set
    Every irrational number has a unique representation by a [[continued fraction]]
    2 KB (252 words) - 11:44, 2 December 2010
  • Square (geometry)/Related Articles
    {{r|Irrational number}}
    607 bytes (78 words) - 06:51, 22 January 2010
  • Pythagorean theorem/Related Articles
    {{r|Irrational number}}
    636 bytes (82 words) - 19:49, 11 January 2010
  • Pi (mathematical constant)/Proofs/Proof that π is irrational
    ...ent times, it was not until the 18th century that it was proved to be an [[irrational number]].
    2 KB (325 words) - 06:31, 15 September 2009
  • Number
    ...bstract mathematical fields, such as [[algebra]] and [[number theory]]. An irrational number can not be written as a fraction, and can indeed not be written out fully a
    11 KB (1,701 words) - 20:07, 1 July 2021
  • Rational number
    A [[real number]] that is not a rational number is called an [[irrational number]].
    9 KB (1,446 words) - 08:52, 30 May 2009
  • Number theory/Signed Articles/Elementary diophantine approximations
    Thus it easily follows that for every positive irrational number <math>\ x</math>&nbsp; there exists a pair of neighbors&nbsp; <math>\frac{a :* let&nbsp; <math>\ x</math>&nbsp; be an irrational number such that &nbsp; <math>\frac{a}{c}\ >\ x\ >\ \frac{b}{d};</math> &nbsp; the
    35 KB (5,836 words) - 08:40, 15 March 2021
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