Totient function: Difference between revisions

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In [[number theory]], the '''totient function''' &phi;(''n'') of a [[positive integer]] ''n'', is defined to be the number of positive integers in the set {1,...,''n''} which are [[coprime]] to ''n''.  This function was studied by [[Leonhard Euler]] around 1730.<ref>William Dunham, ''Euler, the Master of us all'', MAA (1999) ISBN 0-8835-328-0.  Pp.1-16.</ref>
In [[number theory]], the '''totient function''' or '''Euler's φ function''' of a [[positive integer]] ''n'', denoted &phi;(''n''), is defined to be the number of positive integers in the set {1,...,''n''} which are [[coprime]] to ''n''.  This function was studied by [[Leonhard Euler]] around 1730.<ref>William Dunham, ''Euler, the Master of us all'', MAA (1999) ISBN 0-8835-328-0.  Pp.1-16.</ref>




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* <math>\sum_{d | n } \phi(d) = n \, </math>.
* <math>\sum_{d | n } \phi(d) = n \, </math>.
* The [[Average order of an arithmetic function|average order]] of &phi;(''n'') is <math>\frac{6}{\pi^2} n</math>.
* The [[Average order of an arithmetic function|average order]] of &phi;(''n'') is <math>\frac{6}{\pi^2} n</math>.
==Euler's Theorem==
The integers in the set {1,...,''n''} which are coprime to ''n'' represent the multiplicative group modulo ''n'' and hence the totient function of ''n'' is the [[order (group theory)|order]] of ('''Z'''/''n'')<sup>*</sup>.  By [[Lagrange's theorem]], the multiplicative order of any element is a factor of &phi;(''n''): that is
* <math>a^{\phi(n)} \equiv 1  \pmod n \,</math> if <math>a</math> is coprime to <math>n</math>.


==References==
==References==
{{reflist}}
{{reflist}}
* {{cite book | author=G.H. Hardy | authorlink=G. H. Hardy | coauthors=E.M. Wright | title=An Introduction to the Theory of Numbers | edition=6th ed. | publisher=[[Oxford University Press]] | pages=347-360 | year=2008 | isbn=0-19-921986-5 }}
* {{cite book | author=G.H. Hardy | authorlink=G. H. Hardy | coauthors=E.M. Wright | title=An Introduction to the Theory of Numbers | edition=6th ed. | publisher=[[Oxford University Press]] | pages=347-360 | year=2008 | isbn=0-19-921986-5 }}
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In number theory, the totient function or Euler's φ function of a positive integer n, denoted φ(n), is defined to be the number of positive integers in the set {1,...,n} which are coprime to n. This function was studied by Leonhard Euler around 1730.[1]


Definition

The totient function is multiplicative and may be evaluated as

Properties

  • .
  • The average order of φ(n) is .

Euler's Theorem

The integers in the set {1,...,n} which are coprime to n represent the multiplicative group modulo n and hence the totient function of n is the order of (Z/n)*. By Lagrange's theorem, the multiplicative order of any element is a factor of φ(n): that is

  • if is coprime to .

References

  1. William Dunham, Euler, the Master of us all, MAA (1999) ISBN 0-8835-328-0. Pp.1-16.