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==Facts== ==Facts==
*If {{math|{''r''<sub>1</sub>, ''r''<sub>2</sub>, ... , ''r''<sub>φ(''n'')</sub>} }} is a reduced residue system with ''n'' > 2, then <math>\sum r_i \equiv 0 \pmod n</math>. *If {{math|{''r''<sub>1</sub>, ''r''<sub>2</sub>, ... , ''r''<sub>φ(''n'')</sub>} }} is a reduced residue system modulo ''n'' with ''n'' > 2, then <math>\sum r_i \equiv 0 \pmod n</math>.
*Every number in a reduced residue system mod ''n'' is a generator for the additive group of integers modulo n. *Every number in a reduced residue system modulo ''n'' is a generator for the additive group of integers modulo n.


==See also== ==See also==

Revision as of 21:54, 20 September 2019

Set of residue classes modulo n, relatively prime to n

Any subset R of the integers is called a reduced residue system modulo n if:

  1. gcd(r, n) = 1 for each r contained in R;
  2. R contains φ(n) elements;
  3. no two elements of R are congruent modulo n.

Here φ {\displaystyle \varphi } denotes Euler's totient function.

A reduced residue system modulo n can be formed from a complete residue system modulo n by removing all integers not relatively prime to n. For example, a complete residue system modulo 12 is {0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11}. The so-called totatives 1, 5, 7 and 11 are the only integers in this set which are relatively prime to 12, and so the corresponding reduced residue system modulo 12 is {1,5,7,11}. The cardinality of this set can be calculated with the totient function: φ ( 12 ) = 4 {\displaystyle \varphi (12)=4} . Some other reduced residue systems modulo 12 are:

  • {13,17,19,23}
  • {−11,−7,−5,−1}
  • {−7,−13,13,31}
  • {35,43,53,61}

Facts

  • If {r1, r2, ... , rφ(n)} is a reduced residue system modulo n with n > 2, then r i 0 ( mod n ) {\displaystyle \sum r_{i}\equiv 0{\pmod {n}}} .
  • Every number in a reduced residue system modulo n is a generator for the additive group of integers modulo n.

See also

Notes

  1. Long (1972, p. 85)
  2. Pettofrezzo & Byrkit (1970, p. 104)

References

External links

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