Quadratic residue: Difference between revisions

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:<math>\left(\frac{ab}{p}\right) = \left(\frac{a}{p}\right)\left(\frac{b}{p}\right) . \, </math>
:<math>\left(\frac{ab}{p}\right) = \left(\frac{a}{p}\right)\left(\frac{b}{p}\right) . \, </math>
==Jacobi symbol==
For an odd positive ''n'', the '''Jacobi symbol''' <math>\left(\frac{a}{n}\right)</math> is defined as a product of Legendre symbols
:<math>\left(\frac{a}{n}\right) = \prod_{i=1}^r \left(\frac{a}{p_i}\right)^{e_i} \,</math>
where the prime factorisation of ''n'' is
:<math> n = \prod_{i=1}^r {p_i}^{e_i} . \,</math>
The Jacobi symbol is ''bimultiplicative'', that is,
:<math>\left(\frac{ab}{n}\right) = \left(\frac{a}{n}\right)\left(\frac{b}{n}\right) \, </math>
and
:<math>\left(\frac{a}{mn}\right) = \left(\frac{a}{m}\right)\left(\frac{a}{n}\right) . \, </math>
If ''a'' is a quadratic residue of ''n'' then the Jacobi symbol <math>\left(\frac{a}{n}\right) = +1 </math>, but the converse does not hold.  For example,
:<math>\left(\frac{3}{35}\right) = \left(\frac{3}{5}\right)\left(\frac{3}{7}\right) = (-1)(-1) = +1 , \,</math>
but since the Legendre symbol <math>\left(\frac{3}{5}\right) = -1</math>, it follows that 3 is a quadratic non-residue of 5 and hence of 35.
==See also==
* [[Quadratic reciprocity]]


==References==
==References==
*{{cite book | title= An Introduction to the Theory of Numbers | author=G. H. Hardy | coauthors=E. M. Wright | publisher=Oxford University Press | year=2008 | edition=6th ed | isbn=0-19-921986-9 }}
*{{cite book | title= An Introduction to the Theory of Numbers | author=G. H. Hardy | coauthors=E. M. Wright | publisher=Oxford University Press | year=2008 | edition=6th ed | isbn=0-19-921986-9 }}

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In modular arithmetic, a quadratic residue for the modulus N is a number which can be expressed as the residue of a2 modulo N for some integer a. A quadratic non-residue of N is a number which is not a quadratic residue of N.

Legendre symbol

When the modulus is a prime p, the Legendre symbol expresses the quadratic nature of a modulo p. We write

if p divides a;
if a is a quadratic residue of p;
if a is a quadratic non-residue of p.

The Legendre symbol is multiplicative, that is,

Jacobi symbol

For an odd positive n, the Jacobi symbol is defined as a product of Legendre symbols

where the prime factorisation of n is

The Jacobi symbol is bimultiplicative, that is,

and

If a is a quadratic residue of n then the Jacobi symbol , but the converse does not hold. For example,

but since the Legendre symbol , it follows that 3 is a quadratic non-residue of 5 and hence of 35.

See also

References

  • G. H. Hardy; E. M. Wright (2008). An Introduction to the Theory of Numbers, 6th ed. Oxford University Press. ISBN 0-19-921986-9.