# Difference between revisions of "Cramer's conjecture"

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− | + | '''Cramér's_conjecture''' asserts that the largest gap between adjacent primes of size N should be <math>O(\log^2 N)</math>. This is compatible with [[Cramer's random model for the primes]], and specifically with the belief that the number of primes in <math>[n,n+\log n]</math> should resemble a Poisson distribution asymptotically. | |

If this conjecture is true, one has an easy positive answer to the [[finding primes]] project in the strongest form; one simply searches an interval of the form <math>[N, N+O(\log^2 N)]</math> for primes, where N is your favourite k-digit number. | If this conjecture is true, one has an easy positive answer to the [[finding primes]] project in the strongest form; one simply searches an interval of the form <math>[N, N+O(\log^2 N)]</math> for primes, where N is your favourite k-digit number. | ||

− | # [ | + | # [[wikipedia:Cramér's_conjecture|Wikipedia entry on Cramér's_conjecture]] |

## Revision as of 01:04, 20 August 2009

**Cramér's_conjecture** asserts that the largest gap between adjacent primes of size N should be [math]O(\log^2 N)[/math]. This is compatible with Cramer's random model for the primes, and specifically with the belief that the number of primes in [math][n,n+\log n][/math] should resemble a Poisson distribution asymptotically.

If this conjecture is true, one has an easy positive answer to the finding primes project in the strongest form; one simply searches an interval of the form [math][N, N+O(\log^2 N)][/math] for primes, where N is your favourite k-digit number.