Revision as of 03:50, 16 October 2021 edit Dabed (talk \| contribs) Extended confirmed users 4,308 edits →See also: Added List of integrals of logarithmic functions ← Previous edit		Revision as of 12:20, 26 November 2021 edit undo 2a00:23c7:7b0e:7400:7c33:f23:d897:ca65 (talk) →Number theoretic significance: difference changes sign Next edit →
Line 78: The logarithmic integral is important in [[number theory]], appearing in estimates of the number of [[prime number]]s less than a given value. For example, the [[prime number theorem]] states that: :<math>\pi(x)\sim\operatorname{Lili}(x)</math> where <math>\pi(x)</math> denotes the number of primes smaller than or equal to <math>x</math>. Assuming the [[Riemann hypothesis]], we get the even stronger:<ref>Abramowitz and Stegun, p. 230, 5.1.20</ref> :<math>\operatorname{Lili}(x)-\pi(x) = O(\sqrt{x}\log x)</math> For small <math>x</math>, <math>\operatorname{li}(x)<\pi(x)</math> but the difference changes sign an infinite number of times as <math>x</math> increases, and the [[Skewes's number\|first times this happens]] is somewhere between 10<sup>19</sup> and 1.4×10<sup>316</sup>. == See also ==

Logarithmic integral function: Difference between revisions