Revision as of 02:39, 27 March 2021 edit NShaback (talk \| contribs) 1 edit mNo edit summary ← Previous edit		Revision as of 15:42, 21 April 2021 edit undo Hellacioussatyr (talk \| contribs) Extended confirmed users 10,148 edits →Asymptotic expansion Tags: Mobile edit Mobile web edit Advanced mobile edit Next edit →
Line 53: The asymptotic behavior for ''x'' → ∞ is :<math> \operatorname{li}(x) = O \left( \frac{x }{\ln x} \right) \; . </math> where <math>O</math> is the [[big O notation]]. The full [[asymptotic expansion]] is Line 65: This gives the following more accurate asymptotic behaviour: :<math> \operatorname{li}(x) - \frac{x~~\over~~}{ \ln x} = O \left( \frac{x~~\over~~ }{\ln^2 x} \right) \; . </math> As an asymptotic expansion, this series is [[divergent series\|not convergent]]: it is a reasonable approximation only if the series is truncated at a finite number of terms, and only large values of ''x'' are employed. This expansion follows directly from the asymptotic expansion for the [[exponential integral]]. Line 71: This implies e.g. that we can bracket li as: :<math> 1+\frac{1}{\ln x} < \operatorname{li}(x) \frac{\ln x}{x} < 1+\frac{1}{\ln x}+\frac{3}{(\ln x)^2} </math> for all <math>\ln x \ge 11</math>.

Logarithmic integral function: Difference between revisions