Abstract
Rosser and Schoenfeld have used the fact that the first 3,500,000 zeros of the Riemann zeta function lie on the critical line to give estimates on Ο ( x ) \psi (x) and ΞΈ ( x ) \theta (x) . With an improvement of the above result by Brent et al. , we are able to improve these estimates and to show that the k t h k^{th} prime is greater than k ( ln β‘ k + ln β‘ ln β‘ k β 1 ) k(\ln k +\ln \ln k -1) for k β₯ 2 k\geq 2 . We give further results without proof.
Cite
CITATION STYLE
Dusart, P. (1999). The π^{π‘β} prime is greater than π(lnπ+lnlnπ-1) for πβ₯2. Mathematics of Computation, 68(225), 411β415. https://doi.org/10.1090/s0025-5718-99-01037-6
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