Definition:Second Chebyshev Function

Definition
The Second Chebyshev Function $\psi$ is defined as follows:


 * $\ds \map \psi x = \sum_{k \mathop \ge 1} \sum_{p^k \mathop \le x} \ln p$

where, for each $k$, the sum extends over all powers of prime numbers $p$ such that $p^k \le x$.

Equivalent definitions
The following are equivalent to the above definition:


 * $\ds \map \psi x = \sum_{1 \mathop \le n \mathop \le x} \map \Lambda n$

where $\Lambda$ is the von Mangoldt function.


 * $\ds \map \psi x = \sum_{p \mathop \le x} \floor {\log_p x} \ln p$

where the sum extends over all prime numbers $p$ such that $p \le x$, and $\floor \cdot$ denotes the floor function.

Also see

 * Equivalence of Definitions of Second Chebyshev Function