I'm stuck on a homework problem which requires me that I prove the following:
Say $X$ is a random variable without a finite upper bound (that is, $F_X(x) < 1$ for all $x \in \mathbb{R}$). Let $M_X(s)$ denote the moment-generating function of $X$, so that:
$M_X(s) = \mathbb{E}[e^{sX}]$
then how can I show that
$\lim_{s\rightarrow\infty} \frac{\log(M_X(s))}{s} = \infty$