I'm trying to teach myself probability theory, and an exercise has me stumped. This exercise comes from Alon & Spencer 4.8, in the chapter on the second moment method.
Let $X$ be a random variable taking values in $\mathbb{Z}_{\geq 0}$. Let $E[X^2]$ denote the expectation of its square. Prove that
$\displaystyle Pr[X=0] \leq \frac{Var[X]}{E[X^2]}$
In particular, they prove in the chapter that this is true by replacing $E[X^2]$ with $E[X]^2$ by using a simple application of Chebyshev's inequality (they set $\lambda$ in the theorem to $E[X]/Var[X]$). However, this bound is easily seen to be tighter, and so it seems I need to come up with a shrewder application of the inequality by redefining the random variable or choosing an appropriate constant.
Any hints?