Variance of Shifted Geometric Distribution/Proof 2

Theorem
Let $X$ be a discrete random variable with the shifted geometric distribution with parameter $p$.

Then the variance of $X$ is given by:
 * $\displaystyle \operatorname{var} \left({X}\right) = \frac {1-p} {p^2}$

Proof
From Variance of Discrete Random Variable from PGF, we have:
 * $\operatorname{var} \left({X}\right) = \Pi''_X \left({1}\right) + \mu - \mu^2$

where $\mu = E \left({x}\right)$ is the expectation of $X$.

From the Probability Generating Function of Shifted Geometric Distribution, we have:
 * $\Pi_X \left({s}\right) = \dfrac {ps} {1 - qs}$

where $q = 1 - p$.

From Expectation of Shifted Geometric Distribution, we have:
 * $\mu = \dfrac 1 p$

From Derivatives of PGF of Shifted Geometric Distribution, we have:
 * $\Pi''_X \left({s}\right) = \dfrac {p q} {\left({1 - qs}\right)^3}$

Putting $s = 1$ using the formula $\Pi''_X \left({1}\right) + \mu - \mu^2$:
 * $\displaystyle \operatorname{var} \left({X}\right) = \frac {p q} {\left({1 - q}\right)^3} + \frac 1 p - \left({\frac 1 p}\right)^2$

and hence the result, after some algebra.