In an urn there are $u$ balls, $b$ of which are black. 

If we perform $n$ trials of one ball at a time with replacement, the probability of the event $E$ to get $n$ times a black ball is $P(E)=\left(\frac{b}{u}\right)^n$, whereas the probability of the event $L$ to get at least one black ball is $P(L)=1-\left(\frac{u-b}{u}\right)^n$.

Let $X$ be the non-negative, integer-valued random variable representing the number of trials it takes to get a success for the event $E$, and $Y$ the  non-negative, integer-valued random variable  representing the number of trials it takes to get a success for the event $L$.

> What are the expected values $\mathbb{E}[X]$ and $\mathbb{E}[Y]$?

My attempt for  $\mathbb{E}[X]$:

I denote with $P(E;k)$ the probability to get a success for the event $E$ at the trial $k$.

The variable $X$ can assume only the value $n$, therefore, by definition it should be $$\mathbb{E}[X]=\sum_{k=1}^n k P(E;k)=\sum_{k=1}^n k P(E)\delta_{n,k}=nP(E).$$

My attempt for  $\mathbb{E}[Y]$:


I denote with $P(L;k)$ the probability to get a success for the event $L$ at the trial $k$.

The variable $Y$ can assume any value from 1 to $n$, therefore, by definition, it should be 
$$\mathbb{E}[Y]=\sum_{k=1}^n k P(L;k)=\sum_{k=1}^n k \left[1-\left(\frac{u-b}{u}\right)^k\right].$$

Are these calculations correct?