Exercise
ABy Admin
May 08'23
Answer
Solution: B
The payment random variable is 1000([math]X[/math] – 2) if positive, where [math]X[/math] has a Poisson distribution with mean 1. The expected value is
[[math]]
\begin{align*}
1000 \sum_{x=3}^{\infty} (x-2) \frac{e^{-1}}{x!} &= 1000 \left( \sum_{x=0}^{\infty} (x-2) \frac{e^{-1}}{x!} - \sum_{x=0}^2 (x-2) \frac{e^{-1}}{x!}\right ) \\
&= 1000(1-2-[-2e^{-1}-e^{-1}]) \\
&= 1000(-1 + 3e^{-1}) \\
&= 104.
\end{align*}
[[/math]]
Note the first sum splits into the expected value of [math]X[/math], which is 1, and 2 times the sum of the probabilities (also 1).
Copyright 2023. The Society of Actuaries, Schaumburg, Illinois. Reproduced with permission.