exercise:4460493b64

May 04'23

Exercise

A flood insurance company determines that [math]N[/math], the number of claims received in a month, is a random variable with [math]\operatorname{P}[N=n] = \frac{2}{3^{n+1}}[/math] for [math]n = 1,2, \ldots [/math]. The numbers of claims received in different months are mutually independent.

Calculate the probability that more than three claims will be received during a consecutive two-month period, given that fewer than two claims were received in the first of the two months.

0.0062
0.0123
0.0139
0.0165
0.0185

Add answer Add answer

ABy Admin

May 04'23

Solution: E

Let M and N be the random variables for the number of claims in the first and second month. Then

[[math]] \begin{align*} \operatorname{P}[M + N \gt 3 | M \lt 2] − \operatorname{P}[ M + N ≤ 3 | M \lt 2] &= 1 - \frac{\operatorname{P}[ M + N ≤ 3, M \lt 2]}{\operatorname{P}[ M \lt 2]} \\ &= \operatorname{P}[ M = 0, N = 0] + \operatorname{P}[ M =1, N = 0] + \operatorname{P}[ M = 0, N = 1] + \operatorname{P}[ M =1, N =1] \\ &= 1 - \frac{\operatorname{P}[ M =0, N = 2] + \operatorname{P}[ M = 1, N = 2] + \operatorname{P}[ M =0, N = 3]}{\operatorname{P}[ M =0] \operatorname{P}[ M =1]} \\ &= 1 - \frac{(2 / 3)(2 / 3) + (2 / 9)(2 / 3) + (2 / 3)(2 / 9) + (2 / 9)(2 / 9) + (2 / 3)(2 / 27) + (2 / 9)(2 / 27) + (2 / 3)(2 / 81)}{2 / 3+ 2 / 9} \\ &= 1 - \frac{0.87243}{0.88889} = 0.0185. \end{align*} [[/math]]