Revision as of 19:43, 2 May 2023 by Admin (Created page with "A car is new at the beginning of a calendar year. The time, in years, before the car experiences its first failure is exponentially distributed with mean 2. Calculate the pro...")
ABy Admin
May 02'23
Exercise
A car is new at the beginning of a calendar year. The time, in years, before the car experiences its first failure is exponentially distributed with mean 2.
Calculate the probability that the car experiences its first failure in the last quarter of some calendar year.
- 0.081
- 0.088
- 0.102
- 0.205
- 0.250
Copyright 2023. The Society of Actuaries, Schaumburg, Illinois. Reproduced with permission.
ABy Admin
May 02'23
Solution: D
Using the law of total probability, the requested probability is
[[math]]
\sum_{k=0}^{\infty} \operatorname{P}(k + 0.75 \lt X ≤ k + 1| k \lt X ≤ k + 1)\operatorname{P}(k \lt X ≤ k + 1) .
[[/math]]
The first probability is
[[math]]
\begin{align*}
\operatorname{P}(k + 0.75 \lt X ≤ k + 1 | k \lt X ≤ k + 1) &= \frac{\operatorname{P}(k + 0.75 \lt X ≤ k + 1)}{\operatorname{P}(k \lt X ≤ k + 1)} \\
&= \frac{F(k + 1) − F (k + 0.75)}{F (k + 1) − F (k)} \\
&= \frac{1 − e^{-( k +1)/2} − 1 + e^{-(k + 0.75)/2}}{1 − e^{−( k +1)/2} − 1 + e^{− k /2}} \\
&= \frac{e^{−0.375} − e^{−0.5}}{1-e^{-0.5}} \\
&= 0.205
\end{align*}
[[/math]]
This probability factors out of the sum and the remaining probabilities sum to 1 so the requested probability is 0.205.
Copyright 2023. The Society of Actuaries, Schaumburg, Illinois. Reproduced with permission.