exercise:Ceead2b3c9

May 03'23

Exercise

Each time a hurricane arrives, a new home has a 0.4 probability of experiencing damage. The occurrences of damage in different hurricanes are mutually independent.

Calculate the mode of the number of hurricanes it takes for the home to experience damage from two hurricanes.

2
3
4
5
6

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ABy Admin

May 03'23

Solution: B

Let [math]X[/math] equal the number of hurricanes it takes for two losses to occur. Then [math]X[/math] is negative binomial with “success” probability [math]p = 0.4[/math] and [math]r = 2[/math] “successes” needed.

[[math]] \operatorname{P}[X = n] = \frac{n-1}{r-1} p^{r}(1-p)^{n-r} = \binom{n-1}{2-1} (0.4)^2(1-0.4)^{n-2} = (n-1)(0.4)^2(0.6)^{n-2}, \, n \geq 2. [[/math]]

We need to maximize [math]\operatorname{P}[X = n][/math]. Note that the ratio

[[math]] \frac{\operatorname{P}[X=n+1]}{\operatorname{P}[X=n]} = \frac{n(0.4)^2(0.6)^{n-1}}{(n-1)(0.4)^2(0.6)^{n-2}} = \frac{n}{n-1} (0.6). [[/math]]

This ratio of “consecutive” probabilities is greater than 1 when [math]n = 2[/math] and less than 1 when [math]n ≥ 3.[/math] Thus, [math]\operatorname{P}[X = n][/math] is maximized at [math]n = 3[/math]; the mode is 3. Alternatively, the first few probabilities could be calculated.