Answer:
The distribution is [tex]\frac{\lambda^{n}e^{- \lambda t}t^{n - 1}}{(n - 1)!}[/tex]
Solution:
As per the question:
Total no. of riders = n
Now, suppose the [tex]T_{i}[/tex] is the time between the departure of the rider i - 1 and i from the cable car.
where
[tex]T_{i}[/tex] = independent exponential random variable whose rate is [tex]\lambda[/tex]
The general form is given by:
[tex]T_{i} = \lambda e^{- lambda}[/tex]
(a) Now, the time distribution of the last rider is given as the sum total of the time of each rider:
[tex]S_{n} = T_{1} + T_{2} + ........ + T_{n}[/tex]
[tex]S_{n} = \sum_{i}^{n} T_{n}[/tex]
Now, the sum of the exponential random variable with [tex]\lambda[/tex] with rate [tex]\lambda[/tex] is given by:
[tex]S_{n} = f(t:n, \lamda) = \frac{\lambda^{n}e^{- \lambda t}t^{n - 1}}{(n - 1)!}[/tex]
