ABy Admin
Jun 24'24
Exercise
Exactly one of six similar keys opens a certain door. If you try the keys, one after another, what is the expected number of keys that you will have to try before success?
- 2.5
- 3
- 3.5
- 4
- 4.5
References
Doyle, Peter G. (2006). "Grinstead and Snell's Introduction to Probability" (PDF). Retrieved June 6, 2024.
ABy Admin
Jun 26'24
Solution: C
The probability that you need to try [math]k [/math] keys equals
[[math]]
\frac{5}{6} \frac{4}{5} \cdots \frac{6-k-1}{6-k} \frac{1}{6-k-1} = \frac{1}{6}.
[[/math]]
Hence the probability distribution is uniform on [math]\{1,\ldots,6\}[/math]. Then the expected value equals
[[math]]
\frac{1}{6}\sum_{k=1}^6 k = 3.5.
[[/math]]