Exercise
ABy Admin
Jun 26'24
Answer
Solution: A
The number of subsets of size [math]k[/math] containing the answer equals [math]\binom{3}{k-1}[/math] and the points associated with each such subset is [math]4-k[/math]. The number of subsets of size [math]k[/math] not containing the answer equals [math]\binom{3}{k}[/math] and the points associated with each such subset equals [math]-k[/math]. Hence the expected value equals
[[math]]
\sum_{k=1}^4 (4-k) \binom{3}{k-1} - \sum_{k=1}^4 k\binom{3}{k}
[[/math]]
Now we use the binomial identity:
[[math]]
\binom{4}{k} = \binom{3}{k-1} + \binom{3}{k}
[[/math]]
and obtain an expected value of
[[math]]
\sum_{k=1}^4 4\binom{3}{k-1} - \sum_{k=1}^4 k\binom{4}{k}.
[[/math]]
But we also have
[[math]]
4 \binom{3}{k-1} = \frac{ 4!}{(4-k)!)(k-1)!} = k\binom{4}{k}
[[/math]]
which implies that expected value equals zero as desired.