Revision as of 14:53, 26 June 2024 by Admin (Created page with "'''Solution: A''' We have <math display = "block">P(T>6|T>3) = \frac{P(T>6)}{P(T>3)}</math>. However, <math>T</math> has a geometric distribution with <math>P(T=k) = (5/6)^{k-1}(1/6) </math> which means that <math display = "block"> \frac{P(T>6)}{P(T>3)} = \frac{\sum_{k\geq 7} (5/6)^{k-1}}{\sum_{k >4} (5/6)^{k-1}} = \frac{(5/6)^6}{(5/6)^3} = (5/6)^3 = 0.5787. </math>")
Exercise
ABy Admin
Jun 26'24
Answer
Solution: A
We have
[[math]]P(T\gt6|T\gt3) = \frac{P(T\gt6)}{P(T\gt3)}[[/math]]
. However, [math]T[/math] has a geometric distribution with [math]P(T=k) = (5/6)^{k-1}(1/6) [/math] which means that
[[math]]
\frac{P(T\gt6)}{P(T\gt3)} = \frac{\sum_{k\geq 7} (5/6)^{k-1}}{\sum_{k \gt4} (5/6)^{k-1}} = \frac{(5/6)^6}{(5/6)^3} = (5/6)^3 = 0.5787.
[[/math]]