Alice and Bob arrange to meet for lunch on a certain day at noon. However, neither is known for punctuality. They both arrive independently at uniformly distributed times between noon and 1 pm on that day. Each is willing to wait up to 15 minutes for the other to show up. What is the probability they will meet for lunch that day?

Question

Kale Mahoney

Mathematics

12 December, 12:08

Alice and Bob arrange to meet for lunch on a certain day at noon. However, neither is known for punctuality. They both arrive independently at uniformly distributed times between noon and 1 pm on that day. Each is willing to wait up to 15 minutes for the other to show up. What is the probability they will meet for lunch that day?

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Mccarthy · Answer 1

0.4375

Step-by-step explanation:

Lets say that X is the random varaible that determine the arrival time of Bob and Y the random variable that determine the arrival time of Alice. Bot X and Y are Independent random variables with uniform [0,1] distribution. 15 minutes is the quarter of an hour, so we want to calculate P (|X-Y|) < 0.25.

Note that P (|X-Y| < 0.25) = P (|X-Y| < 0.25 | X ≥ Y) * P (X≥ Y) + P (|X-Y| < 0.25 | Y ≥ X) * P (Y ≥ X) = P (X-Y < 0.25 | X ≥Y) * P (X≥Y) + P (Y-X < 0.25 | Y≥X) * P (Y ≥ X).

For a simmetry argument, that expression is equivalent to 2*P (Y-X < 0.25 | Y≥X) * P (Y ≥ X) = 2*P (0 < Y-X < 0.25). The region 0 < Y-X < 0.25 is, for X between 0 and 0.75, a parallelogram, of base 0.75 and height 0.25, and for X between 0.75 and 1, it is a Triangle of base and height equal to 0.25. Therefore P (0 < Y-X < 0.25) = 0.25*0.75 + 0.25² * 0.5 = 7/32. Hence 2*P (0 < Y-X < 0.25) = 14/32 = 0.4375.

They will meet for lunch with probability 0.4375