A service station has both self-service and full-service islands. On each island, there is a single regular unleaded pump with two hoses. Let X denote the number of hoses being used on the self-service island at a particular time, and let Y denote the number of hoses on the full-service island in use at that time. The joint pmf of X and Y appears in the accompanying to p(x,y) 1 0.10 0.03 0.02 10.06 0.20 0.07 0.05 0.14 0.33 (a) What is P(X-1 and Y-1)? P(X-1 and Y-1)-20 2 PX ≤ 1 and Y≤1)- (b) Compute P(X≤1 and Y≤1). (c) Give a word description of the event (X/0 and Y/0). O One hose is in use on one island One hose is in use on islands O At most one hose is in use at both islands O At least one hose is in use at both islands Compute the probability of this event. PX/0 and Y/0)-

Transcribed Image Text:

A service station has both self-service and full-service islands. On each island, there is a single regular unleaded pump with two hoses. Let X denote the number of hoses being used on the self-service island at a particular time, and let y denote the number of hoses on the full-service island in use at that time. The joint pmf of X and Y appears in the accompanying tabulation. p(x,y) (a) What is P(X= 1 and Y= 1) : 0 1 0 0.10 0.03 0.02 0.06 0.20 0.07 0.05 0.14 0.33 P(X= 1 and Y= 1) = 0.20 (b) Compute P(X ≤ 1 and Y < 1) P(X ≤ 1 and Y≤ 1) = (c) Give a word description of the event { X0 and Y0}. O One hose is in use on one island. O One hose is in use on both islands. O At most one hose is in use at both islands. O At least one hose is in use at both islands. Compute the probability of this event. P(X = 0 and Y # 0) = Py(y) (d) Compute the marginal pmf of X. 0 Px(x) Compute the marginal pmf of Y. 0 2 1 Using P(x), what is P(X ≤ 1)? P(X ≤1)=[