Solution Found!
Airlines sometimes overbook flights. Suppose that for a
Chapter 4, Problem 12E(choose chapter or problem)
Airlines sometimes overbook flights. Suppose that for a plane with 50 seats, 55 passengers have tickets. Define the random variable Y as the number of ticketed passengers who actually show up for the flight. The probability mass function of Y appears in the accompanying table. a. ?What is the probability that the flight will accommodate all ticketed passengers who show up? b. ?What is the probability that not all ticketed passengers who show up can be accommodated? c. ?If you are the first person on the standby list (which means you will be the first one to get on the plane if there are any seats available after all ticketed passengers have been accommodated), what is the probability that you will be able to take the flight? What is this probability if you are the third person on the standby list?
Questions & Answers
QUESTION:
Airlines sometimes overbook flights. Suppose that for a plane with 50 seats, 55 passengers have tickets. Define the random variable Y as the number of ticketed passengers who actually show up for the flight. The probability mass function of Y appears in the accompanying table. a. ?What is the probability that the flight will accommodate all ticketed passengers who show up? b. ?What is the probability that not all ticketed passengers who show up can be accommodated? c. ?If you are the first person on the standby list (which means you will be the first one to get on the plane if there are any seats available after all ticketed passengers have been accommodated), what is the probability that you will be able to take the flight? What is this probability if you are the third person on the standby list?
ANSWER:Answer : Step 1 : Given Airlines sometimes overbook flights. Suppose that for a plane with 50 seats, 55 passengers have tickets. The probability mass function of Y appears in the accompanying table. y p(y) 45 0.05 46 0.1 47 0.12 48 0.14 49 0.25 50 0.17 51 0.06 52 0.05 53 0.03 54 0.02 55 0.01 Given the random variable Y as the number of ticketed passengers who actually show up for the flight. Now we have find the number of ticketed passengers who actually show up for the flight. Here A = the number of ticketed passengers who actually show up for the flight. The number of ticketed passengers who actually show up for the flight. P(A) = P(45) + P(46) + P(47) + P(48) + P(49) + P(50) + P(51) + P(52) + P(53)+ P(54)+P(55) P(A) = 0.06+ 0.10+ 0.12 + 0.14+ 0.24+ 0.17+ 0.06+ 0.05+ 0.03+ 0.02+ 0.01 P(A) = 1 Therefore the number of ticketed passengers who actually show up for the flight is 1.