An automatic car wash takes exactly 5 minutes to wash a car. On average, 5.6 cars per hour arrive at the car wash. Suppose that 30 minutes before closing time, 5 cars are in line. If a new car can be washed as soon as the previous car is finished, is it likely anyone wți be in line at closing time? Assume that an event with a probability greater than or equal to 0.5 is likely, and that an event with a probability less than 0.5 is not likely. Choose the correct answer below. OA. Yes, it is likely that someone will be in line at closing time, because the corresponding probability is 0.769. B. No, it is not likely that someone will be in line at closing time, because the corresponding probability is 0.531. C. Yes, it is likely that someone will be in line at closing time, because the corresponding probability is 0.469. OD. No, it is not likely that someone will be in line at closing time, because the corresponding probability is 0.231.

Transcribed Image Text:

An automatic car wash takes exactly 5 minutes to wash a car. On average, 5.6 cars per hour arrive at the car wash. Suppose that 30 minutes before closing time, 5 cars are in line. If a new car can be washed as soon as the previous car is finished, is it likely anyone wifi be in line at closing time? *** Assume that an event with a probability greater than or equal to 0.5 is likely, and that an event with a probability less than 0.5 is not likely. Choose the correct answer below. B. OA. Yes, it is likely that someone will be in line at closing time, because the corresponding probability is 0.769. No, it is not likely that someone will be in line at closing time, because the corresponding probability is 0.531. C. Yes, it is likely that someone will be in line at closing time, because the corresponding probability is 0.469. O D. No, it is not likely that someone will be in line at closing time, because the corresponding probability is 0.231. om UC C asrin 000 'm ED