Beate Klingenberg manages a Poughkeepsie, New York, movie theater complex called Cinema 8. Each of the eight auditoriums plays a different film; the schedule staggers starting times to avoid the large crowds that would occur if all eight movies started at the same time. The theater has a single ticket booth and a cashier who can maintain an average service rate of 270 patrons per hour. Service times are assumed to follow a negative exponential distribution. Arrivals on a normally active day are Poisson distributed and average 180 per hour. To determine the efficiency of the current ticket operation, Beate wishes to examine several queue-operating characteristics. a) The average number of moviegoers waiting in line to purchase a ticket = customers (round your response to two decimal places). b) The percentage of time that the cashier is busy = percent (round your response to the nearest whole number). c) The average time that a customer spends in the system = minutes (round your response to two decimal places). d) The average time spent waiting in the line to get to the ticket window= minutes (round your response to two decimal places). e) The probability that there are more than two people in the system = The probability that there are more than three people in the system = The probability that there are more than four people in the system = (round your response to three decimal places). (round your response to three decimal places). (round your response to three decimal places).

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Beate Klingenberg manages a Poughkeepsie, New York, movie theater complex called Cinema 8. Each of the eight auditoriums plays a different film; the schedule staggers starting times to avoid the large crowds that would occur if all eight movies started at the same time. The theater has a single ticket booth and a cashier who can maintain an average service rate of 270 patrons per hour. Service times are assumed to follow a negative exponential distribution. Arrivals on a normally active day are Poisson distributed and average 180 per hour. To determine the efficiency of the current ticket operation, Beate wishes to examine several queue-operating characteristics. a) The average number of moviegoers waiting in line to purchase a ticket = customers (round your response to two decimal places). b) The percentage of time that the cashier is busy: percent (round your response to the nearest whole number). c) The average time that a customer spends in the system = minutes (round your response to two decimal places). d) The average time spent waiting in the line to get to the ticket window = e) The probability that there are more than two people in the system = The probability that there are more than three people in the system The probability that there are more than four people in the system = = = minutes (round your response to two decimal places). (round your response to three decimal places). (round your response to three decimal places). (round your response to three decimal places).