Suppose that the average waiting time at a banking service is 10 minutes. A customer waited...

Suppose that the average waiting time at a banking service is 10 minutes. A customer waited...

Suppose that the average waiting time at a banking service is 10 minutes. A customer waited for 10 minutes, find the probability that he will be still waiting after 30 minutes. What is the approximate probability that the average waiting time of the next 25 customers is at most 12 minutes?

Let X denote the waiting time (in minutes) for a customer. An assistant manager claims that...

Let X denote the waiting time (in minutes) for a customer. An assistant manager claims that μ, the average waiting time of the entire population of customers, is 3 minutes with standard deviation also 2 minutes. The manager doesn't believe his assistant's claim, so he observes a random sample of 36 customers. The average waiting time for the 36 customers is 3.2 minutes. What is the probability that the average of 36 customers is 3.2 minutes or more? Do you...

The amount of time that a customer spends waiting at an airport check-in counter is a...

The amount of time that a customer spends waiting at an airport check-in counter is a random variable with mean 8.1 minutes and standard deviation 1.6 minutes. Suppose that a random sample of n=50 customers is observed. Find the probability that the average time waiting in line for these customers is (a) Less than 10 minutes (b) Between 5 and 10 minutes (c) Less than 6 minutes Round your answers to four decimal places (e.g. 0.9876).

A customer spending waiting time at a place check-in counter is a random variable with mean...

A customer spending waiting time at a place check-in counter is a random variable with mean 8.2 minutes and standard deviation 1.5 minutes. Suppose that a random sample of n = 49 customers is observed. Find the probability that the average time waiting in line for these customers is: (a) Less than 9.3 minutes (b) Between 5 and 10 minutes (c) Less than 7.5 minutes

A system serves customers in the queue one by one. Suppose that the service time A_b...

A system serves customers in the queue one by one. Suppose that the service time A_b for customer b has a mean of 2 min(minutes) and variance of 4. suppose that service time for different customers is independently and identically distributed. (1)Let Abar denote the average waiting time of the next 25 customers. Prob(1.8 min < Abar < 2.2 min) = (2)Find the time t making Prob(aBar > t ) = 0.9.

A server whose service time is uniformly distributed with an interval of (10, 20) minutes. The...

A server whose service time is uniformly distributed with an interval of (10, 20) minutes. The customer inter-arrival time is also uniformly distributed with an internal (15, 25) minutes. Determine the expected waiting time of customers of the queue?

The amount of time that a customer spends waiting at an airport check-in counter (X) is...

The amount of time that a customer spends waiting at an airport check-in counter (X) is a random variable with mean 8.2 minutes and standard deviation 2.5 minutes. If a random sample of n = 30 customers were observed, then what is the probability that the sample average waiting time exceeds 9 minutes? Show your work.

Suppose the waiting time at a certain checkout counter is bimodal. With probability 0.95, the waiting...

Suppose the waiting time at a certain checkout counter is bimodal. With probability 0.95, the waiting time follows an exponential distribution with a mean waiting time of five minutes. With probability 0.05, the waiting time equals 30 minutes. a) Compute the mean waiting time at the checkout counter. b) Compute the variance of the waiting time at the checkout counter. c) Compute the probability that an individual customer waits longer than 5 1/2 minutes at the checkout counter. d) Using...

Suppose the waiting time at a certain checkout counter is bimodal. With probability 0.95, the waiting...

Suppose the waiting time at a certain checkout counter is bimodal. With probability 0.95, the waiting time follows an exponential distribution with a mean waiting time of five minutes. With probability 0.05, the waiting time equals 30 minutes.    a) Compute the mean waiting time at the checkout counter. b) Compute the variance of the waiting time at the checkout counter. c) Compute the probability that an individual customer waits longer than 5 1/2 minutes at the checkout counter. d) Using...

Suppose the waiting time at a certain checkout counter is bimodal. With probability 0.95, the waiting...

Suppose the waiting time at a certain checkout counter is bimodal. With probability 0.95, the waiting time follows an exponential distribution with a mean waiting time of five minutes. With probability 0.05, the waiting time equals 30 minutes. a) Compute the mean waiting time at the checkout counter. b) Compute the variance of the waiting time at the checkout counter. c) Compute the probability that an individual customer waits longer than 5 1/2 minutes at the checkout counter. d) Using...