In a benchmark study, a fast food restaurant had an average service time of 2.4 minutes....

In a benchmark study, a fast food restaurant had an average service time of 2.2 minutes....

In a benchmark study, a fast food restaurant had an average service time of 2.2 minutes. Assume that the service time for the fast food restaurant has an exponential distribution. (Round your answers to four decimal places.) Suppose the manager of the restaurant is considering instituting a policy such that if the time it takes to serve you exceeds six minutes, your food is free. What is the probability that you will get your food for free?

Last year a fast food restaurant had a mean service time of 155 seconds. This year...

Last year a fast food restaurant had a mean service time of 155 seconds. This year the manager wants to determine whether the population mean service time has been reducedA sample of 45 customers is selected and the sample mean service time = 151 seconds . Suppose the population standard deviation sigma = 25 seconds. (a) What is the population? What is the sample? (b) Ata = 0.1 level of significance, determine whether there is evidence that the population mean...

The waiting time until a customer is served at a fast food restaurant during lunch hours...

The waiting time until a customer is served at a fast food restaurant during lunch hours has a skewed distribution with a mean of 2.4 minutes and a standard deviation of 0.4 minute. Suppose that a random sample of 44 waiting times will be taken. Compute the probability that the mean waiting time for the sample will be longer than 2.5 minutes. Answer: (Round to 4 decimal places.)

A fast food outlet claims that the mean waiting time in line is less than 3.5...

A fast food outlet claims that the mean waiting time in line is less than 3.5 minutes. A random sample of 60 customers has a mean of 3.4 minutes with a standard deviation of 0.6 minute. If α = 0.05, test the fast food outletʹs claim.

During lunch hour, customers arrive at a fast-food restaurant at the rate of 120 customers per...

During lunch hour, customers arrive at a fast-food restaurant at the rate of 120 customers per hour. The restaurant has one line, with three workers taking food orders at independent service stations. Each worker takes an exponentially distributed amount of time–on average 1 minute–to service a customer. Let Xt denote the number of customers in the restaurant (in line and being serviced) at time t. The process (Xt)t≥0 is a continuous-time Markov chain. Exhibit the generator matrix.

A fast food outlet claims that the mean waiting time in line is less than 3.5...

A fast food outlet claims that the mean waiting time in line is less than 3.5 minutes. A random sample of 60 customers has a mean of 3.6 minutes with a population standard deviation of 0.6 minute. Using a significance level of 0.05, test the fast food outlet's claim

You are the manager of a restaurant for a​ fast-food franchise. Last​ month, the mean waiting...

You are the manager of a restaurant for a​ fast-food franchise. Last​ month, the mean waiting time at the​ drive-through window for branches in your geographical​ region, as measured from the time a customer places an order until the time the customer receives the​ order, was 3.7 minutes. You select a random sample of 64 orders. The sample mean waiting time is 3.41 ​minutes, with a sample standard deviation of 0.8 minute. Find the​ p-value. p-value= ( ) ​(Round to...

Question 2 A fast-food franchise is considering operating a drive-up window food-service operation. Assume that customer...

Question 2 A fast-food franchise is considering operating a drive-up window food-service operation. Assume that customer arrivals follow a Poisson probability distribution, with an arrival rate of 24 cars per hour, and that service times follow an exponential probability distribution. Arriving customers place orders at an intercom station at the back of the parking lot and then drive to the service window to pay for and receive their orders. The following three service alternatives are being considered: A single-channel operation...

In a study of the accuracy of fast food​ drive-through orders, Restaurant A had 238 accurate...

In a study of the accuracy of fast food​ drive-through orders, Restaurant A had 238 accurate orders and 58 that were not accurate. a. Construct a 90​% confidence interval estimate of the percentage of orders that are not accurate. b. Compare the results from part​ (a) to this 90​% confidence interval for the percentage of orders that are not accurate at Restaurant​ B: 0.174 less than p less than 0.259. What do you​ conclude?

A fast-food franchise is considering operating a drive-up window food-service operation. Assume that customer arrivals follow...

A fast-food franchise is considering operating a drive-up window food-service operation. Assume that customer arrivals follow a Poisson probability distribution, with an arrival rate of 25 cars per hour, and that service times follow an exponential probability distribution. Arriving customers place orders at an intercom station at the back of the parking lot and then drive to the service window to pay for and receive their orders. The following service alternative is being considered: System C: A two-server operation with...