Suppose the length of time for one customer to be served at the restaurant can be...

The length of time for one individual to be served at a cafeteria is a random...

The length of time for one individual to be served at a cafeteria is a random variable having an exponential distribution with a mean of 4 minutes. What is the probability that a person is served in less than 3 minutes on at least 4 of the next 6 days? (note – this is similar to a question we did in class today and you need to use both the periodic and binomial distributions).

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.)

The length of time for one individual to be served at a cafeteria is a random...

The length of time for one individual to be served at a cafeteria is a random variable having a normal distribution with a mean of 10 minutes and a standard deviation of 2 minutes. If the service time differs from the mean at most d minutes, he classifies this visit as a happy visit. What should be d so that 95% of his visits will be classified as happy? Select one: A. 3.56 B. 5.76 C. 4.48 D. 2.48 E....

(a) Suppose that the length of time t (in days) between sales for an automobile salesperson...

(a) Suppose that the length of time t (in days) between sales for an automobile salesperson is modelled as the following distribution: f(t) = 0.5e-0.5t , where t ≥ 0 (i) Identify the name of the probability model. Solve for the probability that the salesperson goes more than 5 days without a sale. ii) What is the mean and variance of t? (iii) Apply suitable formulas to find the quantile q0.95 for t.

Q1 a) The amount of time spouses shop for anniversary cards can be modeled by an...

Q1 a) The amount of time spouses shop for anniversary cards can be modeled by an exponential distribution with the average amount of time equal to 6 minutes. Write the distribution along with the appropriate parameter, state the probability density function, and graph the distribution. b) The number of days ahead travelers purchase their airline tickets can be modeled by an exponential distribution with the average amount of time equal to 10 days. Find the probability that a traveler will...

The frequency in which a restaurant receives​ on-line delivery orders follows an exponential distribution with a...

The frequency in which a restaurant receives​ on-line delivery orders follows an exponential distribution with a mean of 10.36 minutes between orders. Using this​ information, complete parts ​(a) through ​(f) for this question. a) The probability that the restaurant will receive their next​ on-line delivery order in less than 5.1 minutes is ​(Round to four decimal places as​ needed.) ​b) The probability that the restaurant will wait between 9 and 11.4 minutes after getting a new​ on-line delivery order is...

Suppose that the amount of time you spend working on STAT 3600 homework follows an exponential...

Suppose that the amount of time you spend working on STAT 3600 homework follows an exponential distribution with mean 60 minutes. a. What is the probability that it takes you less than 50 minutes to complete the homework? b. Given that you have already spent 40 minutes on the homework and have not finished, what is the probability that you will spend at least 70 minutes on the homework?

QUESTION ONE: (a) Based on past experience, the quality control engineer of Heavy Electrical Limited has...

QUESTION ONE: (a) Based on past experience, the quality control engineer of Heavy Electrical Limited has estimated that the probability of commissioning each project in time at a site is 0.9. The company is planning to commission 5 such projects in the forthcoming year. Find the probability of commissioning: i.)No project ii.) Two projects in time iii.) At most one project in time iv). At least two projects in time v). Find the mean and variance of the above distribution...

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 2.4 minutes. Assume that the service time for the fast food restaurant has an exponential distribution. (Round your answers to four decimal places.) (a) What is the probability that a service time is less than or equal to one minute? (b) What is the probability that a service time is between 30 seconds and one minute? (c) Suppose the manager of the restaurant is considering instituting...

Weibull Distribution 1) Let a be the time you have to wait until the next customer...

Weibull Distribution 1) Let a be the time you have to wait until the next customer arrives at a store (in minutes). Assume the mean of a is 1.000 minute). Determine the pdf for the time it takes for three customers to arrive (the sum of three exponential distributions) Determine a Weibill distribution to approximate this pdf.