Gubser Welding, Inc., operates a welding service for construction and automotive repair jobs. Assume that the...

Problem 15-27 (Algorithmic) Gubser Welding, Inc., operates a welding service for construction and automotive repair jobs....

Problem 15-27 (Algorithmic) Gubser Welding, Inc., operates a welding service for construction and automotive repair jobs. Assume that the arrival of jobs at the company's office can be described by a Poisson probability distribution with an arrival rate of one job per 8-hour day. The time required to complete the jobs follows a normal probability distribution, with a mean time of 5.5 hours and a standard deviation of 2 hours. Answer the following questions, assuming that Gubser uses one welder...

The Robotics Manufacturing Company operates an equipment repair business where emergency jobs arrive randomly at the...

The Robotics Manufacturing Company operates an equipment repair business where emergency jobs arrive randomly at the rate of three jobs per 8-hour day. The company's repair facility is a single-server system operated by a repair technician. The service time varies, with a mean repair time of 2 hours and a standard deviation of 1.5 hours. The company's cost of the repair operation is $28 per hour. In the economic analysis of the waiting line system, Robotics uses $35 per hour...

Speedy Oil provides a single-server automobile oil change and lubrication service. Customers provide an arrival rate...

Speedy Oil provides a single-server automobile oil change and lubrication service. Customers provide an arrival rate of 4 cars per hour. The service rate is 5 cars per hour. Assume that arrivals follow a Poisson probability distribution and that service times follow an exponential probability distribution. A) What is the average number of cars in the system? If required, round your answer to two decimal places L = B) What is the average time that a car waits for the...

1. Willow Brook National Bank operates a drive-up teller window that allows customers to complete bank...

1. Willow Brook National Bank operates a drive-up teller window that allows customers to complete bank transactions without getting out of their cars. On weekday mornings, arrivals to the drive-up teller window occur at random, with an arrival rate of 6 customers per hour or 0.1 customers per minute. Also assume that the service times for the drive-up teller follow an exponential probability distribution with a service rate of 54 customers per hour, or 0.9 customers per minute. Determine the...

You own a barbershop with 2 chairs. The individuals waiting for service go to the next...

You own a barbershop with 2 chairs. The individuals waiting for service go to the next available chair (2 channels).  The mean arrival rate is 8 people per hour. The mean service rate is 5 units per hour for each chair. Find the following: What is the probability that no one is in the system? What is the average number of people in the system? What is the average time a person waits for service? What is the average time a...

in an M/M/1 queueing system, the arrival rate is 9 customers per hour and the service...

in an M/M/1 queueing system, the arrival rate is 9 customers per hour and the service rate is 14 customers per hour. What is the utilization? (Round your answer to 3 decimal places.) What is the expected number of customers in the system (L)? (Round your answer to 3 decimal places.) What is the expected waiting time in the system (W)? (Express the waiting time in hours, round your answer to 3 decimal places.) What is the expected number of...

n an M/M/1 queueing system, the arrival rate is 9 customers per hour and the service...

n an M/M/1 queueing system, the arrival rate is 9 customers per hour and the service rate is 14 customers per hour. What is the utilization? (Round your answer to 3 decimal places.) What is the expected number of customers in the system (L)? (Round your answer to 3 decimal places.) What is the expected waiting time in the system (W)? (Express the waiting time in hours, round your answer to 3 decimal places.) What is the expected number of...

Arrival Rate = 1/50 = 0.02 calls hour. Service Rate= 1 hour (travel time) + 1.5...

Arrival Rate = 1/50 = 0.02 calls hour. Service Rate= 1 hour (travel time) + 1.5 hour (repair time) =2.5 hours With m = 1/ 2.5 = 0.4 hours per customers ** PLEASE SHOW HOW TO DO EQUATION ** OEI is satisfied that one service technician can handle the 10 existing customers. Use a waiting line model to determine the following information: (a) probability that no customers are in the system, (b) average number of customers in the waiting line,...

Marty's Barber Shop has one barber. Customers have an arrival rate of 2.3 customers per hour,...

Marty's Barber Shop has one barber. Customers have an arrival rate of 2.3 customers per hour, and haircuts are given with a service rate of 4 per hour. Use the Poisson arrivals and exponential service times model to answer the following questions: What is the probability that no units are in the system? If required, round your answer to four decimal places. P0 = _____ What is the probability that one customer is receiving a haircut and no one is...

Problem 15-17 (Algorithmic) The new Fore and Aft Marina is to be located on the Ohio...

Problem 15-17 (Algorithmic) The new Fore and Aft Marina is to be located on the Ohio River near Madison, Indiana. Assume that Fore and Aft decides to build a docking facility where one boat at a time can stop for gas and servicing. Assume that arrivals follow a Poisson probability distribution, with an arrival rate of 7 boats per hour, and that service times follow an exponential probability distribution, with a service rate of 12 boats per hour. The manager...