Compute the takt time for a service system that intended to perform a standardized service. The...

Cycle Time and Velocity Norton Company has the following data for one of its production departments:...

Cycle Time and Velocity Norton Company has the following data for one of its production departments: Theoretical velocity: 670 units per hour Productive minutes available per year: 50,000,000 Annual conversion costs: $250,000,000 Actual velocity: 268 units per hour Required: 1. Calculate the actual conversion cost per unit using actual cycle time and the standard cost per minute. Round your actual cycle time answer to three decimal places and your cost per unit answer to the nearest cent. Actual cycle time...

Kanban and takt time A work center uses kanban containers that hold 300 parts. To produce...

Kanban and takt time A work center uses kanban containers that hold 300 parts. To produce enough parts to fill the container, 90 minutes of setup plus run time are needed. Moving the container to the next work station, waiting time, processing time at the next work station, and return of the empty container takes 140 minutes. There is an overall demand rate of nine units per minute. a. Calculate the number of containers needed for the system. T is...

Cycle Time and Velocity In the first quarter of operations, a manufacturing cell produced 80,000 stereo...

Cycle Time and Velocity In the first quarter of operations, a manufacturing cell produced 80,000 stereo speakers, using 16,000 production hours. In the second quarter, the cycle time was 10 minutes per unit with the same number of production hours as were used in the first quarter. Required: 1. Compute the velocity (per hour) for the first quarter. If required, round your answer to two decimal places. units per hour 2. Compute the cycle time for the first quarter (minutes...

Your driving time to work  (continuous random variable) is between 29 and 67 minutes if the day...

Your driving time to work  (continuous random variable) is between 29 and 67 minutes if the day is sunny, and between 43 and 83 minutes if the day is rainy, with a uniform probability density function in the given range in each case. Assume that a day is sunny with probability  = 0.46 and rainy with probability . Your distance to work is  = 50 kilometers. Let  be your average speed for the drive to work, measured in kilometers per minute: Compute the value...

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...

1.) A system has 5 servers. Customers arrive at a rate of 6 per hour and...

1.) A system has 5 servers. Customers arrive at a rate of 6 per hour and service time is 20 minutes. What is the service rate of the system? 2.) A system has 5 servers. Customers arrive at a rate of 6 per hour and service time is 20 minutes. What is the system utilization? (Show answer as a decimal.) 3.)Suppose that this system has 3 servers instead of 5. What is the probability there are no customers in the...

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...

The number of requests for assistance received by a towing service is a Poisson process with...

The number of requests for assistance received by a towing service is a Poisson process with rate α = 10 per hour. (a) Compute the probability that exactly fifteen requests are received during a particular 2-hour period. (Round your answer to three decimal places.) (b) If the operators of the towing service take a 30 min break for lunch, what is the probability that they do not miss any calls for assistance? (Round your answer to three decimal places.) (c)...

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...