in 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...

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...

Consider an M/M/2/3 capacitated queueing system with the arrival rate of 3 customers per hour and...

Consider an M/M/2/3 capacitated queueing system with the arrival rate of 3 customers per hour and the service rate of 2 customers per hour. a. Calculate the steady-state distribution of the number of customers in the system. b. Calculate L, Lq, Effective arrival rate, W and Wq.

A simple queueing system has an arrival rate of 6 per hour and a service rate...

A simple queueing system has an arrival rate of 6 per hour and a service rate of 10 per hour. For this system the average time in line has been estimated to be 20 minutes. Using Little’s Law estimate the following: Average time in the queueing system Average number of customers in the queueing system Average number of customers in the queue Average number of customers in service.

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...

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...

For an M/M/1/GD/∞/∞ queuing system with arrival rate λ = 16 customers per hour and service...

For an M/M/1/GD/∞/∞ queuing system with arrival rate λ = 16 customers per hour and service rate μ = 20 customers per hour, on the average, how long (in minutes) does a customer wait in line (round off to 3 decimal digits)?

Problem 15-9 (Algorithmic) Marty's Barber Shop has one barber. Customers have an arrival rate of 2.3...

Problem 15-9 (Algorithmic) 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...

Problem 15-9 (Algorithmic) Marty's Barber Shop has one barber. Customers have an arrival rate of 2.2...

Problem 15-9 (Algorithmic) Marty's Barber Shop has one barber. Customers have an arrival rate of 2.2 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...

Consider an M / M / 1 queueing system with capacity N = 2. Suppose that...

Consider an M / M / 1 queueing system with capacity N = 2. Suppose that customers arrive at the rate of λ per hour and are served at the rate of 8 per hour. a. What should the arrival rate be so that an arriving potential customer has a 50% chance of joining the queue? b. With λ chosen to satisfy the requirement of part a, what percentage of the customers who actually enter the system get served immediately?

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...