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Deck 18: Waiting Line
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Deck 18: Waiting Line
1
The standard assumption in the single-server model is that there is an infinite number of customers and that customers will wait in line as long as it takes to get served.
True
2
The four elements common to all waiting-line situations are a customer population,a waiting line of customers,the service facility,and a priority rule.
True
3
The distinction between an infinite customer population and a finite customer population is whether the:
A)potential number of customers is appreciably affected by the number of customers already in the system.
B)number of potential customers exceeds the square of the number of servers.
C)number of potential customers exceeds the number of servers raised to the power of the number of channels.
D)number of customers exceeds infinity.
A)potential number of customers is appreciably affected by the number of customers already in the system.
B)number of potential customers exceeds the square of the number of servers.
C)number of potential customers exceeds the number of servers raised to the power of the number of channels.
D)number of customers exceeds infinity.
A
4
Under the assumptions of waiting line models,it is impossible for management to affect the rate of customer arrivals.
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5
The best example of a finite customer population is the:
A)car-buying public of an automotive manufacturer.
B)constituents in a precinct lining up to vote.
C)e-mail messages arriving at a major ISP mail server.
D)members of the Management department at your university waiting to speak to the Dean about their department chairman.
A)car-buying public of an automotive manufacturer.
B)constituents in a precinct lining up to vote.
C)e-mail messages arriving at a major ISP mail server.
D)members of the Management department at your university waiting to speak to the Dean about their department chairman.
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6
India Sisson wants to grab a latte before heading to her marketing class,knowing that the jolt of a double tall mocha is the only thing that can possibly keep her eyes open during today's presentation on the four P's.The server is slower than molasses in January and India notes that the pace of the line won't permit her to grab her favorite seat in the back row of her class.She decides to risk marketing without a latte and leaves the line before getting served.India's behavior is best described as:
A)balking.
B)blocking.
C)reneging.
D)queuing.
A)balking.
B)blocking.
C)reneging.
D)queuing.
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7
Preemptive discipline allows a customer of higher priority to interrupt the service process of another customer.
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8
The mean of the Poisson distribution is equal to its standard deviation.
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9
The best method for analyzing a waiting-line problem is to relate the five operating characteristics and their alternatives to dollars.
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10
Long lines always mean long waiting times.
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11
The calling population in a queuing problem must go to the server,that is servers do not go to the calling population.
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12
A phase represents a single step in providing a service.
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13
If the customer population of a service system generates customers according to a Poisson distribution,the exponential distribution describes the probability that the next customer will arrive in the next T time periods.
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14
Which of the following is LEAST likely to benefit from waiting line analysis?
A)capacity planning
B)inventory management
C)budget planning
D)scheduling
A)capacity planning
B)inventory management
C)budget planning
D)scheduling
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15
The number of customers in line and being served also relates to service efficiency and capacity.
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16
A bank that dedicates one window for commercial account customers and one window for personal account channel has two channels.
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17
The standard assumption in the single-server model is that customers are served according to the earliest due date,i.e. ,which customer needs to be finished first.
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18
Waiting lines cannot develop if the time to process a customer is constant.
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19
Short queue lengths typically mean not enough capacity.
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20
Ed Deadbeat races to the Bursar's Office on the first day of class and notes that the line is four students long.Ed figures that the wait will be at least ten minutes and,having better uses of his time,he decides to proceed to the next item on his to-do list.Ed's behavior is best described as:
A)reneging.
B)balking.
C)blocking.
D)queuing.
A)reneging.
B)balking.
C)blocking.
D)queuing.
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21
A homemade-ice cream shop owner has noticed that,often,potential customers will stop outside the store,assess the wait in line,and then pass by.The shop has a(n):
A)infinite customer population with balking customers.
B)infinite customer population with reneging customers.
C)finite customer population with balking customers.
D)finite customer population with reneging customers.
A)infinite customer population with balking customers.
B)infinite customer population with reneging customers.
C)finite customer population with balking customers.
D)finite customer population with reneging customers.
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22
Customers arrive according to a Poisson distribution.The average number of customer arrivals per hour is six.The probability that four customers will arrive in the next three hours is:
A)less than or equal to 0.01.
B)greater than 0.01 but less than or equal to 0.02.
C)greater than 0.02 but less than or equal to 0.03.
D)greater than 0.03.
A)less than or equal to 0.01.
B)greater than 0.01 but less than or equal to 0.02.
C)greater than 0.02 but less than or equal to 0.03.
D)greater than 0.03.
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23
A bank lobby with six teller windows,each with a separate line,is an example of a:
A)single-channel,single-phase arrangement.
B)single-channel,multiple-phase arrangement.
C)multiple-channel,single-phase arrangement.
D)multiple-channel,multiple-phase arrangement.
A)single-channel,single-phase arrangement.
B)single-channel,multiple-phase arrangement.
C)multiple-channel,single-phase arrangement.
D)multiple-channel,multiple-phase arrangement.
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24
Customers arrive every three minutes governed by a Poisson distribution.A single server is capable of handling twenty-five customers per hour and this service time is exponentially distributed.What is the likelihood that the server is not busy at any given time?
A)less than or equal to .1
B)greater than .1 but less than or equal to .15
C)greater than .15 but less than or equal to .25
D)greater than .25
A)less than or equal to .1
B)greater than .1 but less than or equal to .15
C)greater than .15 but less than or equal to .25
D)greater than .25
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25
The owner of a desktop publishing company has seven loyal clients who periodically require his services.The owner has:
A)an infinite customer population of patient customers.
B)an infinite population of impatient customers.
C)a finite customer population.
D)a finite customer population with balking customers.
A)an infinite customer population of patient customers.
B)an infinite population of impatient customers.
C)a finite customer population.
D)a finite customer population with balking customers.
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26
Customers arrive every three minutes governed by a Poisson distribution.A single server is capable of handling twenty-five customers per hour and this service time is exponentially distributed.About how long do customers wait in line?
A)a little over nine minutes
B)a little over thirteen minutes
C)exactly twenty minutes
D)exactly twenty-five minutes
A)a little over nine minutes
B)a little over thirteen minutes
C)exactly twenty minutes
D)exactly twenty-five minutes
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27
Customers are serviced at a rate of three customers per hour according to an exponential distribution.What is the probability that customer service will require fewer than 10 minutes?
A)less than or equal to 0.40
B)greater than 0.40 but less than or equal to 0.45
C)greater than 0.45 but less than or equal to 0.50
D)greater than 0.50
A)less than or equal to 0.40
B)greater than 0.40 but less than or equal to 0.45
C)greater than 0.45 but less than or equal to 0.50
D)greater than 0.50
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28
A super computer-accessory discount store often has customers who leave the checkout line before being served because of excessive waiting times.The store has a(n):
A)infinite customer population with balking customers.
B)infinite customer population with reneging customers.
C)finite customer population with balking customers.
D)finite customer population with reneging customers.
A)infinite customer population with balking customers.
B)infinite customer population with reneging customers.
C)finite customer population with balking customers.
D)finite customer population with reneging customers.
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29
An automatic,drive-through car wash is an example of a:
A)single-channel,single-phase arrangement.
B)single-channel,multiple-phase arrangement.
C)multiple-channel,single-phase arrangement.
D)multiple-channel,multiple-phase arrangement.
A)single-channel,single-phase arrangement.
B)single-channel,multiple-phase arrangement.
C)multiple-channel,single-phase arrangement.
D)multiple-channel,multiple-phase arrangement.
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30
Customers arrive every three minutes governed by a Poisson distribution.A single server is capable of handling twenty-five customers per hour and this service time is exponentially distributed.About how many minutes per hour is the server not helping customers?
A)less than or equal to 7
B)greater than 7 but less than or equal to 10
C)greater than 10 but less than or equal to 13
D)greater than 13
A)less than or equal to 7
B)greater than 7 but less than or equal to 10
C)greater than 10 but less than or equal to 13
D)greater than 13
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31
Customers arrive according to a Poisson distribution.The average number of customer arrivals per hour is four.The probability that three customers will arrive in the next two hours is:
A)less than or equal to 0.015.
B)greater than 0.015 but less than or equal to 0.020.
C)greater than 0.020 but less than or equal to 0.025.
D)greater than 0.025.
A)less than or equal to 0.015.
B)greater than 0.015 but less than or equal to 0.020.
C)greater than 0.020 but less than or equal to 0.025.
D)greater than 0.025.
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32
Customers arrive according to a Poisson distribution.The average number of customer arrivals per hour is three.The probability that four customers will arrive in the next two hours is:
A)less than or equal to 0.10.
B)greater than 0.10 but less than or equal to 0.12.
C)greater than 0.12 but less than or equal to 0.14.
D)greater than 0.14.
A)less than or equal to 0.10.
B)greater than 0.10 but less than or equal to 0.12.
C)greater than 0.12 but less than or equal to 0.14.
D)greater than 0.14.
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33
A drive-through system at a fast food restaurant where the first facility takes the order,the second takes the money,and the third provides the food is an example of a:
A)single-channel,single-phase arrangement.
B)single-channel,multiple-phase arrangement.
C)multiple-channel,single-phase arrangement.
D)multiple-channel,multiple-phase arrangement.
A)single-channel,single-phase arrangement.
B)single-channel,multiple-phase arrangement.
C)multiple-channel,single-phase arrangement.
D)multiple-channel,multiple-phase arrangement.
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34
Customers are serviced at a rate of six customers per hour according to an exponential distribution.What is the probability that customer service will require fewer than 20 minutes?
A)less than or equal to 0.70
B)greater than 0.70 but less than or equal to 0.80
C)greater than 0.80 but less than or equal to 0.90
D)greater than 0.90
A)less than or equal to 0.70
B)greater than 0.70 but less than or equal to 0.80
C)greater than 0.80 but less than or equal to 0.90
D)greater than 0.90
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35
The single,multiple,and finite waiting line models all assume that the:
A)arrival rate exceeds the service rate.
B)number of servers exceeds the number of customers.
C)number of customers exceeds the number of servers.
D)customers are patient.
A)arrival rate exceeds the service rate.
B)number of servers exceeds the number of customers.
C)number of customers exceeds the number of servers.
D)customers are patient.
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36
A Laundromat where there are washing machines and dryers is an example of a:
A)single-channel,single-phase arrangement.
B)single-channel,multiple-phase arrangement.
C)multiple-channel,single-phase arrangement.
D)multiple-channel,multiple-phase arrangement.
A)single-channel,single-phase arrangement.
B)single-channel,multiple-phase arrangement.
C)multiple-channel,single-phase arrangement.
D)multiple-channel,multiple-phase arrangement.
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37
Customers are serviced at a rate of five customers per hour according to an exponential distribution.What is the probability that customer service will require fewer than 20 minutes?
A)less than or equal to 0.75
B)greater than 0.75 but less than or equal to 0.80
C)greater than 0.80 but less than or equal to 0.85
D)greater than 0.85
A)less than or equal to 0.75
B)greater than 0.75 but less than or equal to 0.80
C)greater than 0.80 but less than or equal to 0.85
D)greater than 0.85
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38
Customers arrive every three minutes governed by a Poisson distribution.A single server is capable of handling twenty-five customers per hour and this service time is exponentially distributed.How many customers are either receiving service or waiting in line on average?
A)one
B)two
C)three
D)four
A)one
B)two
C)three
D)four
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39
Customers are serviced at a rate of four customers per hour according to an exponential distribution.What is the probability that customer service will require fewer than 30 minutes?
A)less than or equal to 0.50
B)greater than 0.50 but less than or equal to 0.60
C)greater than 0.60 but less than or equal to 0.70
D)greater than 0.70
A)less than or equal to 0.50
B)greater than 0.50 but less than or equal to 0.60
C)greater than 0.60 but less than or equal to 0.70
D)greater than 0.70
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40
Customers arrive according to a Poisson distribution.The average number of customer arrivals per hour is two.The probability that five customers will arrive in the next three hours is:
A)less than or equal to 0.10.
B)greater than 0.10 but less than or equal to 0.12.
C)greater than 0.12 but less than or equal to 0.14.
D)greater than 0.14.
A)less than or equal to 0.10.
B)greater than 0.10 but less than or equal to 0.12.
C)greater than 0.12 but less than or equal to 0.14.
D)greater than 0.14.
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41
Customers arrive every three minutes governed by a Poisson distribution.A single server is capable of handling twenty-five customers per hour and this service time is exponentially distributed.What is the percentage of the server's six-hour shift is one customer receiving service while and two are waiting in line?
A)5%
B)10%
C)15%
D)21%
A)5%
B)10%
C)15%
D)21%
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42
With a single-server model,increasing the capital-to-labor ratio will most likely:
A)increase the utilization of the server.
B)have no effect on the operating characteristics because they are affected only by work-methods changes.
C)decrease the probability that there are zero customers in the system at any time.
D)decrease the average number of customers in the waiting line.
A)increase the utilization of the server.
B)have no effect on the operating characteristics because they are affected only by work-methods changes.
C)decrease the probability that there are zero customers in the system at any time.
D)decrease the average number of customers in the waiting line.
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43
Scenario B.1
A single ticket taker can tear tickets and direct movie patrons to their seats at a rate of 90 per hour.Customers arrive every minute for assistance and always wait,regardless of how long the line gets.Arrivals are governed by the Poisson distribution and service is governed by the exponential distribution.
Use the information in Scenario B.1.What is the average time a customer must wait in line?
A)0.66 minute
B)1.33 minutes
C)2.00 minutes
D)3.00 minutes
A single ticket taker can tear tickets and direct movie patrons to their seats at a rate of 90 per hour.Customers arrive every minute for assistance and always wait,regardless of how long the line gets.Arrivals are governed by the Poisson distribution and service is governed by the exponential distribution.
Use the information in Scenario B.1.What is the average time a customer must wait in line?
A)0.66 minute
B)1.33 minutes
C)2.00 minutes
D)3.00 minutes
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44
With a multiple-server model,increasing the arrival rate by 10 percent and also increasing the service rate of each server by 10 percent will result in:
A)a decrease in the utilization of the system.
B)no change in the average number of customers in the waiting line.
C)a decrease in the average number of customers in the waiting line.
D)an increase in the waiting time in line.
A)a decrease in the utilization of the system.
B)no change in the average number of customers in the waiting line.
C)a decrease in the average number of customers in the waiting line.
D)an increase in the waiting time in line.
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45
With a finite-source model,increasing the arrival rate by 10 percent and also increasing the service rate by 10 percent will result in:
A)a decrease in the utilization of the server.
B)no change in the average number of customers in the system.
C)an increase in the average number of customers in the waiting line.
D)an increase in the waiting time in line.
A)a decrease in the utilization of the server.
B)no change in the average number of customers in the system.
C)an increase in the average number of customers in the waiting line.
D)an increase in the waiting time in line.
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46
With a single-server model,increasing the arrival rate by 10 percent and also increasing the service rate by 10 percent will result in:
A)no change in the probability that there are n customers in the system.
B)a decrease in the average waiting time in line.
C)an increase in the average time spent in the system,including service.
D)an increase in the average number of customers in the system.
A)no change in the probability that there are n customers in the system.
B)a decrease in the average waiting time in line.
C)an increase in the average time spent in the system,including service.
D)an increase in the average number of customers in the system.
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47
Scenario B.1
A single ticket taker can tear tickets and direct movie patrons to their seats at a rate of 90 per hour.Customers arrive every minute for assistance and always wait,regardless of how long the line gets.Arrivals are governed by the Poisson distribution and service is governed by the exponential distribution.
Use the information in Scenario B.1.What is the average number of customers in line?
A)0.33
B)0.66
C)1.33
D)2.00
A single ticket taker can tear tickets and direct movie patrons to their seats at a rate of 90 per hour.Customers arrive every minute for assistance and always wait,regardless of how long the line gets.Arrivals are governed by the Poisson distribution and service is governed by the exponential distribution.
Use the information in Scenario B.1.What is the average number of customers in line?
A)0.33
B)0.66
C)1.33
D)2.00
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48
Customers are serviced at a rate of 10 customers per hour according to an exponential distribution.What is the probability that customer service will require fewer than two minutes?
A)less than or equal to 0.25
B)greater than 0.25 but less than or equal to 0.30
C)greater than 0.30 but less than or equal to 0.35
D)greater than 0.35
A)less than or equal to 0.25
B)greater than 0.25 but less than or equal to 0.30
C)greater than 0.30 but less than or equal to 0.35
D)greater than 0.35
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49
In the single-server model the:
A)service time of a customer is most often described by an exponential distribution.
B)service time depends on the number of customers in the system as long as there is at least one customer in the waiting line.
C)mean of the service-time distribution must be as great as the target service time for a feasible solution.
D)service times are always constant to avoid large waiting lines.
A)service time of a customer is most often described by an exponential distribution.
B)service time depends on the number of customers in the system as long as there is at least one customer in the waiting line.
C)mean of the service-time distribution must be as great as the target service time for a feasible solution.
D)service times are always constant to avoid large waiting lines.
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50
Scenario B.1
A single ticket taker can tear tickets and direct movie patrons to their seats at a rate of 90 per hour.Customers arrive every minute for assistance and always wait,regardless of how long the line gets.Arrivals are governed by the Poisson distribution and service is governed by the exponential distribution.
Use the information in Scenario B.1.What is the average combined time a customer waits in line and spends being seated by the ticket taker?
A)1.00 minute
B)1.50 minutes
C)2.00 minutes
D)3.00 minutes
A single ticket taker can tear tickets and direct movie patrons to their seats at a rate of 90 per hour.Customers arrive every minute for assistance and always wait,regardless of how long the line gets.Arrivals are governed by the Poisson distribution and service is governed by the exponential distribution.
Use the information in Scenario B.1.What is the average combined time a customer waits in line and spends being seated by the ticket taker?
A)1.00 minute
B)1.50 minutes
C)2.00 minutes
D)3.00 minutes
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51
In the single-server model the:
A)customers are assumed to arrive at constant intervals of time.
B)variability of customer arrivals is most often described by a Poisson distribution.
C)mean of the distribution of customer arrivals must be greater than the variance of customer arrivals to get meaningful results.
D)probability of n arrivals in T time periods comes from a normal distribution.
A)customers are assumed to arrive at constant intervals of time.
B)variability of customer arrivals is most often described by a Poisson distribution.
C)mean of the distribution of customer arrivals must be greater than the variance of customer arrivals to get meaningful results.
D)probability of n arrivals in T time periods comes from a normal distribution.
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52
Scenario B.1
A single ticket taker can tear tickets and direct movie patrons to their seats at a rate of 90 per hour.Customers arrive every minute for assistance and always wait,regardless of how long the line gets.Arrivals are governed by the Poisson distribution and service is governed by the exponential distribution.
Use the information in Scenario B.1.What is the probability that customers with tickets arrive and the ticket taker is not helping another patron?
A)0.011
B)0.11
C)0.22
D)0.33
A single ticket taker can tear tickets and direct movie patrons to their seats at a rate of 90 per hour.Customers arrive every minute for assistance and always wait,regardless of how long the line gets.Arrivals are governed by the Poisson distribution and service is governed by the exponential distribution.
Use the information in Scenario B.1.What is the probability that customers with tickets arrive and the ticket taker is not helping another patron?
A)0.011
B)0.11
C)0.22
D)0.33
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53
With a single-server model,increasing the arrival rate by 10 percent and also increasing the service rate by 10 percent will result in a(n):
A)increase in the utilization of the server.
B)increase in the average number of customers in the system.
C)decrease in the average time spent in the system,including service.
D)increase in the waiting-line time.
A)increase in the utilization of the server.
B)increase in the average number of customers in the system.
C)decrease in the average time spent in the system,including service.
D)increase in the waiting-line time.
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54
With a single-server model,increasing the promotions for a service through advertising will most likely:
A)increase the utilization of the server.
B)decrease the average number of customers in the service system.
C)decrease the average time a customer spends in the system.
D)increase the probability that the server will be idle.
A)increase the utilization of the server.
B)decrease the average number of customers in the service system.
C)decrease the average time a customer spends in the system.
D)increase the probability that the server will be idle.
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55
With a single-server model,increasing the arrival rate by 10 percent and also increasing the service rate by 10 percent will result in:
A)a decrease in the utilization of the server.
B)no change in the average number of customers in the service system.
C)an increase in the average number of customers in the waiting line.
D)an increase in the waiting time in line.
A)a decrease in the utilization of the server.
B)no change in the average number of customers in the service system.
C)an increase in the average number of customers in the waiting line.
D)an increase in the waiting time in line.
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56
With a finite-source model,increasing the arrival rate by 10 percent and also increasing the service rate by 10 percent will result in a(n):
A)increase in the utilization of the server.
B)increase in the average number of customers in the service system.
C)decrease in the average time spent in the system,including service.
D)increase in the waiting time in line.
A)increase in the utilization of the server.
B)increase in the average number of customers in the service system.
C)decrease in the average time spent in the system,including service.
D)increase in the waiting time in line.
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57
With a single-server model,increasing the service rate while holding all other factors constant will:
A)increase the utilization of the server.
B)increase the time spent per customer.
C)decrease the probability that there are two customers in the system at any time.
D)decrease the arrival rate of customers.
A)increase the utilization of the server.
B)increase the time spent per customer.
C)decrease the probability that there are two customers in the system at any time.
D)decrease the arrival rate of customers.
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58
Scenario B.2
Weary travelers arrive at Will Rogers International Airport,pick up their luggage,stumble to their cars,and proceed to the parking lot attendant to pay for their parking.Traveler interarrival times are exponentially distributed,as are the service times of the attendant.On average,travelers arrive every 25 seconds.The attendant can process three travelers per minute,and processing rates follow a Poisson distribution.
Use the information in Scenario B.2.How many minutes per hour is the attendant not serving customers?
A)fewer than or equal to 13
B)greater than 13 but fewer than or equal to 17
C)greater than 17 but fewer than or equal to 21
D)greater than 21
Weary travelers arrive at Will Rogers International Airport,pick up their luggage,stumble to their cars,and proceed to the parking lot attendant to pay for their parking.Traveler interarrival times are exponentially distributed,as are the service times of the attendant.On average,travelers arrive every 25 seconds.The attendant can process three travelers per minute,and processing rates follow a Poisson distribution.
Use the information in Scenario B.2.How many minutes per hour is the attendant not serving customers?
A)fewer than or equal to 13
B)greater than 13 but fewer than or equal to 17
C)greater than 17 but fewer than or equal to 21
D)greater than 21
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59
Scenario B.1
A single ticket taker can tear tickets and direct movie patrons to their seats at a rate of 90 per hour.Customers arrive every minute for assistance and always wait,regardless of how long the line gets.Arrivals are governed by the Poisson distribution and service is governed by the exponential distribution.
Use the information in Scenario B.1.What is the utilization of the ticket taker?
A)0.66
B)0.55
C)0.44
D)0.33
A single ticket taker can tear tickets and direct movie patrons to their seats at a rate of 90 per hour.Customers arrive every minute for assistance and always wait,regardless of how long the line gets.Arrivals are governed by the Poisson distribution and service is governed by the exponential distribution.
Use the information in Scenario B.1.What is the utilization of the ticket taker?
A)0.66
B)0.55
C)0.44
D)0.33
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60
Scenario B.1
A single ticket taker can tear tickets and direct movie patrons to their seats at a rate of 90 per hour.Customers arrive every minute for assistance and always wait,regardless of how long the line gets.Arrivals are governed by the Poisson distribution and service is governed by the exponential distribution.
Use the information in Scenario B.1.What is the average number of people waiting in line and being seated?
A)0.66
B)1.00
C)2.00
D)3.00
A single ticket taker can tear tickets and direct movie patrons to their seats at a rate of 90 per hour.Customers arrive every minute for assistance and always wait,regardless of how long the line gets.Arrivals are governed by the Poisson distribution and service is governed by the exponential distribution.
Use the information in Scenario B.1.What is the average number of people waiting in line and being seated?
A)0.66
B)1.00
C)2.00
D)3.00
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61
Scenario B.2
Weary travelers arrive at Will Rogers International Airport,pick up their luggage,stumble to their cars,and proceed to the parking lot attendant to pay for their parking.Traveler interarrival times are exponentially distributed,as are the service times of the attendant.On average,travelers arrive every 25 seconds.The attendant can process three travelers per minute,and processing rates follow a Poisson distribution.
Use the information in Scenario B.2.What is the average time a customer spends in line?
A)less than or equal to 1.0 minute
B)greater than 1.0 but fewer than or equal to 2.0 minutes
C)greater than 2.0 but fewer than or equal to 3.0 minutes
D)greater than 3.0 minutes
Weary travelers arrive at Will Rogers International Airport,pick up their luggage,stumble to their cars,and proceed to the parking lot attendant to pay for their parking.Traveler interarrival times are exponentially distributed,as are the service times of the attendant.On average,travelers arrive every 25 seconds.The attendant can process three travelers per minute,and processing rates follow a Poisson distribution.
Use the information in Scenario B.2.What is the average time a customer spends in line?
A)less than or equal to 1.0 minute
B)greater than 1.0 but fewer than or equal to 2.0 minutes
C)greater than 2.0 but fewer than or equal to 3.0 minutes
D)greater than 3.0 minutes
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62
Scenario B.4
Customers arrive at an airline ticket counter at the rate of 50 customers per hour,according to a Poisson distribution.There are three ticket agents.Customers select the first available agent from one line.Each agent can process 20 customers per hour with exponential service times.
Use the information in Scenario B.4.What is the average utilization of the three-agent system?
A)less than or equal to 80 percent
B)greater than 80 percent but less than or equal to 85 percent
C)greater than 85 percent but less than or equal to 90 percent
D)greater than 90 percent
Customers arrive at an airline ticket counter at the rate of 50 customers per hour,according to a Poisson distribution.There are three ticket agents.Customers select the first available agent from one line.Each agent can process 20 customers per hour with exponential service times.
Use the information in Scenario B.4.What is the average utilization of the three-agent system?
A)less than or equal to 80 percent
B)greater than 80 percent but less than or equal to 85 percent
C)greater than 85 percent but less than or equal to 90 percent
D)greater than 90 percent
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63
Scenario B.2
Weary travelers arrive at Will Rogers International Airport,pick up their luggage,stumble to their cars,and proceed to the parking lot attendant to pay for their parking.Traveler interarrival times are exponentially distributed,as are the service times of the attendant.On average,travelers arrive every 25 seconds.The attendant can process three travelers per minute,and processing rates follow a Poisson distribution.
Use the information in Scenario B.2.What is the average amount of time a customer spends waiting in line and being served?
A)less than or equal to 1.0 minutes
B)greater than 1.0 minutes but fewer than or equal to 1.50 minutes
C)greater than 1.5 minutes but fewer than or equal to 2.0 minutes
D)greater than 2.0 minutes
Weary travelers arrive at Will Rogers International Airport,pick up their luggage,stumble to their cars,and proceed to the parking lot attendant to pay for their parking.Traveler interarrival times are exponentially distributed,as are the service times of the attendant.On average,travelers arrive every 25 seconds.The attendant can process three travelers per minute,and processing rates follow a Poisson distribution.
Use the information in Scenario B.2.What is the average amount of time a customer spends waiting in line and being served?
A)less than or equal to 1.0 minutes
B)greater than 1.0 minutes but fewer than or equal to 1.50 minutes
C)greater than 1.5 minutes but fewer than or equal to 2.0 minutes
D)greater than 2.0 minutes
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64
Scenario B.3
Customers arrive at a bank for service,forming a single line to wait for the first available of three tellers.They arrive at the rate of 45 per hour and are served by the first available teller,who can service customers at a rate of 20 per hour,following a Poisson distribution.Customer arrival times are governed by the exponential distribution.
Use the information in Scenario B.3.What is the average time a customer spends in the system?
A)fewer than or equal to 5.0 minutes
B)greater than 5.0 minutes but fewer than or equal to 6.0 minutes
C)greater than 6.0 minutes but fewer than or equal to 7.0 minutes
D)greater than 7.0 minutes
Customers arrive at a bank for service,forming a single line to wait for the first available of three tellers.They arrive at the rate of 45 per hour and are served by the first available teller,who can service customers at a rate of 20 per hour,following a Poisson distribution.Customer arrival times are governed by the exponential distribution.
Use the information in Scenario B.3.What is the average time a customer spends in the system?
A)fewer than or equal to 5.0 minutes
B)greater than 5.0 minutes but fewer than or equal to 6.0 minutes
C)greater than 6.0 minutes but fewer than or equal to 7.0 minutes
D)greater than 7.0 minutes
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65
Scenario B.5
A trucking firm has five trucks that each requires service at an average rate of once every 50 hours,according to an exponential distribution.The firm has a mechanic who needs five hours to complete the average job with exponential service times.
Use the information in Scenario B.5.What is the average number of trucks in line waiting and being serviced?
A)fewer than or equal to 0.30 trucks
B)greater than 0.30 trucks but fewer than or equal to 0.40 trucks
C)greater than 0.40 trucks but fewer than or equal to 0.50 trucks
D)greater than 0.50 trucks
A trucking firm has five trucks that each requires service at an average rate of once every 50 hours,according to an exponential distribution.The firm has a mechanic who needs five hours to complete the average job with exponential service times.
Use the information in Scenario B.5.What is the average number of trucks in line waiting and being serviced?
A)fewer than or equal to 0.30 trucks
B)greater than 0.30 trucks but fewer than or equal to 0.40 trucks
C)greater than 0.40 trucks but fewer than or equal to 0.50 trucks
D)greater than 0.50 trucks
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66
Scenario B.5
A trucking firm has five trucks that each requires service at an average rate of once every 50 hours,according to an exponential distribution.The firm has a mechanic who needs five hours to complete the average job with exponential service times.
Use the information in Scenario B.5.What is the average number of trucks waiting for service?
A)fewer than or equal to 0.10
B)greater than 0.10 but fewer than or equal to 0.14
C)greater than 0.14 but fewer than or equal to 0.18
D)greater than 0.18
A trucking firm has five trucks that each requires service at an average rate of once every 50 hours,according to an exponential distribution.The firm has a mechanic who needs five hours to complete the average job with exponential service times.
Use the information in Scenario B.5.What is the average number of trucks waiting for service?
A)fewer than or equal to 0.10
B)greater than 0.10 but fewer than or equal to 0.14
C)greater than 0.14 but fewer than or equal to 0.18
D)greater than 0.18
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67
Scenario B.4
Customers arrive at an airline ticket counter at the rate of 50 customers per hour,according to a Poisson distribution.There are three ticket agents.Customers select the first available agent from one line.Each agent can process 20 customers per hour with exponential service times.
Use the information in Scenario B.4.What is the average number of customers waiting in line for service?
A)fewer than or equal to 4.0
B)greater than 4.0 but fewer than or equal to 4.5
C)greater than 4.5 but fewer than or equal to 5.0
D)greater than 5.0
Customers arrive at an airline ticket counter at the rate of 50 customers per hour,according to a Poisson distribution.There are three ticket agents.Customers select the first available agent from one line.Each agent can process 20 customers per hour with exponential service times.
Use the information in Scenario B.4.What is the average number of customers waiting in line for service?
A)fewer than or equal to 4.0
B)greater than 4.0 but fewer than or equal to 4.5
C)greater than 4.5 but fewer than or equal to 5.0
D)greater than 5.0
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68
Scenario B.5
A trucking firm has five trucks that each requires service at an average rate of once every 50 hours,according to an exponential distribution.The firm has a mechanic who needs five hours to complete the average job with exponential service times.
Use the information in Scenario B.5.What is the average time a truck spends in the system?
A)fewer than or equal to 6.5 hours
B)greater than 6.5 hours but fewer than or equal to 7.0 hours
C)greater than 7.0 hours but fewer than or equal to 7.5 hours
D)greater than 7.5 hours
A trucking firm has five trucks that each requires service at an average rate of once every 50 hours,according to an exponential distribution.The firm has a mechanic who needs five hours to complete the average job with exponential service times.
Use the information in Scenario B.5.What is the average time a truck spends in the system?
A)fewer than or equal to 6.5 hours
B)greater than 6.5 hours but fewer than or equal to 7.0 hours
C)greater than 7.0 hours but fewer than or equal to 7.5 hours
D)greater than 7.5 hours
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69
Scenario B.4
Customers arrive at an airline ticket counter at the rate of 50 customers per hour,according to a Poisson distribution.There are three ticket agents.Customers select the first available agent from one line.Each agent can process 20 customers per hour with exponential service times.
Use the information in Scenario B.4.What is the average waiting time in line?
A)fewer than or equal to 3.5 minutes
B)greater than 3.5 minutes but fewer than or equal to 4.5 minutes
C)greater than 4.5 minutes but fewer than or equal to 5.5 minutes
D)greater than 5.5 minutes
Customers arrive at an airline ticket counter at the rate of 50 customers per hour,according to a Poisson distribution.There are three ticket agents.Customers select the first available agent from one line.Each agent can process 20 customers per hour with exponential service times.
Use the information in Scenario B.4.What is the average waiting time in line?
A)fewer than or equal to 3.5 minutes
B)greater than 3.5 minutes but fewer than or equal to 4.5 minutes
C)greater than 4.5 minutes but fewer than or equal to 5.5 minutes
D)greater than 5.5 minutes
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70
Scenario B.3
Customers arrive at a bank for service,forming a single line to wait for the first available of three tellers.They arrive at the rate of 45 per hour and are served by the first available teller,who can service customers at a rate of 20 per hour,following a Poisson distribution.Customer arrival times are governed by the exponential distribution.
Use the information in Scenario B.3.What is the average number of customers in line?
A)fewer than or equal to 2.0
B)greater than 2.0 but fewer than or equal to 3.0
C)greater than 3.0 but fewer than or equal to 4.0
D)greater than 4.0
Customers arrive at a bank for service,forming a single line to wait for the first available of three tellers.They arrive at the rate of 45 per hour and are served by the first available teller,who can service customers at a rate of 20 per hour,following a Poisson distribution.Customer arrival times are governed by the exponential distribution.
Use the information in Scenario B.3.What is the average number of customers in line?
A)fewer than or equal to 2.0
B)greater than 2.0 but fewer than or equal to 3.0
C)greater than 3.0 but fewer than or equal to 4.0
D)greater than 4.0
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71
Scenario B.5
A trucking firm has five trucks that each requires service at an average rate of once every 50 hours,according to an exponential distribution.The firm has a mechanic who needs five hours to complete the average job with exponential service times.
Use the information in Scenario B.5.What is the average waiting time of trucks in line?
A)fewer than or equal to 1.5 hours
B)greater than 1.5 hours but fewer than or equal to 1.7 hours
C)greater than 1.7 hours but fewer than or equal to 1.9 hours
D)Greater than 1.9 hours
A trucking firm has five trucks that each requires service at an average rate of once every 50 hours,according to an exponential distribution.The firm has a mechanic who needs five hours to complete the average job with exponential service times.
Use the information in Scenario B.5.What is the average waiting time of trucks in line?
A)fewer than or equal to 1.5 hours
B)greater than 1.5 hours but fewer than or equal to 1.7 hours
C)greater than 1.7 hours but fewer than or equal to 1.9 hours
D)Greater than 1.9 hours
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72
Scenario B.4
Customers arrive at an airline ticket counter at the rate of 50 customers per hour,according to a Poisson distribution.There are three ticket agents.Customers select the first available agent from one line.Each agent can process 20 customers per hour with exponential service times.
Use the information in Scenario B.4.What is the average time spent in the system?
A)fewer than or equal to 6.5 minutes
B)greater than 6.5 minutes but fewer than or equal to 7.5 minutes
C)greater than 7.5 minutes but fewer than or equal to 8.5 minutes
D)greater than 8.5 minutes
Customers arrive at an airline ticket counter at the rate of 50 customers per hour,according to a Poisson distribution.There are three ticket agents.Customers select the first available agent from one line.Each agent can process 20 customers per hour with exponential service times.
Use the information in Scenario B.4.What is the average time spent in the system?
A)fewer than or equal to 6.5 minutes
B)greater than 6.5 minutes but fewer than or equal to 7.5 minutes
C)greater than 7.5 minutes but fewer than or equal to 8.5 minutes
D)greater than 8.5 minutes
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73
Scenario B.3
Customers arrive at a bank for service,forming a single line to wait for the first available of three tellers.They arrive at the rate of 45 per hour and are served by the first available teller,who can service customers at a rate of 20 per hour,following a Poisson distribution.Customer arrival times are governed by the exponential distribution.
Use the information in Scenario B.3.What is the average number of customers in the system?
A)fewer than or equal to 3.0
B)greater than 3.0 but fewer than or equal to 3.5
C)greater than 3.5 but fewer than or equal to 4.0
D)greater than 4.0
Customers arrive at a bank for service,forming a single line to wait for the first available of three tellers.They arrive at the rate of 45 per hour and are served by the first available teller,who can service customers at a rate of 20 per hour,following a Poisson distribution.Customer arrival times are governed by the exponential distribution.
Use the information in Scenario B.3.What is the average number of customers in the system?
A)fewer than or equal to 3.0
B)greater than 3.0 but fewer than or equal to 3.5
C)greater than 3.5 but fewer than or equal to 4.0
D)greater than 4.0
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74
Scenario B.6
The Jackson Machine Company has four cutting tools that need to be refurbished after an average of 30 hours,according to an exponential distribution.The single machine that refurbishes the tools needs 15 hours for each tool on the average,with exponential service times.
Use the information in Scenario B.6.What is the probability that there will be no tools in the system?
A)less than or equal to 0.16
B)greater than 0.16 but less than or equal to 0.19
C)greater than 0.19 but less than or equal to 0.22
D)greater than 0.22
The Jackson Machine Company has four cutting tools that need to be refurbished after an average of 30 hours,according to an exponential distribution.The single machine that refurbishes the tools needs 15 hours for each tool on the average,with exponential service times.
Use the information in Scenario B.6.What is the probability that there will be no tools in the system?
A)less than or equal to 0.16
B)greater than 0.16 but less than or equal to 0.19
C)greater than 0.19 but less than or equal to 0.22
D)greater than 0.22
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75
Scenario B.5
A trucking firm has five trucks that each requires service at an average rate of once every 50 hours,according to an exponential distribution.The firm has a mechanic who needs five hours to complete the average job with exponential service times.
Use the information in Scenario B.5.What is the average utilization of the mechanic?
A)less than or equal to 50 percent
B)greater than 50 percent but less than or equal to 60 percent
C)greater than 60 percent but less than or equal to 70 percent
D)greater than 70 percent
A trucking firm has five trucks that each requires service at an average rate of once every 50 hours,according to an exponential distribution.The firm has a mechanic who needs five hours to complete the average job with exponential service times.
Use the information in Scenario B.5.What is the average utilization of the mechanic?
A)less than or equal to 50 percent
B)greater than 50 percent but less than or equal to 60 percent
C)greater than 60 percent but less than or equal to 70 percent
D)greater than 70 percent
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76
Scenario B.2
Weary travelers arrive at Will Rogers International Airport,pick up their luggage,stumble to their cars,and proceed to the parking lot attendant to pay for their parking.Traveler interarrival times are exponentially distributed,as are the service times of the attendant.On average,travelers arrive every 25 seconds.The attendant can process three travelers per minute,and processing rates follow a Poisson distribution.
Use the information in Scenario B.2.What is the average number of customers in line?
A)fewer than or equal to 1.0
B)greater than 1.0 but fewer than or equal to 2.0
C)greater than 2.0 but fewer than or equal to 3.0
D)greater than 3.0
Weary travelers arrive at Will Rogers International Airport,pick up their luggage,stumble to their cars,and proceed to the parking lot attendant to pay for their parking.Traveler interarrival times are exponentially distributed,as are the service times of the attendant.On average,travelers arrive every 25 seconds.The attendant can process three travelers per minute,and processing rates follow a Poisson distribution.
Use the information in Scenario B.2.What is the average number of customers in line?
A)fewer than or equal to 1.0
B)greater than 1.0 but fewer than or equal to 2.0
C)greater than 2.0 but fewer than or equal to 3.0
D)greater than 3.0
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77
Scenario B.2
Weary travelers arrive at Will Rogers International Airport,pick up their luggage,stumble to their cars,and proceed to the parking lot attendant to pay for their parking.Traveler interarrival times are exponentially distributed,as are the service times of the attendant.On average,travelers arrive every 25 seconds.The attendant can process three travelers per minute,and processing rates follow a Poisson distribution.
Use the information in Scenario B.2.What is the probability that a traveler will pull up to the attendant's service window without having to wait for another customer?
A)less than or equal to 0.15
B)greater than 0.15 but less than or equal to 0.25
C)greater than 0.25 but less than or equal to 0.35
D)greater than 0.35
Weary travelers arrive at Will Rogers International Airport,pick up their luggage,stumble to their cars,and proceed to the parking lot attendant to pay for their parking.Traveler interarrival times are exponentially distributed,as are the service times of the attendant.On average,travelers arrive every 25 seconds.The attendant can process three travelers per minute,and processing rates follow a Poisson distribution.
Use the information in Scenario B.2.What is the probability that a traveler will pull up to the attendant's service window without having to wait for another customer?
A)less than or equal to 0.15
B)greater than 0.15 but less than or equal to 0.25
C)greater than 0.25 but less than or equal to 0.35
D)greater than 0.35
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78
Scenario B.3
Customers arrive at a bank for service,forming a single line to wait for the first available of three tellers.They arrive at the rate of 45 per hour and are served by the first available teller,who can service customers at a rate of 20 per hour,following a Poisson distribution.Customer arrival times are governed by the exponential distribution.
Use the information in Scenario B.3.What is the average utilization of the three bank tellers?
A)less than or equal to 60 percent
B)greater than 60 percent but less than or equal to 70 percent
C)greater than 70 percent but less than or equal to 80 percent
D)greater than 80 percent
Customers arrive at a bank for service,forming a single line to wait for the first available of three tellers.They arrive at the rate of 45 per hour and are served by the first available teller,who can service customers at a rate of 20 per hour,following a Poisson distribution.Customer arrival times are governed by the exponential distribution.
Use the information in Scenario B.3.What is the average utilization of the three bank tellers?
A)less than or equal to 60 percent
B)greater than 60 percent but less than or equal to 70 percent
C)greater than 70 percent but less than or equal to 80 percent
D)greater than 80 percent
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79
Scenario B.5
A trucking firm has five trucks that each requires service at an average rate of once every 50 hours,according to an exponential distribution.The firm has a mechanic who needs five hours to complete the average job with exponential service times.
Use the information in Scenario B.5.What is the probability that there will be no trucks in the system?
A)less than or equal to 0.50
B)greater than 0.50 but less than or equal to 0.60
C)greater than 0.60 but less than or equal to 0.70
D)greater than 0.70
A trucking firm has five trucks that each requires service at an average rate of once every 50 hours,according to an exponential distribution.The firm has a mechanic who needs five hours to complete the average job with exponential service times.
Use the information in Scenario B.5.What is the probability that there will be no trucks in the system?
A)less than or equal to 0.50
B)greater than 0.50 but less than or equal to 0.60
C)greater than 0.60 but less than or equal to 0.70
D)greater than 0.70
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80
Scenario B.2
Weary travelers arrive at Will Rogers International Airport,pick up their luggage,stumble to their cars,and proceed to the parking lot attendant to pay for their parking.Traveler interarrival times are exponentially distributed,as are the service times of the attendant.On average,travelers arrive every 25 seconds.The attendant can process three travelers per minute,and processing rates follow a Poisson distribution.
Use the information in Scenario B.2.What is the average number of customers in the system?
A)fewer than or equal to 3.0
B)greater than 3.0 but fewer than or equal to 5.0
C)greater than 5.0 but fewer than or equal to 7.0
D)greater than 7.0
Weary travelers arrive at Will Rogers International Airport,pick up their luggage,stumble to their cars,and proceed to the parking lot attendant to pay for their parking.Traveler interarrival times are exponentially distributed,as are the service times of the attendant.On average,travelers arrive every 25 seconds.The attendant can process three travelers per minute,and processing rates follow a Poisson distribution.
Use the information in Scenario B.2.What is the average number of customers in the system?
A)fewer than or equal to 3.0
B)greater than 3.0 but fewer than or equal to 5.0
C)greater than 5.0 but fewer than or equal to 7.0
D)greater than 7.0
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