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Deck 12: Introduction to Simulation Using Analytic Solver Platform

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Question
What is the correct Analytic Solver Platform function for generating random numbers from the following distribution on the number of children in families assume a reference to the current worksheet).
 A  B  # of children  P# of children) 1210.20320.30430.25540.20650.05\begin{array} { c c c } & \text { A } & \text { B } \\& \text { \# of children } & \text { P\# of children) } \\1& & \\\hline 2 & 1 & 0.20 \\3 & 2 & 0.30 \\4 & 3 & 0.25 \\5 & 4 & 0.20 \\6 & 5 & 0.05\end{array}

A)=PsiCustomA2:A6,B2:B6)
B)=PsiRandomA2:A6,B2:B6)
C)=PsiDiscreteA2:A6,B2:B6)
D)=PsiUniformA2:A6,B2:B6)
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Question
Why would a manager be interested in analyzing risk?

A)To determine a most likely outcome.
B)To determine a range of outcomes.
C)To determine a distribution of outcomes.
D)To determine a confidence interval on most likely outcomes.
Question
Simulation is used to

A)find possible worst case values for the dependent variables).
B)find worst case and best case values for the dependent variables).
C)find distribution information for the dependent variables).
D)find median values for the dependent variables).
Question
Exhibit 12.3
The following questions use the information below.
An auto parts store wants to simulate its inventory system for engine oil.The company has collected data on the shipping time for oil and the daily demand for cases of oil.A case of oil generates a $10 profit.Customers can buy oil at any auto parts store so there are no backorders the company loses the sale and profit).The company orders 30 cases whenever the inventory position falls below the reorder point of 15 cases.Orders are placed at the beginning of the day and delivered at the beginning of the day so the oil is available on the arrival day.An average service level of 99% is desired.The following spreadsheets have been developed for this problem.The company has simulated 2 weeks of operation for their inventory system.The current level of on-hand inventory is 25 units and no orders are pending.
ABCDEFG1\begin{array} { | l | l | l | l | l | l | l | l | } \hline & \mathbf { A } & \mathbf { B } & \mathbf { C } & \mathbf { D } & \mathbf { E } & \mathbf { F } & \mathbf { G } \\\hline 1 & & & & & & & \\\hline\end{array} <strong>Exhibit 12.3 The following questions use the information below. An auto parts store wants to simulate its inventory system for engine oil.The company has collected data on the shipping time for oil and the daily demand for cases of oil.A case of oil generates a $10 profit.Customers can buy oil at any auto parts store so there are no backorders the company loses the sale and profit).The company orders 30 cases whenever the inventory position falls below the reorder point of 15 cases.Orders are placed at the beginning of the day and delivered at the beginning of the day so the oil is available on the arrival day.An average service level of 99% is desired.The following spreadsheets have been developed for this problem.The company has simulated 2 weeks of operation for their inventory system.The current level of on-hand inventory is 25 units and no orders are pending. \begin{array} { | l | l | l | l | l | l | l | l | } \hline & \mathbf { A } & \mathbf { B } & \mathbf { C } & \mathbf { D } & \mathbf { E } & \mathbf { F } & \mathbf { G } \\ \hline 1 & & & & & & & \\ \hline \end{array} -Using the information in Exhibit 12.3,what Analytic Solver Platform function should be used for generating a random shipping time based on the Data spreadsheet distribution for shipping time?</strong> A)=PsiCumul$B$6:$C$8) B)=PsiCustom$B$6:$B$8,$C$8:$C$8) C)=PsiGeneralData!$B$6,probability $C$8) D)=PsiDiscrete$B$6:$B$8,$C$8:$C$8) <div style=padding-top: 35px>

-Using the information in Exhibit 12.3,what Analytic Solver Platform function should be used for generating a random shipping time based on the Data spreadsheet distribution for shipping time?

A)=PsiCumul$B$6:$C$8)
B)=PsiCustom$B$6:$B$8,$C$8:$C$8)
C)=PsiGeneralData!$B$6,probability $C$8)
D)=PsiDiscrete$B$6:$B$8,$C$8:$C$8)
Question
What method is used to generate observations from a distribution?

A)random number generator
B)sample generator
C)problem generator
D)steady state generator
Question
Which of the following best describes a random variable?

A)A spreadsheet input cell containing a random number generator.
B)The outcome of a simulation model.
C)Any variable whose value cannot be predicted with certainty.
D)All of these describe random variables.
Question
What is a weakness of manual what-if analysis?

A)biased sample values of performance measures
B)hard to do many what-if scenarios
C)does not provide distribution information
D)all of these are weaknesses
Question
Which Analytic Solver Platform function will generate random numbers between 3 and 7 from a continuous uniform distribution?

A)=PsiConUniform3,7)
B)=PsiUniDist3,7)
C)=PsiUniform3,7)
D)=PsiTruncate3,7)
Question
A variable whose value cannot be predicted or set with certainty is a

A)discrete variable
B)random variable
C)realistic variable
D)simulation variable
Question
Best case analysis is an)view of the problem.

A)pessimistic
B)optimistic
C)risky
D)certain
Question
Which Analytic Solver Platform function will generate random integer numbers between 2 and 8?

A)=PsiIntUniform2,8)
B)=PsiDiscrete2,8)
C)=PsiUniform2,8)
D)=PsiRandom2,8)
Question
As the number of replicates in a simulation increases the width of a confidence interval computed from the simulation results will

A)decrease.
B)increase.
C)remain the same.
D)change depends on standard deviation.
Question
Worst case analysis is an)view of the problem.

A)pessimistic
B)optimistic
C)risky
D)certain
Question
Which of the following distributions can be generated by Analytic Solver Platform?

A)Poisson
B)Normal
C)Weibull
D)All of these
Question
Inventory position is defined as

A)ending inventory + outstanding orders
B)ending inventory − backorders
C)outstanding orders − on hand inventory
D)ending inventory
Question
Exhibit 12.3
The following questions use the information below.
An auto parts store wants to simulate its inventory system for engine oil.The company has collected data on the shipping time for oil and the daily demand for cases of oil.A case of oil generates a $10 profit.Customers can buy oil at any auto parts store so there are no backorders the company loses the sale and profit).The company orders 30 cases whenever the inventory position falls below the reorder point of 15 cases.Orders are placed at the beginning of the day and delivered at the beginning of the day so the oil is available on the arrival day.An average service level of 99% is desired.The following spreadsheets have been developed for this problem.The company has simulated 2 weeks of operation for their inventory system.The current level of on-hand inventory is 25 units and no orders are pending.
ABCDEFG1\begin{array} { | l | l | l | l | l | l | l | l | } \hline & \mathbf { A } & \mathbf { B } & \mathbf { C } & \mathbf { D } & \mathbf { E } & \mathbf { F } & \mathbf { G } \\\hline 1 & & & & & & & \\\hline\end{array} <strong>Exhibit 12.3 The following questions use the information below. An auto parts store wants to simulate its inventory system for engine oil.The company has collected data on the shipping time for oil and the daily demand for cases of oil.A case of oil generates a $10 profit.Customers can buy oil at any auto parts store so there are no backorders the company loses the sale and profit).The company orders 30 cases whenever the inventory position falls below the reorder point of 15 cases.Orders are placed at the beginning of the day and delivered at the beginning of the day so the oil is available on the arrival day.An average service level of 99% is desired.The following spreadsheets have been developed for this problem.The company has simulated 2 weeks of operation for their inventory system.The current level of on-hand inventory is 25 units and no orders are pending. \begin{array} { | l | l | l | l | l | l | l | l | } \hline & \mathbf { A } & \mathbf { B } & \mathbf { C } & \mathbf { D } & \mathbf { E } & \mathbf { F } & \mathbf { G } \\ \hline 1 & & & & & & & \\ \hline \end{array} -Using the information in Exhibit 12.3,what formula should go in cell C9 and copied to C10:C21 of the MODEL sheet to compute units received?</strong> A)=COUNT$J$8:J8,A9)*$D$4 B)=COUNTIF$J$8:J8,A8)*$C$4 C)=COUNTIF$J$8:J8,A9)*$D$5 D)=COUNTIF$J$8:J8,A9)*$D$4 <div style=padding-top: 35px>

-Using the information in Exhibit 12.3,what formula should go in cell C9 and copied to C10:C21 of the MODEL sheet to compute units received?

A)=COUNT$J$8:J8,A9)*$D$4
B)=COUNTIF$J$8:J8,A8)*$C$4
C)=COUNTIF$J$8:J8,A9)*$D$5
D)=COUNTIF$J$8:J8,A9)*$D$4
Question
If chance or uncertainty is present in a system then there is an element of in the decision-making problem.

A)danger
B)security
C)risk
D)difficulty
Question
Which of the following do not help determine the magnitude of risk in a decision-making problem?

A)The level of uncertainty in outcome.
B)The magnitude of potential loss.
C)The level of management interest in the problem.
D)The level of uncertainty in input variables.
Question
How should one determine which RNGs to employ in a spreadsheet simulation model?

A)Use the Analytic Solver Platform gallery and pick a distribution.
B)Generate thousands of samples and compare the resulting histogram to ensure the distribution is correct.
C)Solve the deterministic model repeatedly and use Analytic Solver Platform distribution fitting tools.
D)The distributions selected should represent the underlying pool of values expected to occur.
Question
The Analytic Solver Platform is a good simulation tool because

A)it is difficult to use
B)it provides several polymorphic spreadsheet interpreter "psi" functions to facilitate Excel calculations
C)it has a limited choice of statistical distributions making it difficult to approximate reality
D)it requires a standalone platform operating independently of Excel
Question
Exhibit 12.4.
The following questions use the information below.
The manager of a Washington,DC sightseeing tour company is concerned about overbooking for one of his bus tours.The bus has 15 seats but sometimes there are empty seats.His records show that about 20% of ticket holders do not show up for their tour.Tickets cost $10 and are non-refundable.If the manager overbooks the tour and more than 15 passengers show up,some of them will be bumped to a later tour.This bumping costs the company $25 in various expenses to keep the customer happy until the next tour.The manager wants to see what happens to profits if 18 reservations are accepted.
<strong>Exhibit 12.4. The following questions use the information below. The manager of a Washington,DC sightseeing tour company is concerned about overbooking for one of his bus tours.The bus has 15 seats but sometimes there are empty seats.His records show that about 20% of ticket holders do not show up for their tour.Tickets cost $10 and are non-refundable.If the manager overbooks the tour and more than 15 passengers show up,some of them will be bumped to a later tour.This bumping costs the company $25 in various expenses to keep the customer happy until the next tour.The manager wants to see what happens to profits if 18 reservations are accepted. Using the information in Exhibit 12.4,what formula should go in cell C15 of the worksheet to determine the Marginal Profit?</strong> A)=C12+C13+C14 B)=C12-C13-C14 C)=C12-C14+C13 D)=C12-C13-C14) <div style=padding-top: 35px>
Using the information in Exhibit 12.4,what formula should go in cell C15 of the worksheet to determine the Marginal Profit?

A)=C12+C13+C14
B)=C12-C13-C14
C)=C12-C14+C13
D)=C12-C13-C14)
Question
Exhibit 12.3
The following questions use the information below.
An auto parts store wants to simulate its inventory system for engine oil.The company has collected data on the shipping time for oil and the daily demand for cases of oil.A case of oil generates a $10 profit.Customers can buy oil at any auto parts store so there are no backorders the company loses the sale and profit).The company orders 30 cases whenever the inventory position falls below the reorder point of 15 cases.Orders are placed at the beginning of the day and delivered at the beginning of the day so the oil is available on the arrival day.An average service level of 99% is desired.The following spreadsheets have been developed for this problem.The company has simulated 2 weeks of operation for their inventory system.The current level of on-hand inventory is 25 units and no orders are pending.
ABCDEFG1\begin{array} { | l | l | l | l | l | l | l | l | } \hline & \mathbf { A } & \mathbf { B } & \mathbf { C } & \mathbf { D } & \mathbf { E } & \mathbf { F } & \mathbf { G } \\\hline 1 & & & & & & & \\\hline\end{array} <strong>Exhibit 12.3 The following questions use the information below. An auto parts store wants to simulate its inventory system for engine oil.The company has collected data on the shipping time for oil and the daily demand for cases of oil.A case of oil generates a $10 profit.Customers can buy oil at any auto parts store so there are no backorders the company loses the sale and profit).The company orders 30 cases whenever the inventory position falls below the reorder point of 15 cases.Orders are placed at the beginning of the day and delivered at the beginning of the day so the oil is available on the arrival day.An average service level of 99% is desired.The following spreadsheets have been developed for this problem.The company has simulated 2 weeks of operation for their inventory system.The current level of on-hand inventory is 25 units and no orders are pending. \begin{array} { | l | l | l | l | l | l | l | l | } \hline & \mathbf { A } & \mathbf { B } & \mathbf { C } & \mathbf { D } & \mathbf { E } & \mathbf { F } & \mathbf { G } \\ \hline 1 & & & & & & & \\ \hline \end{array} -Using the information in Exhibit 12.3,what Analytic Solver Platform function should be used in cell I8 to determine the lead time for an order?</strong> A)=PsiDiscrete$B$6:$B$8,$C$6:$C$8) B)=PsiPoissonData!$B$6:$B$8,$Data!$C$6:$C$8) C)=PsiBinomialData!$B$6:$B$8,$Data!$C$6:$C$8) D)=PsiNormal$B$6:$C$8) <div style=padding-top: 35px>

-Using the information in Exhibit 12.3,what Analytic Solver Platform function should be used in cell I8 to determine the lead time for an order?

A)=PsiDiscrete$B$6:$B$8,$C$6:$C$8)
B)=PsiPoissonData!$B$6:$B$8,$Data!$C$6:$C$8)
C)=PsiBinomialData!$B$6:$B$8,$Data!$C$6:$C$8)
D)=PsiNormal$B$6:$C$8)
Question
Which of the following probability distributions are associated with discrete outcomes?

A)Gamma
B)Custom
C)Normal
D)Exponential
Question
If a spreadsheet simulation user has a probability distribution that may assume 1 of 5 values with nearly equal probability,this user has what type of distribution?

A)A discrete distribution.
B)A continuous distribution.
C)A triangular distribution.
D)A normal distribution.
Question
Exhibit 12.4.
The following questions use the information below.
The manager of a Washington,DC sightseeing tour company is concerned about overbooking for one of his bus tours.The bus has 15 seats but sometimes there are empty seats.His records show that about 20% of ticket holders do not show up for their tour.Tickets cost $10 and are non-refundable.If the manager overbooks the tour and more than 15 passengers show up,some of them will be bumped to a later tour.This bumping costs the company $25 in various expenses to keep the customer happy until the next tour.The manager wants to see what happens to profits if 18 reservations are accepted.
<strong>Exhibit 12.4. The following questions use the information below. The manager of a Washington,DC sightseeing tour company is concerned about overbooking for one of his bus tours.The bus has 15 seats but sometimes there are empty seats.His records show that about 20% of ticket holders do not show up for their tour.Tickets cost $10 and are non-refundable.If the manager overbooks the tour and more than 15 passengers show up,some of them will be bumped to a later tour.This bumping costs the company $25 in various expenses to keep the customer happy until the next tour.The manager wants to see what happens to profits if 18 reservations are accepted. Using the information in Exhibit 12.4,what formula should go in cell C14 of the worksheet to determine the Cost of Bumping Passengers?</strong> A)=C5*MAXC10-C4,0) B)=C5*MAXC10,0) C)=MAXC10-C4,0) D)=C5*MAXC10,C4) <div style=padding-top: 35px>
Using the information in Exhibit 12.4,what formula should go in cell C14 of the worksheet to determine the Cost of Bumping Passengers?

A)=C5*MAXC10-C4,0)
B)=C5*MAXC10,0)
C)=MAXC10-C4,0)
D)=C5*MAXC10,C4)
Question
In general there are two primary issues involved in risk.What are these two issues?

A)Validation of spreadsheet model and setting up for the simulation.
B)Uncertainty of the outcome and magnitude of the potential loss.
C)Maximum amount of profit made and the probability of a maximum profit.
D)Maximum amount of loss incurred and the likelihood of that loss.
Question
Exhibit 12.4.
The following questions use the information below.
The manager of a Washington,DC sightseeing tour company is concerned about overbooking for one of his bus tours.The bus has 15 seats but sometimes there are empty seats.His records show that about 20% of ticket holders do not show up for their tour.Tickets cost $10 and are non-refundable.If the manager overbooks the tour and more than 15 passengers show up,some of them will be bumped to a later tour.This bumping costs the company $25 in various expenses to keep the customer happy until the next tour.The manager wants to see what happens to profits if 18 reservations are accepted.
<strong>Exhibit 12.4. The following questions use the information below. The manager of a Washington,DC sightseeing tour company is concerned about overbooking for one of his bus tours.The bus has 15 seats but sometimes there are empty seats.His records show that about 20% of ticket holders do not show up for their tour.Tickets cost $10 and are non-refundable.If the manager overbooks the tour and more than 15 passengers show up,some of them will be bumped to a later tour.This bumping costs the company $25 in various expenses to keep the customer happy until the next tour.The manager wants to see what happens to profits if 18 reservations are accepted. Using the information in Exhibit 12.4,what Analytic Solver Platform function should be used in cell C10 to determine the number of Passengers to Board?</strong> A)=PsiBinomial$C$8,1-$C$6) B)=PsiBinomial1-$C$6,$C$8) C)=PsiBinomial$C$8,$C$6) D)=PsiBinomial$C$6,$C$8) <div style=padding-top: 35px>
Using the information in Exhibit 12.4,what Analytic Solver Platform function should be used in cell C10 to determine the number of Passengers to Board?

A)=PsiBinomial$C$8,1-$C$6)
B)=PsiBinomial1-$C$6,$C$8)
C)=PsiBinomial$C$8,$C$6)
D)=PsiBinomial$C$6,$C$8)
Question
The average demand is 4.45 cases per day.Using the information in Exhibit 12.3,what formula should go in cell H4 to determine the average lost sales?

A)=H3*4.45*10*30
B)=1-H3)*4.45*10
C)=1-H3)*4.45*30
D)=1-H3)*4.45*10*30
Question
Exhibit 12.3
The following questions use the information below.
An auto parts store wants to simulate its inventory system for engine oil.The company has collected data on the shipping time for oil and the daily demand for cases of oil.A case of oil generates a $10 profit.Customers can buy oil at any auto parts store so there are no backorders the company loses the sale and profit).The company orders 30 cases whenever the inventory position falls below the reorder point of 15 cases.Orders are placed at the beginning of the day and delivered at the beginning of the day so the oil is available on the arrival day.An average service level of 99% is desired.The following spreadsheets have been developed for this problem.The company has simulated 2 weeks of operation for their inventory system.The current level of on-hand inventory is 25 units and no orders are pending.
ABCDEFG1\begin{array} { | l | l | l | l | l | l | l | l | } \hline & \mathbf { A } & \mathbf { B } & \mathbf { C } & \mathbf { D } & \mathbf { E } & \mathbf { F } & \mathbf { G } \\\hline 1 & & & & & & & \\\hline\end{array} <strong>Exhibit 12.3 The following questions use the information below. An auto parts store wants to simulate its inventory system for engine oil.The company has collected data on the shipping time for oil and the daily demand for cases of oil.A case of oil generates a $10 profit.Customers can buy oil at any auto parts store so there are no backorders the company loses the sale and profit).The company orders 30 cases whenever the inventory position falls below the reorder point of 15 cases.Orders are placed at the beginning of the day and delivered at the beginning of the day so the oil is available on the arrival day.An average service level of 99% is desired.The following spreadsheets have been developed for this problem.The company has simulated 2 weeks of operation for their inventory system.The current level of on-hand inventory is 25 units and no orders are pending. \begin{array} { | l | l | l | l | l | l | l | l | } \hline & \mathbf { A } & \mathbf { B } & \mathbf { C } & \mathbf { D } & \mathbf { E } & \mathbf { F } & \mathbf { G } \\ \hline 1 & & & & & & & \\ \hline \end{array} -Using the information in Exhibit 12.3,what formula should go in cell J8 to determine the arrival date for an order?</strong> A)=IFI8=0,0,A8+I8) B)=IFI8=0,0,A8+1+I8) C)=IFI8=1,0,A8+1+I8) D)=IFI8=0,A8+1+I8,0) <div style=padding-top: 35px>

-Using the information in Exhibit 12.3,what formula should go in cell J8 to determine the arrival date for an order?

A)=IFI8=0,0,A8+I8)
B)=IFI8=0,0,A8+1+I8)
C)=IFI8=1,0,A8+1+I8)
D)=IFI8=0,A8+1+I8,0)
Question
Exhibit 12.4.
The following questions use the information below.
The manager of a Washington,DC sightseeing tour company is concerned about overbooking for one of his bus tours.The bus has 15 seats but sometimes there are empty seats.His records show that about 20% of ticket holders do not show up for their tour.Tickets cost $10 and are non-refundable.If the manager overbooks the tour and more than 15 passengers show up,some of them will be bumped to a later tour.This bumping costs the company $25 in various expenses to keep the customer happy until the next tour.The manager wants to see what happens to profits if 18 reservations are accepted.
<strong>Exhibit 12.4. The following questions use the information below. The manager of a Washington,DC sightseeing tour company is concerned about overbooking for one of his bus tours.The bus has 15 seats but sometimes there are empty seats.His records show that about 20% of ticket holders do not show up for their tour.Tickets cost $10 and are non-refundable.If the manager overbooks the tour and more than 15 passengers show up,some of them will be bumped to a later tour.This bumping costs the company $25 in various expenses to keep the customer happy until the next tour.The manager wants to see what happens to profits if 18 reservations are accepted. Using the information in Exhibit 12.4,what formula should go in cell C13 of the worksheet to determine the Opportunity Cost of Empty Seats?</strong> A)=C5*MAXC4,C10) B)=C5*MAXC4,0) C)=MAXC4-C10,0) D)=C5*MAXC4-C10,0) <div style=padding-top: 35px>
Using the information in Exhibit 12.4,what formula should go in cell C13 of the worksheet to determine the Opportunity Cost of Empty Seats?

A)=C5*MAXC4,C10)
B)=C5*MAXC4,0)
C)=MAXC4-C10,0)
D)=C5*MAXC4-C10,0)
Question
What function should be used for generating random numbers from a normal distribution with mean μ and standard deviation σ?
Question
Which of the following probability distributions are associated with continuous outcomes?
a.Poisson
b.Binomial
c.Custom
d.Triangular
Question
Exhibit 12.3
The following questions use the information below.
An auto parts store wants to simulate its inventory system for engine oil.The company has collected data on the shipping time for oil and the daily demand for cases of oil.A case of oil generates a $10 profit.Customers can buy oil at any auto parts store so there are no backorders the company loses the sale and profit).The company orders 30 cases whenever the inventory position falls below the reorder point of 15 cases.Orders are placed at the beginning of the day and delivered at the beginning of the day so the oil is available on the arrival day.An average service level of 99% is desired.The following spreadsheets have been developed for this problem.The company has simulated 2 weeks of operation for their inventory system.The current level of on-hand inventory is 25 units and no orders are pending.
ABCDEFG1\begin{array} { | l | l | l | l | l | l | l | l | } \hline & \mathbf { A } & \mathbf { B } & \mathbf { C } & \mathbf { D } & \mathbf { E } & \mathbf { F } & \mathbf { G } \\\hline 1 & & & & & & & \\\hline\end{array} <strong>Exhibit 12.3 The following questions use the information below. An auto parts store wants to simulate its inventory system for engine oil.The company has collected data on the shipping time for oil and the daily demand for cases of oil.A case of oil generates a $10 profit.Customers can buy oil at any auto parts store so there are no backorders the company loses the sale and profit).The company orders 30 cases whenever the inventory position falls below the reorder point of 15 cases.Orders are placed at the beginning of the day and delivered at the beginning of the day so the oil is available on the arrival day.An average service level of 99% is desired.The following spreadsheets have been developed for this problem.The company has simulated 2 weeks of operation for their inventory system.The current level of on-hand inventory is 25 units and no orders are pending. \begin{array} { | l | l | l | l | l | l | l | l | } \hline & \mathbf { A } & \mathbf { B } & \mathbf { C } & \mathbf { D } & \mathbf { E } & \mathbf { F } & \mathbf { G } \\ \hline 1 & & & & & & & \\ \hline \end{array} -Using the information in Exhibit 12.3,what formula should go in cell H8 to determine if an order should be placed?</strong> A)=IFG8<$D$3,1,0) B)=IFG8>$D$3,1,0) C)=IFG8<$D$3,0,1) D)=IFG8<$D$4,1,0) <div style=padding-top: 35px>

-Using the information in Exhibit 12.3,what formula should go in cell H8 to determine if an order should be placed?

A)=IFG8<$D$3,1,0)
B)=IFG8>$D$3,1,0)
C)=IFG8<$D$3,0,1)
D)=IFG8<$D$4,1,0)
Question
Exhibit 12.3
The following questions use the information below.
An auto parts store wants to simulate its inventory system for engine oil.The company has collected data on the shipping time for oil and the daily demand for cases of oil.A case of oil generates a $10 profit.Customers can buy oil at any auto parts store so there are no backorders the company loses the sale and profit).The company orders 30 cases whenever the inventory position falls below the reorder point of 15 cases.Orders are placed at the beginning of the day and delivered at the beginning of the day so the oil is available on the arrival day.An average service level of 99% is desired.The following spreadsheets have been developed for this problem.The company has simulated 2 weeks of operation for their inventory system.The current level of on-hand inventory is 25 units and no orders are pending.
ABCDEFG1\begin{array} { | l | l | l | l | l | l | l | l | } \hline & \mathbf { A } & \mathbf { B } & \mathbf { C } & \mathbf { D } & \mathbf { E } & \mathbf { F } & \mathbf { G } \\\hline 1 & & & & & & & \\\hline\end{array} <strong>Exhibit 12.3 The following questions use the information below. An auto parts store wants to simulate its inventory system for engine oil.The company has collected data on the shipping time for oil and the daily demand for cases of oil.A case of oil generates a $10 profit.Customers can buy oil at any auto parts store so there are no backorders the company loses the sale and profit).The company orders 30 cases whenever the inventory position falls below the reorder point of 15 cases.Orders are placed at the beginning of the day and delivered at the beginning of the day so the oil is available on the arrival day.An average service level of 99% is desired.The following spreadsheets have been developed for this problem.The company has simulated 2 weeks of operation for their inventory system.The current level of on-hand inventory is 25 units and no orders are pending. \begin{array} { | l | l | l | l | l | l | l | l | } \hline & \mathbf { A } & \mathbf { B } & \mathbf { C } & \mathbf { D } & \mathbf { E } & \mathbf { F } & \mathbf { G } \\ \hline 1 & & & & & & & \\ \hline \end{array} -Using the information in Exhibit 12.3,what formula should go in cell G9 to compute inventory position?</strong> A)=G8+E9-IFH8=1,$D$4,0) B)=G8-E9+IFH8=1,$D$4,0) C)=G8-E9+IFH8=1,$D$5,0) D)=G8-E9+IFH8=1,0,$D$4) <div style=padding-top: 35px>

-Using the information in Exhibit 12.3,what formula should go in cell G9 to compute inventory position?

A)=G8+E9-IFH8=1,$D$4,0)
B)=G8-E9+IFH8=1,$D$4,0)
C)=G8-E9+IFH8=1,$D$5,0)
D)=G8-E9+IFH8=1,0,$D$4)
Question
What function should be used for generating random integer numbers between 2 and 8?
Question
What function should be used for generating random numbers between a and b from a symmetric triangular distribution when the most likely value is a + b)/2?
Question
Exhibit 12.3
The following questions use the information below.
An auto parts store wants to simulate its inventory system for engine oil.The company has collected data on the shipping time for oil and the daily demand for cases of oil.A case of oil generates a $10 profit.Customers can buy oil at any auto parts store so there are no backorders the company loses the sale and profit).The company orders 30 cases whenever the inventory position falls below the reorder point of 15 cases.Orders are placed at the beginning of the day and delivered at the beginning of the day so the oil is available on the arrival day.An average service level of 99% is desired.The following spreadsheets have been developed for this problem.The company has simulated 2 weeks of operation for their inventory system.The current level of on-hand inventory is 25 units and no orders are pending.
ABCDEFG1\begin{array} { | l | l | l | l | l | l | l | l | } \hline & \mathbf { A } & \mathbf { B } & \mathbf { C } & \mathbf { D } & \mathbf { E } & \mathbf { F } & \mathbf { G } \\\hline 1 & & & & & & & \\\hline\end{array} <strong>Exhibit 12.3 The following questions use the information below. An auto parts store wants to simulate its inventory system for engine oil.The company has collected data on the shipping time for oil and the daily demand for cases of oil.A case of oil generates a $10 profit.Customers can buy oil at any auto parts store so there are no backorders the company loses the sale and profit).The company orders 30 cases whenever the inventory position falls below the reorder point of 15 cases.Orders are placed at the beginning of the day and delivered at the beginning of the day so the oil is available on the arrival day.An average service level of 99% is desired.The following spreadsheets have been developed for this problem.The company has simulated 2 weeks of operation for their inventory system.The current level of on-hand inventory is 25 units and no orders are pending. \begin{array} { | l | l | l | l | l | l | l | l | } \hline & \mathbf { A } & \mathbf { B } & \mathbf { C } & \mathbf { D } & \mathbf { E } & \mathbf { F } & \mathbf { G } \\ \hline 1 & & & & & & & \\ \hline \end{array} -Using the information in Exhibit 12.3,what formula should go in cell H3 to compute the service level?</strong> A)=SUMG8:G21)/SUMD8:D21) B)=SUMD8:D21)/SUME8:E21) C)=SUME8:E21)/SUMD8:D21) D)=SUMF8:F21)/SUMG8:G21) <div style=padding-top: 35px>

-Using the information in Exhibit 12.3,what formula should go in cell H3 to compute the service level?

A)=SUMG8:G21)/SUMD8:D21)
B)=SUMD8:D21)/SUME8:E21)
C)=SUME8:E21)/SUMD8:D21)
D)=SUMF8:F21)/SUMG8:G21)
Question
Exhibit 12.3
The following questions use the information below.
An auto parts store wants to simulate its inventory system for engine oil.The company has collected data on the shipping time for oil and the daily demand for cases of oil.A case of oil generates a $10 profit.Customers can buy oil at any auto parts store so there are no backorders the company loses the sale and profit).The company orders 30 cases whenever the inventory position falls below the reorder point of 15 cases.Orders are placed at the beginning of the day and delivered at the beginning of the day so the oil is available on the arrival day.An average service level of 99% is desired.The following spreadsheets have been developed for this problem.The company has simulated 2 weeks of operation for their inventory system.The current level of on-hand inventory is 25 units and no orders are pending.
ABCDEFG1\begin{array} { | l | l | l | l | l | l | l | l | } \hline & \mathbf { A } & \mathbf { B } & \mathbf { C } & \mathbf { D } & \mathbf { E } & \mathbf { F } & \mathbf { G } \\\hline 1 & & & & & & & \\\hline\end{array} <strong>Exhibit 12.3 The following questions use the information below. An auto parts store wants to simulate its inventory system for engine oil.The company has collected data on the shipping time for oil and the daily demand for cases of oil.A case of oil generates a $10 profit.Customers can buy oil at any auto parts store so there are no backorders the company loses the sale and profit).The company orders 30 cases whenever the inventory position falls below the reorder point of 15 cases.Orders are placed at the beginning of the day and delivered at the beginning of the day so the oil is available on the arrival day.An average service level of 99% is desired.The following spreadsheets have been developed for this problem.The company has simulated 2 weeks of operation for their inventory system.The current level of on-hand inventory is 25 units and no orders are pending. \begin{array} { | l | l | l | l | l | l | l | l | } \hline & \mathbf { A } & \mathbf { B } & \mathbf { C } & \mathbf { D } & \mathbf { E } & \mathbf { F } & \mathbf { G } \\ \hline 1 & & & & & & & \\ \hline \end{array} -Using the information in Exhibit 12.3,what Analytic Solver Platform function should be used in cell D8 and copied to cells D9:D21 of the MODEL sheet to compute daily demand?</strong> A)=PsiDiscrete$E$6:$E$13,$F$6:$F$13) B)=PsiHypergeo$E$6:$F138) C)=PsiBinomial$E$6,$F$13) D)=PsiCustomData!$E$6,$F$13) <div style=padding-top: 35px>

-Using the information in Exhibit 12.3,what Analytic Solver Platform function should be used in cell D8 and copied to cells D9:D21 of the MODEL sheet to compute daily demand?

A)=PsiDiscrete$E$6:$E$13,$F$6:$F$13)
B)=PsiHypergeo$E$6:$F138)
C)=PsiBinomial$E$6,$F$13)
D)=PsiCustomData!$E$6,$F$13)
Question
What function should be used for generating random numbers between 1 and 12 from a continuous uniform distribution?
Question
What function should be used for generating random numbers from a normal distribution with mean μ and standard deviation σ between the values of a and b only?
Question
A machine produces an average of 500 parts per day with a standard deviation of 10 parts.This is a normally distributed variable.The percent of defective parts ranges from 8-12%.Parts which need minor repair comprise 75% of the defective parts and cost $5 to repair.The rest of the defective parts cost $20 to repair.What formulas should go in cells B8:B15 to compute the daily cost of defective parts?
 A BCD E F1 Initial Conditions: 2 Number of Parts:  Average 500 Stcd dev 10 Normal 3% Defective  Lo 8%Hi12% Cont. Uniform 4% Minor Defects 75% Constant 5 Cost of Minor Defect $5 Constant 6 Cost of Major Defect $20 Constant 78 UnitsProduced 5009% Defective 8.2%10 Total # Defective 4111 #WthMinor Defects 3112 Cost of Minor Defects $15513 # With Major Defects 1014 Cost of Major Defects $20015 Total Cost $355\begin{array}{|c|c|c|c|c|c|c|}\hline & \text { A } & B & \mathrm{C} & \mathrm{D} & \text { E } & F \\\hline 1 & \text { Initial Conditions: } & & & & & \\\hline 2 & \text { Number of Parts: } & \text { Average } & 500 & \text { Stcd dev } & 10 & \text { Normal } \\\hline 3 & \% \text { Defective } & \text { Lo } & 8 \% & \mathrm{Hi} & 12 \% & \text { Cont. Uniform } \\\hline 4 & \% \text { Minor Defects } & & 75 \% & & & \text { Constant } \\\hline 5 & \text { Cost of Minor Defect } & & \$ 5 & & & \text { Constant } \\\hline 6 & \text { Cost of Major Defect } & & \$ 20 & & & \text { Constant } \\\hline 7 & & & & & & \\\hline 8 & \text { UnitsProduced } & 500 & & & & \\\hline 9 & \% \text { Defective } & 8.2 \% & & & & \\\hline 10 & \text { Total \# Defective } & 41 & & & & \\\hline 11 & \text { \#WthMinor Defects } & 31 & & & & \\\hline 12 & \text { Cost of Minor Defects } & \$ 155 & & & & \\\hline 13 & \text { \# With Major Defects } & 10 & & & & \\\hline 14 & \text { Cost of Major Defects } & \$ 200 & & & & \\\hline 15 & \text { Total Cost } & \$ 355 & & & & \\\hline\end{array}

Question
Exhibit 12.5
The following questions use the information below.
The owner of Sal's Italian Restaurant wants to study the growth of his business using simulation.He is interested in simulating the number of customers and the amount ordered by customers each month.He currently serves 1000 customers per month and feels this can vary uniformly between a decrease of as much as 5% and an increase of up to 9%.The bill for each customer is a normally distributed random variable with a mean of $20 and a standard deviation of $5.The average order has been increasing steadily over the years and the owner expects the mean order will increase by 2% per month.You have created the following spreadsheet to simulate the problem.

-The spreadsheet model for Sal,from Exhibit 12.5,has been run 300 times to produce the following output.What is the best case scenario for Sal based on this output?
 Simulation Statistics  Name  Income/Revenue  Description  Output  Cell  D21  Minimum 211786.9=2 Maximum 435002.7=4 Mean= 4119518.91 Stcl 33831.4 Deviation= 4\begin{array}{|r|r|}\hline \text { Simulation Statistics } & \\\hline \text { Name } & \text { Income/Revenue } \\\hline \begin{array}{c}\text { Description } \\\end{array} & \text { Output } \\\hline \text { Cell } & \text { D21 } \\\hline \text { Minimum } & 211786.9 \\= & 2 \\\hline \text { Maximum } & 435002.7 \\= & 4 \\\hline \text { Mean= } & 4119518.9 \\&1\\\hline \text { Stcl } & 33831.4 \\ \text { Deviation= } &4 \\\hline\end{array}
Question
Methods for analyzing risk that are discussed in the textbook include

A)best-case/worst case analysis
B)what-if analysis
C)simulation
D)all of the above
Question
Exhibit 12.5
The following questions use the information below.
The owner of Sal's Italian Restaurant wants to study the growth of his business using simulation.He is interested in simulating the number of customers and the amount ordered by customers each month.He currently serves 1000 customers per month and feels this can vary uniformly between a decrease of as much as 5% and an increase of up to 9%.The bill for each customer is a normally distributed random variable with a mean of $20 and a standard deviation of $5.The average order has been increasing steadily over the years and the owner expects the mean order will increase by 2% per month.You have created the following spreadsheet to simulate the problem.

-Sal,from Exhibit 12.5,has produced the following spreadsheet to compute confidence intervals on his income.What formula should go in cell B8 to compute the upper limit on a 95% confidence interval for the true population mean?
 A B12 Sample Size: 30034 Sample Mean 309,773.565 Sample StandardDeviation 33,831.4467 95% LCL for the population mean: 305,945.178 95% UCL for the population mean: 313,601.95910 Target Proportion 0.90011 95% Lower Confidence Limit: 0.86612 95% Upper Confidence Limit: 0.934\begin{array}{|c|c|c|}\hline & \text { A } & \mathrm{B} \\\hline 1 & & \\\hline 2 & \text { Sample Size: } & 300 \\\hline 3 & & \\\hline 4 & \text { Sample Mean } & \begin{array}{l}309,773.5 \\6\end{array} \\\hline 5 & \text { Sample StandardDeviation } & \begin{array}{l}33,831.4 \\4\end{array} \\\hline 6 & & \\\hline 7 & \text { 95\% LCL for the population mean: } & \begin{array}{l}305,945.1 \\7\end{array} \\\hline 8 & \text { 95\% UCL for the population mean: } & \begin{array}{l}313,601.9 \\5 \\\end{array} \\\hline 9 & & \\\hline 10 & \text { Target Proportion } & 0.900 \\\hline 11 & \text { 95\% Lower Confidence Limit: } & 0.866 \\\hline 12 & \text { 95\% Upper Confidence Limit: } & 0.934 \\\hline\end{array}
Question
What gallery distribution should be used for generating the number of times "tails" come up over 15 flips of a "fair" coin?
Question
What function should be used for generating random numbers from the following distribution on the number of phone calls per hour?
ABCD# of phone calls  P# of phone calls) # of phone calls P# of phone calls) 1210.1010.10320.4020.50430.3030.80540.1540.95650.0551.00\begin{array}{lllll}&\text {A}&\text {B}&\text {C}&\text {D}\\&\text {\# of phone calls } & \text { P\# of phone calls)}&\text { \# of phone calls}&\text { P\# of phone calls) }\\1\\\hline2 & 1 & 0.10 & 1 & 0.10 \\3 & 2 & 0.40 & 2 & 0.50 \\4 & 3 & 0.30 & 3 & 0.80 \\5 & 4 & 0.15 & 4 & 0.95 \\6 & 5 & 0.05 & 5 & 1.00\end{array}
Question
University Florists makes bouquets from a variety of materials.The Daily Special Bouquet is priced at $20.The florist assembles this bouquet each day from a variety of low cost flowers he buys from his flower supplier.The actual cost of flowers ranges uniformly from $2 to $7,with all intermediate values being equally likely.The florist who studied management science many years ago)knows that the time to assemble a bouquet is normally distributed with a mean time of 5 minutes and standard deviation of 1 minute.This will be the time required for all of the Daily Special Bouquets for that day.The florist values his labor time at $10 per hour.Sales are normally distributed with a mean of 10 bouquets per day with a standard deviation of 1 bouquet.What formulas should go in cells B8:B14 to simulate daily profits for the store?
 A  B CD E F1 Initial Conditions: 2 Sales Price $20 Constant 3 Number of Bouquets:  Average 10 Std dev 1 Normal 4 Cost of Flowers  Lo $2Hi$7 Cont. Uniform 5 Labor Time  Average 5 Std dev 1 Normal 6 Labor Cost $10 Constant 78 Cost of Flowers $4.419 Labor Time Min) 2.5510 Labor Cost $0.4311 Total Cost 4.8312 Profit/Bouquet $15.1713 # Bouquets Sold 12.2014 Total Profit $184.99\begin{array}{|c|c|c|c|c|c|c|}\hline & \text { A } & \text { B } & \mathrm{C} & \mathrm{D} & \text { E } & \mathrm{F} \\\hline 1 & \text { Initial Conditions: } & & & & & \\\hline 2 & \text { Sales Price } & & \$ 20 & & & \text { Constant } \\\hline 3 & \text { Number of Bouquets: } & \text { Average } & 10 & \text { Std dev } & 1 & \text { Normal } \\\hline 4 & \text { Cost of Flowers } & \text { Lo } & \$ 2 & \mathrm{Hi} & \$ 7 & \text { Cont. Uniform } \\\hline 5 & \text { Labor Time } & \text { Average } & 5 & \text { Std dev } & 1 & \text { Normal } \\\hline 6 & \text { Labor Cost } & & \$ 10 & & & \text { Constant } \\\hline 7 & & & & & & \\\hline 8 & \text { Cost of Flowers } & \$ 4.41 & & & & \\\hline 9 & \text { Labor Time Min) } & 2.55 & & & & \\\hline 10 & \text { Labor Cost } & \$ 0.43 & & & & \\\hline 11 & \text { Total Cost } & 4.83 & & & & \\\hline 12 & \text { Profit/Bouquet } & \$ 15.17 & & & & \\\hline 13 & \text { \# Bouquets Sold } & 12.20 & & & & \\\hline 14 & \text { Total Profit } & \$ 184.99 & & & & \\\hline\end{array}

Question
Exhibit 12.5
The following questions use the information below.
The owner of Sal's Italian Restaurant wants to study the growth of his business using simulation.He is interested in simulating the number of customers and the amount ordered by customers each month.He currently serves 1000 customers per month and feels this can vary uniformly between a decrease of as much as 5% and an increase of up to 9%.The bill for each customer is a normally distributed random variable with a mean of $20 and a standard deviation of $5.The average order has been increasing steadily over the years and the owner expects the mean order will increase by 2% per month.You have created the following spreadsheet to simulate the problem.

-Sal,from Exhibit 12.5,has produced the following spreadsheet to compute confidence intervals on his income.What formula should go in cell B12 to compute the upper limit on a 95% confidence interval for the population proportion below 90%?
 A B12 Sample Size: 30034 Sample Mean: 4,119,5195 Sample StandardDeviation 291,11767 95% LCL for the population mean: 4,086,5768 95% UCL for the population mean: 4,152,462910 Target Proportion 0.90011 95% Lower Confidence Limit: 0.86612 95% Upper Confidence Limit: 0.934\begin{array}{|c|c|c|}\hline & \text { A } & \mathrm{B} \\\hline 1 & & \\\hline 2 & \text { Sample Size: } & 300 \\\hline 3 & & \\\hline 4 & \text { Sample Mean: } & 4,119,519 \\\hline 5 & \text { Sample StandardDeviation } & 291,117 \\\hline 6 & & \\\hline 7 & \text { 95\% LCL for the population mean: } & 4,086,576 \\\hline 8 & \text { 95\% UCL for the population mean: } & 4,152,462 \\\hline 9 & & \\\hline 10 & \text { Target Proportion } & 0.900 \\\hline 11 & \text { 95\% Lower Confidence Limit: } & 0.866 \\\hline 12 & \text { 95\% Upper Confidence Limit: } & 0.934 \\\hline\end{array}
Question
Jim Johnson operates a bus service to take college students to "The Big City" on Friday night and bring them back to school on Sunday night.The bus has 45 seats but sometimes there are empty seats.His records show that about 5% of ticket holders do not show up for their ride.Tickets cost $20 and are non-refundable.If Jim overbooks the bus and more than 45 passengers show up,some of them will be bumped and have to miss the trip.This bumping costs the company $40 because Jim has a double-your-money back policy for bumped passengers.Jim plans to accept 48 reservations overbook 3 seats).
A B C1 Jim’s Big City Bus 2 Reservation System 34 SeatsAvailable 455 Ticket Price per Seat $206 Prob. of No-Show 0.057 Cost of Bumping $408 Reservations Accepted 48910 P assengers to Board 471112 Ticket Revenue $96013 Opp. Cost of Empty Seats 014 Cost of Bumping Passengers $8015 Marginal Profit $880 MODEL \begin{array}{|c|c|c|c|}\hline & \mathrm{A} & \text { B } & \mathrm{C} \\\hline 1 & & \text { Jim's Big City Bus } & \\\hline 2 & & \text { Reservation System } & \\\hline 3 & & & \\\hline 4 & & \text { SeatsAvailable } & 45 \\\hline 5 & & \text { Ticket Price per Seat } & \$ 20 \\\hline 6 & & \text { Prob. of No-Show } & 0.05 \\\hline 7 & & \text { Cost of Bumping } & \$ 40 \\\hline 8 & & \text { Reservations Accepted } & 48 \\\hline 9 & & & \\\hline 10 & & \text { P assengers to Board } & 47 \\\hline 11 & & & \\\hline 12 & & \text { Ticket Revenue } & \$ 960 \\\hline 13 & & \text { Opp. Cost of Empty Seats } & 0 \\\hline 14 & & \text { Cost of Bumping Passengers } & \$ 80 \\\hline 15 & & \text { Marginal Profit } & \$ 880 \\\hline & & \text { MODEL } & \\\hline\end{array}

What is Jim Johnson's expected marginal profit?
Question
Jim Johnson operates a bus service to take college students to "The Big City" on Friday night and bring them back to school on Sunday night.The bus has 45 seats but sometimes there are empty seats.His records show that about 5% of ticket holders do not show up for their ride.Tickets cost $20 and are non-refundable.If Jim overbooks the bus and more than 45 passengers show up,some of them will be bumped and have to miss the trip.This bumping costs the company $40 because Jim has a double-your-money back policy for bumped passengers.Jim wants to see what happens to profits if 48 reservations are accepted.
A B C1 Jim’s Big City Bus 2 Reservation System 34 SeatsAvailable 455 Ticket Price per Seat $206 Prob. of No-Show 0.057 Cost of Bumping $408 Reservations Accepted 48910 P assengers to Board 471112 Ticket Revenue $96013 Opp. Cost of Empty Seats 014 Cost of Bumping Passengers $8015 Marginal Profit $880 MODEL \begin{array}{|c|c|c|c|}\hline & \mathrm{A} & \text { B } & \mathrm{C} \\\hline 1 & & \text { Jim's Big City Bus } & \\\hline 2 & & \text { Reservation System } & \\\hline 3 & & & \\\hline 4 & & \text { SeatsAvailable } & 45 \\\hline 5 & & \text { Ticket Price per Seat } & \$ 20 \\\hline 6 & & \text { Prob. of No-Show } & 0.05 \\\hline 7 & & \text { Cost of Bumping } & \$ 40 \\\hline 8 & & \text { Reservations Accepted } & 48 \\\hline 9 & & & \\\hline 10 & & \text { P assengers to Board } & 47 \\\hline 11 & & & \\\hline 12 & & \text { Ticket Revenue } & \$ 960 \\\hline 13 & & \text { Opp. Cost of Empty Seats } & 0 \\\hline 14 & & \text { Cost of Bumping Passengers } & \$ 80 \\\hline 15 & & \text { Marginal Profit } & \$ 880 \\\hline & & \text { MODEL } & \\\hline\end{array}

What formulas should go in cell C10 ? C15 of the worksheet?
Question
Project 12.1 ? Monte Carlo Integration
A common application of Monte Carlo simulation is to provide numerical approximations.One such application is to approximate the area under a curve,or Monte Carlo integration.The following figure represents such a curve,defined over the range of X = 0 to X = 13.Call the area under this curve A.
Monte Carlo integration begins by overlaying on the curve of interest a region call this region,B)whose area is easy to calculate i.e. ,a box).Monte Carlo integration then involves the random generation of points in B and a determination of the percentage of these points that fall in A i.e. ,fall below the curve).This percentage represents that portion of the area of B that is the area of A.
Use Monte Carlo integration techniques to approximate the area under the curve.Use exact techniques to calculate the true area under the curve.How accurate is your approximation? Project 12.1 ? Monte Carlo Integration A common application of Monte Carlo simulation is to provide numerical approximations.One such application is to approximate the area under a curve,or Monte Carlo integration.The following figure represents such a curve,defined over the range of X = 0 to X = 13.Call the area under this curve A. Monte Carlo integration begins by overlaying on the curve of interest a region call this region,B)whose area is easy to calculate i.e. ,a box).Monte Carlo integration then involves the random generation of points in B and a determination of the percentage of these points that fall in A i.e. ,fall below the curve).This percentage represents that portion of the area of B that is the area of A. Use Monte Carlo integration techniques to approximate the area under the curve.Use exact techniques to calculate the true area under the curve.How accurate is your approximation? <div style=padding-top: 35px>
Question
What is the probability that 3 or more phone calls are received in any hour of operation?
ABCD# of phone calls  P# of phone calls) # of phone calls P# of phone calls) 1210.1010.10320.4020.50430.3030.80540.1540.95650.0551.00\begin{array}{lllll}&\text {A}&\text {B}&\text {C}&\text {D}\\&\text {\# of phone calls } & \text { P\# of phone calls)}&\text { \# of phone calls}&\text { P\# of phone calls) }\\1\\\hline2 & 1 & 0.10 & 1 & 0.10 \\3 & 2 & 0.40 & 2 & 0.50 \\4 & 3 & 0.30 & 3 & 0.80 \\5 & 4 & 0.15 & 4 & 0.95 \\6 & 5 & 0.05 & 5 & 1.00\end{array}
Question
A simulation model was replicated 100 times yielding a mean of 82.59 with variance of 17.66.Of the 100 replications,11 replications yielded an outcome over a value of 100.What is the 95% confidence interval on the proportion of simulations whose outcomes exceeded a value of 100?
Question
A random variable is

A)a variable whose value cannot be predicted with certainty
B)a parameter
C)a population variable
D)a sample variable
Question
A simulation model was replicated 100 times yielding a mean of 82.59 with variance of 17.66.Of the 100 replications,11 replications yielded an outcome over a value of 100.The 95% confidence interval of the mean is the interval 81.77,83.41).Of the 100 simulation outcomes,65 outcomes failed to fall within this interval.What is wrong with the confidence interval?
Question
A simulation model was replicated 100 times yielding a mean of 82.59 with variance of 17.66.Of the 100 replications,11 replications yielded an outcome over a value of 100.What is the 90% confidence interval on the mean?
Question
What is the expected number of phone calls per hour based on the following distribution on the number of phone calls per hour?
ABCD# of phone calls  P# of phone calls) # of phone calls P# of phone calls) 1210.1010.10320.4020.50430.3030.80540.1540.95650.0551.00\begin{array}{lllll}&\text {A}&\text {B}&\text {C}&\text {D}\\&\text {\# of phone calls } & \text { P\# of phone calls)}&\text { \# of phone calls}&\text { P\# of phone calls) }\\1\\\hline2 & 1 & 0.10 & 1 & 0.10 \\3 & 2 & 0.40 & 2 & 0.50 \\4 & 3 & 0.30 & 3 & 0.80 \\5 & 4 & 0.15 & 4 & 0.95 \\6 & 5 & 0.05 & 5 & 1.00\end{array}
Question
Risk needs to be analyzed using models in order to

A)make decisions better than those based on informed guesses
B)obtain a feasible solution
C)obtain an optimal solution
D)confound the decision-making process
Question
The worst-case analysis approach to risk analysis

A)is optimistic
B)is pessimistic
C)is most likely
D)generally produces good outcomes
Question
The best-case analysis approach to risk analysis

A)is optimistic
B)is pessimistic
C)is most likely
D)is likely to produce good outcomes
Question
Uncertainty

A)is the most difficult thing about decision-making
B)simplifies decision-making
C)is easy to capture with computers
D)requires the use of quantitative models for supporting decision-making
Question
Large sample size,n,is desirable because

A)upper and lower limits of the confidence interval for the true population proportion are closer to one another
B)upper and lower limits of the confidence interval for the true population proportion are further apart
C)point estimate of the population proportion is larger
D)point estimate of the population proportion is smaller
Question
In a what-if analysis the decision maker

A)changes the values of the uncertain input variables to see what happens to the performance measure being studied
B)assumes that all inputs are random variables
C)assumes that all outputs are deterministic
D)corrects for underestimated risk
Question
The PsiTarget. )function in Analytic Solver Platform

A)returns the cumulative probability of a specified distribution cell being less or equal to the specified target value
B)returns the cumulative probability of a specified distribution cell being equal to or larger than the specified target value
C)returns the cumulative probability of a specified distribution cell being equal to the specified target value
D)returns the probability of a specified distribution cell being equal to the specified target value
Question
Large sample size,n,is desirable because

A)upper and lower limits of the confidence interval for the true population mean are closer to one another
B)upper and lower limits of the confidence interval for the true population mean are further apart
C)point estimate of the population mean is larger
D)point estimate of the population mean is smaller
Question
A good way to fit the distribution to historical patterns when historical data is available is to

A)use the Fit icon in the Tools group of the Analytic Solver Platform
B)guess the distribution parameters
C)assume that the data distribution is Normal
D)assume that the data distribution is Weibull
Question
Common continuous distributions available in Analytic Solver Platform are

A)exponential
B)Normal
C)truncated Normal
D)all of the above
Question
Common discrete distributions available in Analytic Solver Platform are

A)binomial
B)Poisson
C)discrete
D)all of the above
Question
In running simulations under Analytic Solver Platform it is desirable to use more simulation runs because

A)confidence level regarding the decision precision is improved
B)point estimates are more accurate
C)simulation run length is decreased
D)cost is decreased
Question
The benefits)of simulation discussed in the text is/are

A)gaining better insight into a problem
B)ability to make more informed decisions
C)eliminating the need to build a system with fine-tuning occurring after the launch
D)all of the above
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Deck 12: Introduction to Simulation Using Analytic Solver Platform
1
What is the correct Analytic Solver Platform function for generating random numbers from the following distribution on the number of children in families assume a reference to the current worksheet).
 A  B  # of children  P# of children) 1210.20320.30430.25540.20650.05\begin{array} { c c c } & \text { A } & \text { B } \\& \text { \# of children } & \text { P\# of children) } \\1& & \\\hline 2 & 1 & 0.20 \\3 & 2 & 0.30 \\4 & 3 & 0.25 \\5 & 4 & 0.20 \\6 & 5 & 0.05\end{array}

A)=PsiCustomA2:A6,B2:B6)
B)=PsiRandomA2:A6,B2:B6)
C)=PsiDiscreteA2:A6,B2:B6)
D)=PsiUniformA2:A6,B2:B6)
=PsiDiscreteA2:A6,B2:B6)
2
Why would a manager be interested in analyzing risk?

A)To determine a most likely outcome.
B)To determine a range of outcomes.
C)To determine a distribution of outcomes.
D)To determine a confidence interval on most likely outcomes.
C
3
Simulation is used to

A)find possible worst case values for the dependent variables).
B)find worst case and best case values for the dependent variables).
C)find distribution information for the dependent variables).
D)find median values for the dependent variables).
C
4
Exhibit 12.3
The following questions use the information below.
An auto parts store wants to simulate its inventory system for engine oil.The company has collected data on the shipping time for oil and the daily demand for cases of oil.A case of oil generates a $10 profit.Customers can buy oil at any auto parts store so there are no backorders the company loses the sale and profit).The company orders 30 cases whenever the inventory position falls below the reorder point of 15 cases.Orders are placed at the beginning of the day and delivered at the beginning of the day so the oil is available on the arrival day.An average service level of 99% is desired.The following spreadsheets have been developed for this problem.The company has simulated 2 weeks of operation for their inventory system.The current level of on-hand inventory is 25 units and no orders are pending.
ABCDEFG1\begin{array} { | l | l | l | l | l | l | l | l | } \hline & \mathbf { A } & \mathbf { B } & \mathbf { C } & \mathbf { D } & \mathbf { E } & \mathbf { F } & \mathbf { G } \\\hline 1 & & & & & & & \\\hline\end{array} <strong>Exhibit 12.3 The following questions use the information below. An auto parts store wants to simulate its inventory system for engine oil.The company has collected data on the shipping time for oil and the daily demand for cases of oil.A case of oil generates a $10 profit.Customers can buy oil at any auto parts store so there are no backorders the company loses the sale and profit).The company orders 30 cases whenever the inventory position falls below the reorder point of 15 cases.Orders are placed at the beginning of the day and delivered at the beginning of the day so the oil is available on the arrival day.An average service level of 99% is desired.The following spreadsheets have been developed for this problem.The company has simulated 2 weeks of operation for their inventory system.The current level of on-hand inventory is 25 units and no orders are pending. \begin{array} { | l | l | l | l | l | l | l | l | } \hline & \mathbf { A } & \mathbf { B } & \mathbf { C } & \mathbf { D } & \mathbf { E } & \mathbf { F } & \mathbf { G } \\ \hline 1 & & & & & & & \\ \hline \end{array} -Using the information in Exhibit 12.3,what Analytic Solver Platform function should be used for generating a random shipping time based on the Data spreadsheet distribution for shipping time?</strong> A)=PsiCumul$B$6:$C$8) B)=PsiCustom$B$6:$B$8,$C$8:$C$8) C)=PsiGeneralData!$B$6,probability $C$8) D)=PsiDiscrete$B$6:$B$8,$C$8:$C$8)

-Using the information in Exhibit 12.3,what Analytic Solver Platform function should be used for generating a random shipping time based on the Data spreadsheet distribution for shipping time?

A)=PsiCumul$B$6:$C$8)
B)=PsiCustom$B$6:$B$8,$C$8:$C$8)
C)=PsiGeneralData!$B$6,probability $C$8)
D)=PsiDiscrete$B$6:$B$8,$C$8:$C$8)
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5
What method is used to generate observations from a distribution?

A)random number generator
B)sample generator
C)problem generator
D)steady state generator
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6
Which of the following best describes a random variable?

A)A spreadsheet input cell containing a random number generator.
B)The outcome of a simulation model.
C)Any variable whose value cannot be predicted with certainty.
D)All of these describe random variables.
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7
What is a weakness of manual what-if analysis?

A)biased sample values of performance measures
B)hard to do many what-if scenarios
C)does not provide distribution information
D)all of these are weaknesses
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8
Which Analytic Solver Platform function will generate random numbers between 3 and 7 from a continuous uniform distribution?

A)=PsiConUniform3,7)
B)=PsiUniDist3,7)
C)=PsiUniform3,7)
D)=PsiTruncate3,7)
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9
A variable whose value cannot be predicted or set with certainty is a

A)discrete variable
B)random variable
C)realistic variable
D)simulation variable
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10
Best case analysis is an)view of the problem.

A)pessimistic
B)optimistic
C)risky
D)certain
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11
Which Analytic Solver Platform function will generate random integer numbers between 2 and 8?

A)=PsiIntUniform2,8)
B)=PsiDiscrete2,8)
C)=PsiUniform2,8)
D)=PsiRandom2,8)
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12
As the number of replicates in a simulation increases the width of a confidence interval computed from the simulation results will

A)decrease.
B)increase.
C)remain the same.
D)change depends on standard deviation.
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13
Worst case analysis is an)view of the problem.

A)pessimistic
B)optimistic
C)risky
D)certain
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14
Which of the following distributions can be generated by Analytic Solver Platform?

A)Poisson
B)Normal
C)Weibull
D)All of these
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15
Inventory position is defined as

A)ending inventory + outstanding orders
B)ending inventory − backorders
C)outstanding orders − on hand inventory
D)ending inventory
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16
Exhibit 12.3
The following questions use the information below.
An auto parts store wants to simulate its inventory system for engine oil.The company has collected data on the shipping time for oil and the daily demand for cases of oil.A case of oil generates a $10 profit.Customers can buy oil at any auto parts store so there are no backorders the company loses the sale and profit).The company orders 30 cases whenever the inventory position falls below the reorder point of 15 cases.Orders are placed at the beginning of the day and delivered at the beginning of the day so the oil is available on the arrival day.An average service level of 99% is desired.The following spreadsheets have been developed for this problem.The company has simulated 2 weeks of operation for their inventory system.The current level of on-hand inventory is 25 units and no orders are pending.
ABCDEFG1\begin{array} { | l | l | l | l | l | l | l | l | } \hline & \mathbf { A } & \mathbf { B } & \mathbf { C } & \mathbf { D } & \mathbf { E } & \mathbf { F } & \mathbf { G } \\\hline 1 & & & & & & & \\\hline\end{array} <strong>Exhibit 12.3 The following questions use the information below. An auto parts store wants to simulate its inventory system for engine oil.The company has collected data on the shipping time for oil and the daily demand for cases of oil.A case of oil generates a $10 profit.Customers can buy oil at any auto parts store so there are no backorders the company loses the sale and profit).The company orders 30 cases whenever the inventory position falls below the reorder point of 15 cases.Orders are placed at the beginning of the day and delivered at the beginning of the day so the oil is available on the arrival day.An average service level of 99% is desired.The following spreadsheets have been developed for this problem.The company has simulated 2 weeks of operation for their inventory system.The current level of on-hand inventory is 25 units and no orders are pending. \begin{array} { | l | l | l | l | l | l | l | l | } \hline & \mathbf { A } & \mathbf { B } & \mathbf { C } & \mathbf { D } & \mathbf { E } & \mathbf { F } & \mathbf { G } \\ \hline 1 & & & & & & & \\ \hline \end{array} -Using the information in Exhibit 12.3,what formula should go in cell C9 and copied to C10:C21 of the MODEL sheet to compute units received?</strong> A)=COUNT$J$8:J8,A9)*$D$4 B)=COUNTIF$J$8:J8,A8)*$C$4 C)=COUNTIF$J$8:J8,A9)*$D$5 D)=COUNTIF$J$8:J8,A9)*$D$4

-Using the information in Exhibit 12.3,what formula should go in cell C9 and copied to C10:C21 of the MODEL sheet to compute units received?

A)=COUNT$J$8:J8,A9)*$D$4
B)=COUNTIF$J$8:J8,A8)*$C$4
C)=COUNTIF$J$8:J8,A9)*$D$5
D)=COUNTIF$J$8:J8,A9)*$D$4
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17
If chance or uncertainty is present in a system then there is an element of in the decision-making problem.

A)danger
B)security
C)risk
D)difficulty
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18
Which of the following do not help determine the magnitude of risk in a decision-making problem?

A)The level of uncertainty in outcome.
B)The magnitude of potential loss.
C)The level of management interest in the problem.
D)The level of uncertainty in input variables.
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19
How should one determine which RNGs to employ in a spreadsheet simulation model?

A)Use the Analytic Solver Platform gallery and pick a distribution.
B)Generate thousands of samples and compare the resulting histogram to ensure the distribution is correct.
C)Solve the deterministic model repeatedly and use Analytic Solver Platform distribution fitting tools.
D)The distributions selected should represent the underlying pool of values expected to occur.
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20
The Analytic Solver Platform is a good simulation tool because

A)it is difficult to use
B)it provides several polymorphic spreadsheet interpreter "psi" functions to facilitate Excel calculations
C)it has a limited choice of statistical distributions making it difficult to approximate reality
D)it requires a standalone platform operating independently of Excel
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21
Exhibit 12.4.
The following questions use the information below.
The manager of a Washington,DC sightseeing tour company is concerned about overbooking for one of his bus tours.The bus has 15 seats but sometimes there are empty seats.His records show that about 20% of ticket holders do not show up for their tour.Tickets cost $10 and are non-refundable.If the manager overbooks the tour and more than 15 passengers show up,some of them will be bumped to a later tour.This bumping costs the company $25 in various expenses to keep the customer happy until the next tour.The manager wants to see what happens to profits if 18 reservations are accepted.
<strong>Exhibit 12.4. The following questions use the information below. The manager of a Washington,DC sightseeing tour company is concerned about overbooking for one of his bus tours.The bus has 15 seats but sometimes there are empty seats.His records show that about 20% of ticket holders do not show up for their tour.Tickets cost $10 and are non-refundable.If the manager overbooks the tour and more than 15 passengers show up,some of them will be bumped to a later tour.This bumping costs the company $25 in various expenses to keep the customer happy until the next tour.The manager wants to see what happens to profits if 18 reservations are accepted. Using the information in Exhibit 12.4,what formula should go in cell C15 of the worksheet to determine the Marginal Profit?</strong> A)=C12+C13+C14 B)=C12-C13-C14 C)=C12-C14+C13 D)=C12-C13-C14)
Using the information in Exhibit 12.4,what formula should go in cell C15 of the worksheet to determine the Marginal Profit?

A)=C12+C13+C14
B)=C12-C13-C14
C)=C12-C14+C13
D)=C12-C13-C14)
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22
Exhibit 12.3
The following questions use the information below.
An auto parts store wants to simulate its inventory system for engine oil.The company has collected data on the shipping time for oil and the daily demand for cases of oil.A case of oil generates a $10 profit.Customers can buy oil at any auto parts store so there are no backorders the company loses the sale and profit).The company orders 30 cases whenever the inventory position falls below the reorder point of 15 cases.Orders are placed at the beginning of the day and delivered at the beginning of the day so the oil is available on the arrival day.An average service level of 99% is desired.The following spreadsheets have been developed for this problem.The company has simulated 2 weeks of operation for their inventory system.The current level of on-hand inventory is 25 units and no orders are pending.
ABCDEFG1\begin{array} { | l | l | l | l | l | l | l | l | } \hline & \mathbf { A } & \mathbf { B } & \mathbf { C } & \mathbf { D } & \mathbf { E } & \mathbf { F } & \mathbf { G } \\\hline 1 & & & & & & & \\\hline\end{array} <strong>Exhibit 12.3 The following questions use the information below. An auto parts store wants to simulate its inventory system for engine oil.The company has collected data on the shipping time for oil and the daily demand for cases of oil.A case of oil generates a $10 profit.Customers can buy oil at any auto parts store so there are no backorders the company loses the sale and profit).The company orders 30 cases whenever the inventory position falls below the reorder point of 15 cases.Orders are placed at the beginning of the day and delivered at the beginning of the day so the oil is available on the arrival day.An average service level of 99% is desired.The following spreadsheets have been developed for this problem.The company has simulated 2 weeks of operation for their inventory system.The current level of on-hand inventory is 25 units and no orders are pending. \begin{array} { | l | l | l | l | l | l | l | l | } \hline & \mathbf { A } & \mathbf { B } & \mathbf { C } & \mathbf { D } & \mathbf { E } & \mathbf { F } & \mathbf { G } \\ \hline 1 & & & & & & & \\ \hline \end{array} -Using the information in Exhibit 12.3,what Analytic Solver Platform function should be used in cell I8 to determine the lead time for an order?</strong> A)=PsiDiscrete$B$6:$B$8,$C$6:$C$8) B)=PsiPoissonData!$B$6:$B$8,$Data!$C$6:$C$8) C)=PsiBinomialData!$B$6:$B$8,$Data!$C$6:$C$8) D)=PsiNormal$B$6:$C$8)

-Using the information in Exhibit 12.3,what Analytic Solver Platform function should be used in cell I8 to determine the lead time for an order?

A)=PsiDiscrete$B$6:$B$8,$C$6:$C$8)
B)=PsiPoissonData!$B$6:$B$8,$Data!$C$6:$C$8)
C)=PsiBinomialData!$B$6:$B$8,$Data!$C$6:$C$8)
D)=PsiNormal$B$6:$C$8)
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23
Which of the following probability distributions are associated with discrete outcomes?

A)Gamma
B)Custom
C)Normal
D)Exponential
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24
If a spreadsheet simulation user has a probability distribution that may assume 1 of 5 values with nearly equal probability,this user has what type of distribution?

A)A discrete distribution.
B)A continuous distribution.
C)A triangular distribution.
D)A normal distribution.
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25
Exhibit 12.4.
The following questions use the information below.
The manager of a Washington,DC sightseeing tour company is concerned about overbooking for one of his bus tours.The bus has 15 seats but sometimes there are empty seats.His records show that about 20% of ticket holders do not show up for their tour.Tickets cost $10 and are non-refundable.If the manager overbooks the tour and more than 15 passengers show up,some of them will be bumped to a later tour.This bumping costs the company $25 in various expenses to keep the customer happy until the next tour.The manager wants to see what happens to profits if 18 reservations are accepted.
<strong>Exhibit 12.4. The following questions use the information below. The manager of a Washington,DC sightseeing tour company is concerned about overbooking for one of his bus tours.The bus has 15 seats but sometimes there are empty seats.His records show that about 20% of ticket holders do not show up for their tour.Tickets cost $10 and are non-refundable.If the manager overbooks the tour and more than 15 passengers show up,some of them will be bumped to a later tour.This bumping costs the company $25 in various expenses to keep the customer happy until the next tour.The manager wants to see what happens to profits if 18 reservations are accepted. Using the information in Exhibit 12.4,what formula should go in cell C14 of the worksheet to determine the Cost of Bumping Passengers?</strong> A)=C5*MAXC10-C4,0) B)=C5*MAXC10,0) C)=MAXC10-C4,0) D)=C5*MAXC10,C4)
Using the information in Exhibit 12.4,what formula should go in cell C14 of the worksheet to determine the Cost of Bumping Passengers?

A)=C5*MAXC10-C4,0)
B)=C5*MAXC10,0)
C)=MAXC10-C4,0)
D)=C5*MAXC10,C4)
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26
In general there are two primary issues involved in risk.What are these two issues?

A)Validation of spreadsheet model and setting up for the simulation.
B)Uncertainty of the outcome and magnitude of the potential loss.
C)Maximum amount of profit made and the probability of a maximum profit.
D)Maximum amount of loss incurred and the likelihood of that loss.
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27
Exhibit 12.4.
The following questions use the information below.
The manager of a Washington,DC sightseeing tour company is concerned about overbooking for one of his bus tours.The bus has 15 seats but sometimes there are empty seats.His records show that about 20% of ticket holders do not show up for their tour.Tickets cost $10 and are non-refundable.If the manager overbooks the tour and more than 15 passengers show up,some of them will be bumped to a later tour.This bumping costs the company $25 in various expenses to keep the customer happy until the next tour.The manager wants to see what happens to profits if 18 reservations are accepted.
<strong>Exhibit 12.4. The following questions use the information below. The manager of a Washington,DC sightseeing tour company is concerned about overbooking for one of his bus tours.The bus has 15 seats but sometimes there are empty seats.His records show that about 20% of ticket holders do not show up for their tour.Tickets cost $10 and are non-refundable.If the manager overbooks the tour and more than 15 passengers show up,some of them will be bumped to a later tour.This bumping costs the company $25 in various expenses to keep the customer happy until the next tour.The manager wants to see what happens to profits if 18 reservations are accepted. Using the information in Exhibit 12.4,what Analytic Solver Platform function should be used in cell C10 to determine the number of Passengers to Board?</strong> A)=PsiBinomial$C$8,1-$C$6) B)=PsiBinomial1-$C$6,$C$8) C)=PsiBinomial$C$8,$C$6) D)=PsiBinomial$C$6,$C$8)
Using the information in Exhibit 12.4,what Analytic Solver Platform function should be used in cell C10 to determine the number of Passengers to Board?

A)=PsiBinomial$C$8,1-$C$6)
B)=PsiBinomial1-$C$6,$C$8)
C)=PsiBinomial$C$8,$C$6)
D)=PsiBinomial$C$6,$C$8)
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28
The average demand is 4.45 cases per day.Using the information in Exhibit 12.3,what formula should go in cell H4 to determine the average lost sales?

A)=H3*4.45*10*30
B)=1-H3)*4.45*10
C)=1-H3)*4.45*30
D)=1-H3)*4.45*10*30
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29
Exhibit 12.3
The following questions use the information below.
An auto parts store wants to simulate its inventory system for engine oil.The company has collected data on the shipping time for oil and the daily demand for cases of oil.A case of oil generates a $10 profit.Customers can buy oil at any auto parts store so there are no backorders the company loses the sale and profit).The company orders 30 cases whenever the inventory position falls below the reorder point of 15 cases.Orders are placed at the beginning of the day and delivered at the beginning of the day so the oil is available on the arrival day.An average service level of 99% is desired.The following spreadsheets have been developed for this problem.The company has simulated 2 weeks of operation for their inventory system.The current level of on-hand inventory is 25 units and no orders are pending.
ABCDEFG1\begin{array} { | l | l | l | l | l | l | l | l | } \hline & \mathbf { A } & \mathbf { B } & \mathbf { C } & \mathbf { D } & \mathbf { E } & \mathbf { F } & \mathbf { G } \\\hline 1 & & & & & & & \\\hline\end{array} <strong>Exhibit 12.3 The following questions use the information below. An auto parts store wants to simulate its inventory system for engine oil.The company has collected data on the shipping time for oil and the daily demand for cases of oil.A case of oil generates a $10 profit.Customers can buy oil at any auto parts store so there are no backorders the company loses the sale and profit).The company orders 30 cases whenever the inventory position falls below the reorder point of 15 cases.Orders are placed at the beginning of the day and delivered at the beginning of the day so the oil is available on the arrival day.An average service level of 99% is desired.The following spreadsheets have been developed for this problem.The company has simulated 2 weeks of operation for their inventory system.The current level of on-hand inventory is 25 units and no orders are pending. \begin{array} { | l | l | l | l | l | l | l | l | } \hline & \mathbf { A } & \mathbf { B } & \mathbf { C } & \mathbf { D } & \mathbf { E } & \mathbf { F } & \mathbf { G } \\ \hline 1 & & & & & & & \\ \hline \end{array} -Using the information in Exhibit 12.3,what formula should go in cell J8 to determine the arrival date for an order?</strong> A)=IFI8=0,0,A8+I8) B)=IFI8=0,0,A8+1+I8) C)=IFI8=1,0,A8+1+I8) D)=IFI8=0,A8+1+I8,0)

-Using the information in Exhibit 12.3,what formula should go in cell J8 to determine the arrival date for an order?

A)=IFI8=0,0,A8+I8)
B)=IFI8=0,0,A8+1+I8)
C)=IFI8=1,0,A8+1+I8)
D)=IFI8=0,A8+1+I8,0)
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30
Exhibit 12.4.
The following questions use the information below.
The manager of a Washington,DC sightseeing tour company is concerned about overbooking for one of his bus tours.The bus has 15 seats but sometimes there are empty seats.His records show that about 20% of ticket holders do not show up for their tour.Tickets cost $10 and are non-refundable.If the manager overbooks the tour and more than 15 passengers show up,some of them will be bumped to a later tour.This bumping costs the company $25 in various expenses to keep the customer happy until the next tour.The manager wants to see what happens to profits if 18 reservations are accepted.
<strong>Exhibit 12.4. The following questions use the information below. The manager of a Washington,DC sightseeing tour company is concerned about overbooking for one of his bus tours.The bus has 15 seats but sometimes there are empty seats.His records show that about 20% of ticket holders do not show up for their tour.Tickets cost $10 and are non-refundable.If the manager overbooks the tour and more than 15 passengers show up,some of them will be bumped to a later tour.This bumping costs the company $25 in various expenses to keep the customer happy until the next tour.The manager wants to see what happens to profits if 18 reservations are accepted. Using the information in Exhibit 12.4,what formula should go in cell C13 of the worksheet to determine the Opportunity Cost of Empty Seats?</strong> A)=C5*MAXC4,C10) B)=C5*MAXC4,0) C)=MAXC4-C10,0) D)=C5*MAXC4-C10,0)
Using the information in Exhibit 12.4,what formula should go in cell C13 of the worksheet to determine the Opportunity Cost of Empty Seats?

A)=C5*MAXC4,C10)
B)=C5*MAXC4,0)
C)=MAXC4-C10,0)
D)=C5*MAXC4-C10,0)
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31
What function should be used for generating random numbers from a normal distribution with mean μ and standard deviation σ?
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32
Which of the following probability distributions are associated with continuous outcomes?
a.Poisson
b.Binomial
c.Custom
d.Triangular
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33
Exhibit 12.3
The following questions use the information below.
An auto parts store wants to simulate its inventory system for engine oil.The company has collected data on the shipping time for oil and the daily demand for cases of oil.A case of oil generates a $10 profit.Customers can buy oil at any auto parts store so there are no backorders the company loses the sale and profit).The company orders 30 cases whenever the inventory position falls below the reorder point of 15 cases.Orders are placed at the beginning of the day and delivered at the beginning of the day so the oil is available on the arrival day.An average service level of 99% is desired.The following spreadsheets have been developed for this problem.The company has simulated 2 weeks of operation for their inventory system.The current level of on-hand inventory is 25 units and no orders are pending.
ABCDEFG1\begin{array} { | l | l | l | l | l | l | l | l | } \hline & \mathbf { A } & \mathbf { B } & \mathbf { C } & \mathbf { D } & \mathbf { E } & \mathbf { F } & \mathbf { G } \\\hline 1 & & & & & & & \\\hline\end{array} <strong>Exhibit 12.3 The following questions use the information below. An auto parts store wants to simulate its inventory system for engine oil.The company has collected data on the shipping time for oil and the daily demand for cases of oil.A case of oil generates a $10 profit.Customers can buy oil at any auto parts store so there are no backorders the company loses the sale and profit).The company orders 30 cases whenever the inventory position falls below the reorder point of 15 cases.Orders are placed at the beginning of the day and delivered at the beginning of the day so the oil is available on the arrival day.An average service level of 99% is desired.The following spreadsheets have been developed for this problem.The company has simulated 2 weeks of operation for their inventory system.The current level of on-hand inventory is 25 units and no orders are pending. \begin{array} { | l | l | l | l | l | l | l | l | } \hline & \mathbf { A } & \mathbf { B } & \mathbf { C } & \mathbf { D } & \mathbf { E } & \mathbf { F } & \mathbf { G } \\ \hline 1 & & & & & & & \\ \hline \end{array} -Using the information in Exhibit 12.3,what formula should go in cell H8 to determine if an order should be placed?</strong> A)=IFG8<$D$3,1,0) B)=IFG8>$D$3,1,0) C)=IFG8<$D$3,0,1) D)=IFG8<$D$4,1,0)

-Using the information in Exhibit 12.3,what formula should go in cell H8 to determine if an order should be placed?

A)=IFG8<$D$3,1,0)
B)=IFG8>$D$3,1,0)
C)=IFG8<$D$3,0,1)
D)=IFG8<$D$4,1,0)
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34
Exhibit 12.3
The following questions use the information below.
An auto parts store wants to simulate its inventory system for engine oil.The company has collected data on the shipping time for oil and the daily demand for cases of oil.A case of oil generates a $10 profit.Customers can buy oil at any auto parts store so there are no backorders the company loses the sale and profit).The company orders 30 cases whenever the inventory position falls below the reorder point of 15 cases.Orders are placed at the beginning of the day and delivered at the beginning of the day so the oil is available on the arrival day.An average service level of 99% is desired.The following spreadsheets have been developed for this problem.The company has simulated 2 weeks of operation for their inventory system.The current level of on-hand inventory is 25 units and no orders are pending.
ABCDEFG1\begin{array} { | l | l | l | l | l | l | l | l | } \hline & \mathbf { A } & \mathbf { B } & \mathbf { C } & \mathbf { D } & \mathbf { E } & \mathbf { F } & \mathbf { G } \\\hline 1 & & & & & & & \\\hline\end{array} <strong>Exhibit 12.3 The following questions use the information below. An auto parts store wants to simulate its inventory system for engine oil.The company has collected data on the shipping time for oil and the daily demand for cases of oil.A case of oil generates a $10 profit.Customers can buy oil at any auto parts store so there are no backorders the company loses the sale and profit).The company orders 30 cases whenever the inventory position falls below the reorder point of 15 cases.Orders are placed at the beginning of the day and delivered at the beginning of the day so the oil is available on the arrival day.An average service level of 99% is desired.The following spreadsheets have been developed for this problem.The company has simulated 2 weeks of operation for their inventory system.The current level of on-hand inventory is 25 units and no orders are pending. \begin{array} { | l | l | l | l | l | l | l | l | } \hline & \mathbf { A } & \mathbf { B } & \mathbf { C } & \mathbf { D } & \mathbf { E } & \mathbf { F } & \mathbf { G } \\ \hline 1 & & & & & & & \\ \hline \end{array} -Using the information in Exhibit 12.3,what formula should go in cell G9 to compute inventory position?</strong> A)=G8+E9-IFH8=1,$D$4,0) B)=G8-E9+IFH8=1,$D$4,0) C)=G8-E9+IFH8=1,$D$5,0) D)=G8-E9+IFH8=1,0,$D$4)

-Using the information in Exhibit 12.3,what formula should go in cell G9 to compute inventory position?

A)=G8+E9-IFH8=1,$D$4,0)
B)=G8-E9+IFH8=1,$D$4,0)
C)=G8-E9+IFH8=1,$D$5,0)
D)=G8-E9+IFH8=1,0,$D$4)
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35
What function should be used for generating random integer numbers between 2 and 8?
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36
What function should be used for generating random numbers between a and b from a symmetric triangular distribution when the most likely value is a + b)/2?
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37
Exhibit 12.3
The following questions use the information below.
An auto parts store wants to simulate its inventory system for engine oil.The company has collected data on the shipping time for oil and the daily demand for cases of oil.A case of oil generates a $10 profit.Customers can buy oil at any auto parts store so there are no backorders the company loses the sale and profit).The company orders 30 cases whenever the inventory position falls below the reorder point of 15 cases.Orders are placed at the beginning of the day and delivered at the beginning of the day so the oil is available on the arrival day.An average service level of 99% is desired.The following spreadsheets have been developed for this problem.The company has simulated 2 weeks of operation for their inventory system.The current level of on-hand inventory is 25 units and no orders are pending.
ABCDEFG1\begin{array} { | l | l | l | l | l | l | l | l | } \hline & \mathbf { A } & \mathbf { B } & \mathbf { C } & \mathbf { D } & \mathbf { E } & \mathbf { F } & \mathbf { G } \\\hline 1 & & & & & & & \\\hline\end{array} <strong>Exhibit 12.3 The following questions use the information below. An auto parts store wants to simulate its inventory system for engine oil.The company has collected data on the shipping time for oil and the daily demand for cases of oil.A case of oil generates a $10 profit.Customers can buy oil at any auto parts store so there are no backorders the company loses the sale and profit).The company orders 30 cases whenever the inventory position falls below the reorder point of 15 cases.Orders are placed at the beginning of the day and delivered at the beginning of the day so the oil is available on the arrival day.An average service level of 99% is desired.The following spreadsheets have been developed for this problem.The company has simulated 2 weeks of operation for their inventory system.The current level of on-hand inventory is 25 units and no orders are pending. \begin{array} { | l | l | l | l | l | l | l | l | } \hline & \mathbf { A } & \mathbf { B } & \mathbf { C } & \mathbf { D } & \mathbf { E } & \mathbf { F } & \mathbf { G } \\ \hline 1 & & & & & & & \\ \hline \end{array} -Using the information in Exhibit 12.3,what formula should go in cell H3 to compute the service level?</strong> A)=SUMG8:G21)/SUMD8:D21) B)=SUMD8:D21)/SUME8:E21) C)=SUME8:E21)/SUMD8:D21) D)=SUMF8:F21)/SUMG8:G21)

-Using the information in Exhibit 12.3,what formula should go in cell H3 to compute the service level?

A)=SUMG8:G21)/SUMD8:D21)
B)=SUMD8:D21)/SUME8:E21)
C)=SUME8:E21)/SUMD8:D21)
D)=SUMF8:F21)/SUMG8:G21)
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38
Exhibit 12.3
The following questions use the information below.
An auto parts store wants to simulate its inventory system for engine oil.The company has collected data on the shipping time for oil and the daily demand for cases of oil.A case of oil generates a $10 profit.Customers can buy oil at any auto parts store so there are no backorders the company loses the sale and profit).The company orders 30 cases whenever the inventory position falls below the reorder point of 15 cases.Orders are placed at the beginning of the day and delivered at the beginning of the day so the oil is available on the arrival day.An average service level of 99% is desired.The following spreadsheets have been developed for this problem.The company has simulated 2 weeks of operation for their inventory system.The current level of on-hand inventory is 25 units and no orders are pending.
ABCDEFG1\begin{array} { | l | l | l | l | l | l | l | l | } \hline & \mathbf { A } & \mathbf { B } & \mathbf { C } & \mathbf { D } & \mathbf { E } & \mathbf { F } & \mathbf { G } \\\hline 1 & & & & & & & \\\hline\end{array} <strong>Exhibit 12.3 The following questions use the information below. An auto parts store wants to simulate its inventory system for engine oil.The company has collected data on the shipping time for oil and the daily demand for cases of oil.A case of oil generates a $10 profit.Customers can buy oil at any auto parts store so there are no backorders the company loses the sale and profit).The company orders 30 cases whenever the inventory position falls below the reorder point of 15 cases.Orders are placed at the beginning of the day and delivered at the beginning of the day so the oil is available on the arrival day.An average service level of 99% is desired.The following spreadsheets have been developed for this problem.The company has simulated 2 weeks of operation for their inventory system.The current level of on-hand inventory is 25 units and no orders are pending. \begin{array} { | l | l | l | l | l | l | l | l | } \hline & \mathbf { A } & \mathbf { B } & \mathbf { C } & \mathbf { D } & \mathbf { E } & \mathbf { F } & \mathbf { G } \\ \hline 1 & & & & & & & \\ \hline \end{array} -Using the information in Exhibit 12.3,what Analytic Solver Platform function should be used in cell D8 and copied to cells D9:D21 of the MODEL sheet to compute daily demand?</strong> A)=PsiDiscrete$E$6:$E$13,$F$6:$F$13) B)=PsiHypergeo$E$6:$F138) C)=PsiBinomial$E$6,$F$13) D)=PsiCustomData!$E$6,$F$13)

-Using the information in Exhibit 12.3,what Analytic Solver Platform function should be used in cell D8 and copied to cells D9:D21 of the MODEL sheet to compute daily demand?

A)=PsiDiscrete$E$6:$E$13,$F$6:$F$13)
B)=PsiHypergeo$E$6:$F138)
C)=PsiBinomial$E$6,$F$13)
D)=PsiCustomData!$E$6,$F$13)
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39
What function should be used for generating random numbers between 1 and 12 from a continuous uniform distribution?
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40
What function should be used for generating random numbers from a normal distribution with mean μ and standard deviation σ between the values of a and b only?
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41
A machine produces an average of 500 parts per day with a standard deviation of 10 parts.This is a normally distributed variable.The percent of defective parts ranges from 8-12%.Parts which need minor repair comprise 75% of the defective parts and cost $5 to repair.The rest of the defective parts cost $20 to repair.What formulas should go in cells B8:B15 to compute the daily cost of defective parts?
 A BCD E F1 Initial Conditions: 2 Number of Parts:  Average 500 Stcd dev 10 Normal 3% Defective  Lo 8%Hi12% Cont. Uniform 4% Minor Defects 75% Constant 5 Cost of Minor Defect $5 Constant 6 Cost of Major Defect $20 Constant 78 UnitsProduced 5009% Defective 8.2%10 Total # Defective 4111 #WthMinor Defects 3112 Cost of Minor Defects $15513 # With Major Defects 1014 Cost of Major Defects $20015 Total Cost $355\begin{array}{|c|c|c|c|c|c|c|}\hline & \text { A } & B & \mathrm{C} & \mathrm{D} & \text { E } & F \\\hline 1 & \text { Initial Conditions: } & & & & & \\\hline 2 & \text { Number of Parts: } & \text { Average } & 500 & \text { Stcd dev } & 10 & \text { Normal } \\\hline 3 & \% \text { Defective } & \text { Lo } & 8 \% & \mathrm{Hi} & 12 \% & \text { Cont. Uniform } \\\hline 4 & \% \text { Minor Defects } & & 75 \% & & & \text { Constant } \\\hline 5 & \text { Cost of Minor Defect } & & \$ 5 & & & \text { Constant } \\\hline 6 & \text { Cost of Major Defect } & & \$ 20 & & & \text { Constant } \\\hline 7 & & & & & & \\\hline 8 & \text { UnitsProduced } & 500 & & & & \\\hline 9 & \% \text { Defective } & 8.2 \% & & & & \\\hline 10 & \text { Total \# Defective } & 41 & & & & \\\hline 11 & \text { \#WthMinor Defects } & 31 & & & & \\\hline 12 & \text { Cost of Minor Defects } & \$ 155 & & & & \\\hline 13 & \text { \# With Major Defects } & 10 & & & & \\\hline 14 & \text { Cost of Major Defects } & \$ 200 & & & & \\\hline 15 & \text { Total Cost } & \$ 355 & & & & \\\hline\end{array}

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42
Exhibit 12.5
The following questions use the information below.
The owner of Sal's Italian Restaurant wants to study the growth of his business using simulation.He is interested in simulating the number of customers and the amount ordered by customers each month.He currently serves 1000 customers per month and feels this can vary uniformly between a decrease of as much as 5% and an increase of up to 9%.The bill for each customer is a normally distributed random variable with a mean of $20 and a standard deviation of $5.The average order has been increasing steadily over the years and the owner expects the mean order will increase by 2% per month.You have created the following spreadsheet to simulate the problem.

-The spreadsheet model for Sal,from Exhibit 12.5,has been run 300 times to produce the following output.What is the best case scenario for Sal based on this output?
 Simulation Statistics  Name  Income/Revenue  Description  Output  Cell  D21  Minimum 211786.9=2 Maximum 435002.7=4 Mean= 4119518.91 Stcl 33831.4 Deviation= 4\begin{array}{|r|r|}\hline \text { Simulation Statistics } & \\\hline \text { Name } & \text { Income/Revenue } \\\hline \begin{array}{c}\text { Description } \\\end{array} & \text { Output } \\\hline \text { Cell } & \text { D21 } \\\hline \text { Minimum } & 211786.9 \\= & 2 \\\hline \text { Maximum } & 435002.7 \\= & 4 \\\hline \text { Mean= } & 4119518.9 \\&1\\\hline \text { Stcl } & 33831.4 \\ \text { Deviation= } &4 \\\hline\end{array}
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43
Methods for analyzing risk that are discussed in the textbook include

A)best-case/worst case analysis
B)what-if analysis
C)simulation
D)all of the above
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44
Exhibit 12.5
The following questions use the information below.
The owner of Sal's Italian Restaurant wants to study the growth of his business using simulation.He is interested in simulating the number of customers and the amount ordered by customers each month.He currently serves 1000 customers per month and feels this can vary uniformly between a decrease of as much as 5% and an increase of up to 9%.The bill for each customer is a normally distributed random variable with a mean of $20 and a standard deviation of $5.The average order has been increasing steadily over the years and the owner expects the mean order will increase by 2% per month.You have created the following spreadsheet to simulate the problem.

-Sal,from Exhibit 12.5,has produced the following spreadsheet to compute confidence intervals on his income.What formula should go in cell B8 to compute the upper limit on a 95% confidence interval for the true population mean?
 A B12 Sample Size: 30034 Sample Mean 309,773.565 Sample StandardDeviation 33,831.4467 95% LCL for the population mean: 305,945.178 95% UCL for the population mean: 313,601.95910 Target Proportion 0.90011 95% Lower Confidence Limit: 0.86612 95% Upper Confidence Limit: 0.934\begin{array}{|c|c|c|}\hline & \text { A } & \mathrm{B} \\\hline 1 & & \\\hline 2 & \text { Sample Size: } & 300 \\\hline 3 & & \\\hline 4 & \text { Sample Mean } & \begin{array}{l}309,773.5 \\6\end{array} \\\hline 5 & \text { Sample StandardDeviation } & \begin{array}{l}33,831.4 \\4\end{array} \\\hline 6 & & \\\hline 7 & \text { 95\% LCL for the population mean: } & \begin{array}{l}305,945.1 \\7\end{array} \\\hline 8 & \text { 95\% UCL for the population mean: } & \begin{array}{l}313,601.9 \\5 \\\end{array} \\\hline 9 & & \\\hline 10 & \text { Target Proportion } & 0.900 \\\hline 11 & \text { 95\% Lower Confidence Limit: } & 0.866 \\\hline 12 & \text { 95\% Upper Confidence Limit: } & 0.934 \\\hline\end{array}
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45
What gallery distribution should be used for generating the number of times "tails" come up over 15 flips of a "fair" coin?
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46
What function should be used for generating random numbers from the following distribution on the number of phone calls per hour?
ABCD# of phone calls  P# of phone calls) # of phone calls P# of phone calls) 1210.1010.10320.4020.50430.3030.80540.1540.95650.0551.00\begin{array}{lllll}&\text {A}&\text {B}&\text {C}&\text {D}\\&\text {\# of phone calls } & \text { P\# of phone calls)}&\text { \# of phone calls}&\text { P\# of phone calls) }\\1\\\hline2 & 1 & 0.10 & 1 & 0.10 \\3 & 2 & 0.40 & 2 & 0.50 \\4 & 3 & 0.30 & 3 & 0.80 \\5 & 4 & 0.15 & 4 & 0.95 \\6 & 5 & 0.05 & 5 & 1.00\end{array}
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47
University Florists makes bouquets from a variety of materials.The Daily Special Bouquet is priced at $20.The florist assembles this bouquet each day from a variety of low cost flowers he buys from his flower supplier.The actual cost of flowers ranges uniformly from $2 to $7,with all intermediate values being equally likely.The florist who studied management science many years ago)knows that the time to assemble a bouquet is normally distributed with a mean time of 5 minutes and standard deviation of 1 minute.This will be the time required for all of the Daily Special Bouquets for that day.The florist values his labor time at $10 per hour.Sales are normally distributed with a mean of 10 bouquets per day with a standard deviation of 1 bouquet.What formulas should go in cells B8:B14 to simulate daily profits for the store?
 A  B CD E F1 Initial Conditions: 2 Sales Price $20 Constant 3 Number of Bouquets:  Average 10 Std dev 1 Normal 4 Cost of Flowers  Lo $2Hi$7 Cont. Uniform 5 Labor Time  Average 5 Std dev 1 Normal 6 Labor Cost $10 Constant 78 Cost of Flowers $4.419 Labor Time Min) 2.5510 Labor Cost $0.4311 Total Cost 4.8312 Profit/Bouquet $15.1713 # Bouquets Sold 12.2014 Total Profit $184.99\begin{array}{|c|c|c|c|c|c|c|}\hline & \text { A } & \text { B } & \mathrm{C} & \mathrm{D} & \text { E } & \mathrm{F} \\\hline 1 & \text { Initial Conditions: } & & & & & \\\hline 2 & \text { Sales Price } & & \$ 20 & & & \text { Constant } \\\hline 3 & \text { Number of Bouquets: } & \text { Average } & 10 & \text { Std dev } & 1 & \text { Normal } \\\hline 4 & \text { Cost of Flowers } & \text { Lo } & \$ 2 & \mathrm{Hi} & \$ 7 & \text { Cont. Uniform } \\\hline 5 & \text { Labor Time } & \text { Average } & 5 & \text { Std dev } & 1 & \text { Normal } \\\hline 6 & \text { Labor Cost } & & \$ 10 & & & \text { Constant } \\\hline 7 & & & & & & \\\hline 8 & \text { Cost of Flowers } & \$ 4.41 & & & & \\\hline 9 & \text { Labor Time Min) } & 2.55 & & & & \\\hline 10 & \text { Labor Cost } & \$ 0.43 & & & & \\\hline 11 & \text { Total Cost } & 4.83 & & & & \\\hline 12 & \text { Profit/Bouquet } & \$ 15.17 & & & & \\\hline 13 & \text { \# Bouquets Sold } & 12.20 & & & & \\\hline 14 & \text { Total Profit } & \$ 184.99 & & & & \\\hline\end{array}

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48
Exhibit 12.5
The following questions use the information below.
The owner of Sal's Italian Restaurant wants to study the growth of his business using simulation.He is interested in simulating the number of customers and the amount ordered by customers each month.He currently serves 1000 customers per month and feels this can vary uniformly between a decrease of as much as 5% and an increase of up to 9%.The bill for each customer is a normally distributed random variable with a mean of $20 and a standard deviation of $5.The average order has been increasing steadily over the years and the owner expects the mean order will increase by 2% per month.You have created the following spreadsheet to simulate the problem.

-Sal,from Exhibit 12.5,has produced the following spreadsheet to compute confidence intervals on his income.What formula should go in cell B12 to compute the upper limit on a 95% confidence interval for the population proportion below 90%?
 A B12 Sample Size: 30034 Sample Mean: 4,119,5195 Sample StandardDeviation 291,11767 95% LCL for the population mean: 4,086,5768 95% UCL for the population mean: 4,152,462910 Target Proportion 0.90011 95% Lower Confidence Limit: 0.86612 95% Upper Confidence Limit: 0.934\begin{array}{|c|c|c|}\hline & \text { A } & \mathrm{B} \\\hline 1 & & \\\hline 2 & \text { Sample Size: } & 300 \\\hline 3 & & \\\hline 4 & \text { Sample Mean: } & 4,119,519 \\\hline 5 & \text { Sample StandardDeviation } & 291,117 \\\hline 6 & & \\\hline 7 & \text { 95\% LCL for the population mean: } & 4,086,576 \\\hline 8 & \text { 95\% UCL for the population mean: } & 4,152,462 \\\hline 9 & & \\\hline 10 & \text { Target Proportion } & 0.900 \\\hline 11 & \text { 95\% Lower Confidence Limit: } & 0.866 \\\hline 12 & \text { 95\% Upper Confidence Limit: } & 0.934 \\\hline\end{array}
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49
Jim Johnson operates a bus service to take college students to "The Big City" on Friday night and bring them back to school on Sunday night.The bus has 45 seats but sometimes there are empty seats.His records show that about 5% of ticket holders do not show up for their ride.Tickets cost $20 and are non-refundable.If Jim overbooks the bus and more than 45 passengers show up,some of them will be bumped and have to miss the trip.This bumping costs the company $40 because Jim has a double-your-money back policy for bumped passengers.Jim plans to accept 48 reservations overbook 3 seats).
A B C1 Jim’s Big City Bus 2 Reservation System 34 SeatsAvailable 455 Ticket Price per Seat $206 Prob. of No-Show 0.057 Cost of Bumping $408 Reservations Accepted 48910 P assengers to Board 471112 Ticket Revenue $96013 Opp. Cost of Empty Seats 014 Cost of Bumping Passengers $8015 Marginal Profit $880 MODEL \begin{array}{|c|c|c|c|}\hline & \mathrm{A} & \text { B } & \mathrm{C} \\\hline 1 & & \text { Jim's Big City Bus } & \\\hline 2 & & \text { Reservation System } & \\\hline 3 & & & \\\hline 4 & & \text { SeatsAvailable } & 45 \\\hline 5 & & \text { Ticket Price per Seat } & \$ 20 \\\hline 6 & & \text { Prob. of No-Show } & 0.05 \\\hline 7 & & \text { Cost of Bumping } & \$ 40 \\\hline 8 & & \text { Reservations Accepted } & 48 \\\hline 9 & & & \\\hline 10 & & \text { P assengers to Board } & 47 \\\hline 11 & & & \\\hline 12 & & \text { Ticket Revenue } & \$ 960 \\\hline 13 & & \text { Opp. Cost of Empty Seats } & 0 \\\hline 14 & & \text { Cost of Bumping Passengers } & \$ 80 \\\hline 15 & & \text { Marginal Profit } & \$ 880 \\\hline & & \text { MODEL } & \\\hline\end{array}

What is Jim Johnson's expected marginal profit?
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50
Jim Johnson operates a bus service to take college students to "The Big City" on Friday night and bring them back to school on Sunday night.The bus has 45 seats but sometimes there are empty seats.His records show that about 5% of ticket holders do not show up for their ride.Tickets cost $20 and are non-refundable.If Jim overbooks the bus and more than 45 passengers show up,some of them will be bumped and have to miss the trip.This bumping costs the company $40 because Jim has a double-your-money back policy for bumped passengers.Jim wants to see what happens to profits if 48 reservations are accepted.
A B C1 Jim’s Big City Bus 2 Reservation System 34 SeatsAvailable 455 Ticket Price per Seat $206 Prob. of No-Show 0.057 Cost of Bumping $408 Reservations Accepted 48910 P assengers to Board 471112 Ticket Revenue $96013 Opp. Cost of Empty Seats 014 Cost of Bumping Passengers $8015 Marginal Profit $880 MODEL \begin{array}{|c|c|c|c|}\hline & \mathrm{A} & \text { B } & \mathrm{C} \\\hline 1 & & \text { Jim's Big City Bus } & \\\hline 2 & & \text { Reservation System } & \\\hline 3 & & & \\\hline 4 & & \text { SeatsAvailable } & 45 \\\hline 5 & & \text { Ticket Price per Seat } & \$ 20 \\\hline 6 & & \text { Prob. of No-Show } & 0.05 \\\hline 7 & & \text { Cost of Bumping } & \$ 40 \\\hline 8 & & \text { Reservations Accepted } & 48 \\\hline 9 & & & \\\hline 10 & & \text { P assengers to Board } & 47 \\\hline 11 & & & \\\hline 12 & & \text { Ticket Revenue } & \$ 960 \\\hline 13 & & \text { Opp. Cost of Empty Seats } & 0 \\\hline 14 & & \text { Cost of Bumping Passengers } & \$ 80 \\\hline 15 & & \text { Marginal Profit } & \$ 880 \\\hline & & \text { MODEL } & \\\hline\end{array}

What formulas should go in cell C10 ? C15 of the worksheet?
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51
Project 12.1 ? Monte Carlo Integration
A common application of Monte Carlo simulation is to provide numerical approximations.One such application is to approximate the area under a curve,or Monte Carlo integration.The following figure represents such a curve,defined over the range of X = 0 to X = 13.Call the area under this curve A.
Monte Carlo integration begins by overlaying on the curve of interest a region call this region,B)whose area is easy to calculate i.e. ,a box).Monte Carlo integration then involves the random generation of points in B and a determination of the percentage of these points that fall in A i.e. ,fall below the curve).This percentage represents that portion of the area of B that is the area of A.
Use Monte Carlo integration techniques to approximate the area under the curve.Use exact techniques to calculate the true area under the curve.How accurate is your approximation? Project 12.1 ? Monte Carlo Integration A common application of Monte Carlo simulation is to provide numerical approximations.One such application is to approximate the area under a curve,or Monte Carlo integration.The following figure represents such a curve,defined over the range of X = 0 to X = 13.Call the area under this curve A. Monte Carlo integration begins by overlaying on the curve of interest a region call this region,B)whose area is easy to calculate i.e. ,a box).Monte Carlo integration then involves the random generation of points in B and a determination of the percentage of these points that fall in A i.e. ,fall below the curve).This percentage represents that portion of the area of B that is the area of A. Use Monte Carlo integration techniques to approximate the area under the curve.Use exact techniques to calculate the true area under the curve.How accurate is your approximation?
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52
What is the probability that 3 or more phone calls are received in any hour of operation?
ABCD# of phone calls  P# of phone calls) # of phone calls P# of phone calls) 1210.1010.10320.4020.50430.3030.80540.1540.95650.0551.00\begin{array}{lllll}&\text {A}&\text {B}&\text {C}&\text {D}\\&\text {\# of phone calls } & \text { P\# of phone calls)}&\text { \# of phone calls}&\text { P\# of phone calls) }\\1\\\hline2 & 1 & 0.10 & 1 & 0.10 \\3 & 2 & 0.40 & 2 & 0.50 \\4 & 3 & 0.30 & 3 & 0.80 \\5 & 4 & 0.15 & 4 & 0.95 \\6 & 5 & 0.05 & 5 & 1.00\end{array}
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53
A simulation model was replicated 100 times yielding a mean of 82.59 with variance of 17.66.Of the 100 replications,11 replications yielded an outcome over a value of 100.What is the 95% confidence interval on the proportion of simulations whose outcomes exceeded a value of 100?
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54
A random variable is

A)a variable whose value cannot be predicted with certainty
B)a parameter
C)a population variable
D)a sample variable
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55
A simulation model was replicated 100 times yielding a mean of 82.59 with variance of 17.66.Of the 100 replications,11 replications yielded an outcome over a value of 100.The 95% confidence interval of the mean is the interval 81.77,83.41).Of the 100 simulation outcomes,65 outcomes failed to fall within this interval.What is wrong with the confidence interval?
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56
A simulation model was replicated 100 times yielding a mean of 82.59 with variance of 17.66.Of the 100 replications,11 replications yielded an outcome over a value of 100.What is the 90% confidence interval on the mean?
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57
What is the expected number of phone calls per hour based on the following distribution on the number of phone calls per hour?
ABCD# of phone calls  P# of phone calls) # of phone calls P# of phone calls) 1210.1010.10320.4020.50430.3030.80540.1540.95650.0551.00\begin{array}{lllll}&\text {A}&\text {B}&\text {C}&\text {D}\\&\text {\# of phone calls } & \text { P\# of phone calls)}&\text { \# of phone calls}&\text { P\# of phone calls) }\\1\\\hline2 & 1 & 0.10 & 1 & 0.10 \\3 & 2 & 0.40 & 2 & 0.50 \\4 & 3 & 0.30 & 3 & 0.80 \\5 & 4 & 0.15 & 4 & 0.95 \\6 & 5 & 0.05 & 5 & 1.00\end{array}
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58
Risk needs to be analyzed using models in order to

A)make decisions better than those based on informed guesses
B)obtain a feasible solution
C)obtain an optimal solution
D)confound the decision-making process
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59
The worst-case analysis approach to risk analysis

A)is optimistic
B)is pessimistic
C)is most likely
D)generally produces good outcomes
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60
The best-case analysis approach to risk analysis

A)is optimistic
B)is pessimistic
C)is most likely
D)is likely to produce good outcomes
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61
Uncertainty

A)is the most difficult thing about decision-making
B)simplifies decision-making
C)is easy to capture with computers
D)requires the use of quantitative models for supporting decision-making
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62
Large sample size,n,is desirable because

A)upper and lower limits of the confidence interval for the true population proportion are closer to one another
B)upper and lower limits of the confidence interval for the true population proportion are further apart
C)point estimate of the population proportion is larger
D)point estimate of the population proportion is smaller
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63
In a what-if analysis the decision maker

A)changes the values of the uncertain input variables to see what happens to the performance measure being studied
B)assumes that all inputs are random variables
C)assumes that all outputs are deterministic
D)corrects for underestimated risk
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64
The PsiTarget. )function in Analytic Solver Platform

A)returns the cumulative probability of a specified distribution cell being less or equal to the specified target value
B)returns the cumulative probability of a specified distribution cell being equal to or larger than the specified target value
C)returns the cumulative probability of a specified distribution cell being equal to the specified target value
D)returns the probability of a specified distribution cell being equal to the specified target value
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65
Large sample size,n,is desirable because

A)upper and lower limits of the confidence interval for the true population mean are closer to one another
B)upper and lower limits of the confidence interval for the true population mean are further apart
C)point estimate of the population mean is larger
D)point estimate of the population mean is smaller
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66
A good way to fit the distribution to historical patterns when historical data is available is to

A)use the Fit icon in the Tools group of the Analytic Solver Platform
B)guess the distribution parameters
C)assume that the data distribution is Normal
D)assume that the data distribution is Weibull
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67
Common continuous distributions available in Analytic Solver Platform are

A)exponential
B)Normal
C)truncated Normal
D)all of the above
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68
Common discrete distributions available in Analytic Solver Platform are

A)binomial
B)Poisson
C)discrete
D)all of the above
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69
In running simulations under Analytic Solver Platform it is desirable to use more simulation runs because

A)confidence level regarding the decision precision is improved
B)point estimates are more accurate
C)simulation run length is decreased
D)cost is decreased
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70
The benefits)of simulation discussed in the text is/are

A)gaining better insight into a problem
B)ability to make more informed decisions
C)eliminating the need to build a system with fine-tuning occurring after the launch
D)all of the above
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