Deck 15: Introduction to Simulation Modeling

A) Uniform distribution
B) Normal distribution
C) Triangular distribution
D) None of these options

A) Law of Large Numbers.
B) Flaw of Averages
C) Law of Inevitable Disappointment
D) Central Limit Theorem

A) Normal(0,1)
B) Uniform(0,1)
C) Normal(-1,1)
D) Uniform(-1,1).

A) mean and a standard deviation.
B) mean and a variance.
C) density function.
D) histogram

A) better to use in complicated real world applications.
B) a good estimate of what the answer will be using a simulation approach.
C) generally not the appropriate model.
D) the preferred approach when there is correlation between input variables.

A) the "I have no idea" distribution.
B) a skewed distribution.
C) only modeling positive values.
D) nonnegative.

A) The @RISK contains a number of functions such as RISKNORMAL and RISKDISCRETE that make it easy to generate observations from the most important probability distributions.
B) You can specify any cell or range of cells in your simulation model as output cells.
When you run the simulation,@RISK automatically keeps summary measures (averages,standard deviation,percentiles,and others)from the values generated in these output cells across the replications.
C) @RISK has a special function,RISKSIMTABLE,which allows you to run the same simulation several times,using a different value of some key input variable each time.
D) All of these options.

A) It is a series of spikes.
B) The height of each spike is the probability of the corresponding value.
C) There is an empty space between adjacent spikes.
D) All of these options

A) A probability distribution is discrete if it has a finite number of possible values.
B) A probability distribution is continuous if its possible values are essentially some continuum.
C) An example of a discrete probability distribution is the amount of rain that falls during the month of June in Michigan.
D) None of these options

A) This quantity is the optimal order quantity.
B) This quantity might be the optimal order quantity,but we also need to consider the company's attitude toward risk.
C) This is not necessarily the optimal order quantity,because it may have produced the largest profit by luck.
D) We can't infer anything.

A) less than zero.
B) uniformly distributed around the mean.
C) skewed to the right.
D) nonnegative.

A) the mean of the probability distribution.
B) a scenario.
C) a best guess.
D) all of these options.

A) A and B represent the 95% confidence interval
B) A and B are the mean and standard deviation,respectively.
C) A and B are the mean and variance,respectively.
D) no value can be less than A or greater than B.

A) risk analysis
B) @RISK investment
C) unbounded risk
D) None of the above

A) It is always the appropriate distribution in simulation modeling
B) It does not permit negative values
C) There is a 95% chance that values will be within ± 2 standard deviations of the mean
D) All of these options

A) The numbers are random between 0 and 1
B) The numbers are probabilistically dependent
 
C) The numbers are probabilistically independent
D) The numbers are uniformly distributed between 0 and 1

A) 100 and 150
B) 150 and 250
C) 50 and 100
D) 50 and 250

A) symmetric distribution around 0
B) positively skewed distribution
C) negatively skewed distribution
D) All of these options

A) A probability distribution is symmetric (around some point)if the distribution to the left of the point is a mirror image of the distribution to the right of the point.
B) We say a distribution is skewed to the right (or positively skewed)if the "longer tail" is the right tail.
C) We say a distribution is skewed to the left (or negatively skewed)if the "longer tail" is the left tail.
D) All of the above

A) Approximately 10% of the numbers will be between 0.0 and 1.0
B) Approximately 20% of the numbers will be between 0.50 and 0.70
C) Approximately 40% of the numbers will be between 0.20 and 0.60
D) Approximately 60% of the numbers will be between 0.15 and 0.75
E) All of these options are false

A) symmetric distribution
B) positively skewed distribution
C) negatively skewed distribution
D) All of these options

A) only the RAND function
B) only the VLOOKUP function
C) only the VLOOKDOWN function
D) the RAND function along with a VLOOKUP function

A) It is characterized by a density function,a smooth curve.
B) It is a series of spikes
C) The height of the density curve above any point is not actually a probability-that is,it is not necessarily between 0 and 1.
D) Heights above the density function indicate relative likelihoods but are not necessarily values between 0 and 1.

A) forecasting.
B) obtaining deterministic outputs.
C) evaluating constraints.
D) asking what-if questions.

A) It is a discrete distribution with a minimum,maximum and most likely value
B) It is more flexible and intuitive than the normal distribution
C) It is a symmetric distribution
D) All of these options

A) because they are more accurate.
B) because they are more simple.
C) when we don't know the mean and variance of the distribution.
D) when we need to generate a histogram

A) Discrete versus continuous
B) Symmetric versus skewed
C) Bounded versus unbounded
D) Positive (or nonnegative)versus unrestricted
E) All of these options

A) deterministic inputs
B) random numbers between 0 and 1
C) decision variables
D) probability distributions

A) It explicitly models decision-making under uncertainty
B) It explicitly incorporates uncertainty in one or more input variables
C) It provides probability distributions for all outputs,rather than expected values
D) All of these options

A) 300 + x
B) 500 - x
C) 300 + 200 x
D) 500 - 200 x
E) 300 + 500 x
Generate a set of 40 random numbers in a column in an Excel spreadsheet by using RAND function.Fix the set of random numbers by copying the column to another column and using the "Paste Special" command with the "Values" option selected.