Question 1: In the scientific method, model parameters are:
a. always changing
b. constant during the process of solving a specific problem
c. defined as decision variables
d. found in the model solution process
Question 2: The components of break-even analysis are:
a. volume, cost and profit
b. fixed cost, variable cost and equipment structure
c. percentage of total revenue, percentage of total cost
d. total sales, total variable revenue
Question 3: A management science model:
a. is an abstract representation of an existing problem
b. appears most frequently as a mathematical relationship
c. can appear in the form of a graph or a chart
d. is accurately described by all of the above
Question 4: Management science is also referred to as:
a. management
b. quantitative analysis
c. qualitative analysis
d. computer science
Question 5: Management science can be described as:
a. strictly a science
b. both an art and a science
c. strictly an art
d. a deterministic technique
Question 6: Linear programming models exhibit certain common characteristics except:
a. decision variables for measuring the level of activity
b. linearity among some constraint relationships
c. an objective function to be maximized or minimized
d. a set of constraints
Question 7: For most graphs, the constraint equations which intersect to form a solution point must be solved simultaneously:
a. because the solution coordinates from the graph cannot be visually read with high precision
b. in order to confirm the mathematically determined coordinates
c. in order to determine all of the optimal point solution
d. because the slope b and the y-intercept a are not always integers
Question 8: The maximum number of constraints that could define the feasible solution space is:
a. 2
b. 3
c. 4
d. unlimited
Question 9: Which of the list of items below is not a component of a linear programming problem?
a. constraints
b. objective function
c. decision variables
d. a nonlinear residual
Question 10: The change in the value of the objective function per unit increase in the value of the right hand side is referred to as:
a. shadow price
b. quantity values
c. feasible range
d. optimal range
Question 11: In order to transform a ">=" constraint into an equality ("=") in a linear programming model,
a. add a slack variable
b. add a surplus variable
c. subtract a surplus variable
d. subtract a surplus variable and add a slack variable
Question 12: A decrease in fixed costs with everything else remaining constant
a. decreases the break-even point
b. increases the break-even point
c. keeps the break-even point same
d. increases the variable costs
Question 13: The term ____________ refers to testing how a problem solution reacts to changes in one or more of the model parameters.
a. priority recognition
b. decision analysis
c. analysis of variance
d. sensitivity analysis
Question 14: Which of the following could not be a linear programming problem constraint?
a. 1A + 2B
b. 1A + 2B = 3
c. 1A + 2B > 3
d. 1A + 2B < 3
Question 15: Non-negativity constraints restrict the decision variable to
a. 0
b. positive values
c. negative values
d. both a and b
Question 16: A graphical solution is generally limited to linear programming problems with
a. 1 decision variable
b. 2 decision variables
c. 3 decision variables
d. 4 decision variables
Question 17: The region which satisfies all of the constraints in a graphical linear programming problem is called the
a. region of optimality
b. feasible solution space
c. region of non-negativity
d. optimal solution space
Question 18: The optimal solution is the ___________ feasible solution.
a. best
b. only
c. worst
d. none of the above
Question 19: Multiple optimum solutions can occur when the objective function is _______ a constraint line.
a. unequal to
b. equal to
c. linear to
d. parallel to
Question 20: The optimal solution of a minimization problem is at the extreme point _________ the origin.
a. farthest from
b. closest to
c. exactly at
d. none of the above
Question 21: If the original amount of a resource is 25, and the range of feasibility for it can increase by 5, then the amount of the resource can increase to
a. 25
b. 30
c. 20
d. 125
Question 22: A shadow price reflects which of the following in a maximization problem?
a. the marginal gain in the objective that would be realized by adding 1 unit of a resource
b. the marginal gain in the objective that would be realized by subtracting 1 unit of a resource
c. the marginal cost of adding additional resources
d. none of the above
Question 23: The standard constraint form in a linear programming model requires that all decision variables be on the left side of the inequality (or equality) and numerical values on the right side.
a. True
b. False
Question 24: In financial management applications of linear programming in which funds are to be invested, the objective is to:
a. maximize risk
b. minimize return
c. maximize return
d. maximize cost
Question 25: A popular example of a linear programming model is the
a. product mix problem
b. diet problem
c. transportation problem
d. all of the above
Question 26: In an investment example of a linear programming problem, the decision variables are
a. the monetary amount invested in each investment alternative
b. the returns of the investment alternatives
c. the requirements for investing
d. none of the above
Question 27: A constraint represents a
a. minimum requirement
b. maximum limit
c. either of the above
d. minimization constraint
Question 28: An optimal solution will always occur at
a. the intersection of two or more constraint lines
b. an extreme point
c. a corner point
d. any of the above
Question 29: The solution of a management science model provides a manager with useful information that can aid in the decision making process.
a. True
b. False
Question 30: Standard form requires that fractional relationships between variables in constraints be eliminated
a. True
b. False
Question 31: Which of the following is not a type of integer linear programming problem?
a. continuous
b. zero-one integer
c. mixed integer
d. pure integer
Question 32: A zero-one integer problem always finds an optimal integer solution.
a. True
b. False
Question 33: In a _____ integer model, some solution values for decision variables are integer and others can be non-integer.
a. total
b. 0 - 1
c. mixed
d. all of the above
Question 34: In a _____ integer model, the solution values of the decision variables are 0 or 1.
a. total
b. 0 - 1
c. mixed
d. all of the above
Question 35: A feasible solution to a maximization problem is ensured by rounding ________ non-integer solution values.
a. up and down
b. up
c. down
d. up or down