Even though Bechtel is over 100 years old, the Kuwaiti oil fields was its first "project."
Bechtel is the world's premier manager of massive construction and engineering projects.
Bechtel's competitive advantage is supply chain management.
While its projects are worldwide, its network of suppliers is largely in the U.S.
All of the above are true
Has been established by the Project Management Institute
Has been formulated by the Federal government
Has been formulated by the World Trade Organization
Is inappropriate, since everyone should use the same guidance on ethical issues
Does not exist at this time
Gantt charts give a timeline and precedence relationships for each activity of a project.
Gantt charts use the four standard spines of Methods, Materials, Manpower, and Machinery.
Gantt charts are visual devices that show the duration of activities in a project.
Gantt charts are expensive.
All of the above are true.
The shortest of all paths through the network is the critical path.
Some activities on the critical path may have slack.
Every network has exactly one critical path.
On a specific project, there can be multiple critical paths, all with exactly the same duration.
The duration of the critical path is the average duration of all paths in the project network.
The critical path is A-B-C, duration 15.
The critical path is A-C, duration 12.
The critical path is A-B-C, duration 13.5
The critical path cannot be determined without knowing PERT expected activity times.
The network has no critical path.
The critical path is D-E-F, duration 15.
The critical path is D-F, duration 12.
Slack at D is 3 units
Slack at E is 3 units
Both a and c are true
There are two paths in this network.
There are four paths in this network.
There are five paths in this network.
There are 25 paths through this network.
None of these statements is true.
There can be multiple critical paths on the same project, all with different durations.
The early finish of an activity is the latest early start of all preceding activities.
The late start of an activity is its late finish plus its duration.
If a specific project has multiple critical paths, all of them will have the same duration.
All of the above are true
2X ≥ 7X*Y
2X * 7Y ≥ 500
2X + 7Y ≥ 100
2X2+ 7Y ≥ 50
All of the above are valid linear programming constraints.
An objective function, expressed in terms of linear equations
Constraint equations, expressed as linear equations
An objective function, to be maximized or minimized
Alternative courses of action
For each decision variable, there must be one constraint or resource limit
Constraint
Slack variable
Objective function
Violation of linearity
Decision variable
Can be used to help solve a profit maximizing linear programming problem
Is parallel to all other iso-profit lines in the same problem
Is a line with the same profit at all points
None of the above
All of the above
X + Y > 15 and X – Y < 10
X + Y > 5 and X > 10
X > 10 and Y > 20
X + Y > 100 and X + Y < 50
All of the above have a feasible region.
Finding the value of the objective function at the origin
Moving the iso-profit line to the highest level that still touch some part of the feasible region
Moving the iso-profit line to the lowest level that still touches some part of the feasible region
Finding the coordinates at each corner of the feasible solution space
None of the above
X + Y > 100 and X + Y < 50
X + Y > 15 and X – Y < 10
X + Y < 10 and X > 5
X < 10 and Y < 20
All of the above have a bounded maximum.
Area of optimal solutions
Area of feasible solutions
Profit maximization space
Region of optimality
Region of non-negativity
X = 2, y = 1
X = 1, y = 5
X = -1, y = 1
X = 4, y = 4
X = 2, y = 8
?
X = -1, y = 1
X = 0, y = 4
X = 2, y = 1
X = 5, y = 1
X = 2, y = 0
X = 2, y = 0
X = 0, y = 3
X = 0, y = 0
X = 1, y = 5
None of the above
(0, 0), (50, 0), (0, 21), and (20, 15)
(0, 0), (70, 0), (25, 0), and (15, 20)
(20, 15)
(0, 0), (0, 100), and (210, 0)
None of the above
There are four corner points including (50, 0) and (0, 12.5).
The two corner points are (0, 0) and (50, 12.5).
The graphical origin (0, 0) is not in the feasible region.
The feasible region includes all points that satisfy one constraint, the other, or both.
The feasible region cannot be determined without knowing whether the problem is to be minimized or maximized.
3X ≥ Y
X ≤ 3Y
X + Y ≥ 3
X – 3Y ≥ 0
3X ≤ Y
Maximize $40Y = $25Z
Maximize $40Y + $25Z
Maximize $30Y + $20Z
Maximize 0.25Y + 0.20Z
None of the above
The shadow price of the added resource will rise.
The solution stays the same; the extra resource can't be used without more of the other scarce resource.
The extra resource will cause the value of the objective to fall.
The optimal mix will be rearranged to use the added resource, and the value of the objective function will rise.
None of the above