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Deck 11: Network Models
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Pipeline fluid flows are indicated below. Determine the maximum flow from Node 1 to Node 3. 
A) 100
B) 400
C) 500
D) 700
E) None of the above
A) 100
B) 400
C) 500
D) 700
E) None of the above
Question
Pipeline fluid flows are indicated below. Determine the maximum flow from Node 1 to Node 4. 
A) 100
B) 150
C) 200
D) 50
E) None of the above
A) 100
B) 150
C) 200
D) 50
E) None of the above
Question
Given the following distances between destination nodes, what is the minimum distance that connects all the nodes? 
A) 450
B) 150
C) 350
D) 650
E) None of the above
A) 450
B) 150
C) 350
D) 650
E) None of the above
Question
Given the following distances between destination nodes, what is the minimum distance that connects all the nodes? 
A) 100
B) 750
C) 850
D) 900
E) None of the above
A) 100
B) 750
C) 850
D) 900
E) None of the above
Question
Find the shortest route from Node 1 to Node 5 using the shortest-route technique. 
A) 350
B) 400
C) 450
D) 600
E) None of the above
A) 350
B) 400
C) 450
D) 600
E) None of the above
Question
Given the following distances between destination nodes, what is the minimum distance that connects all the nodes? 
A) 1000
B) 800
C) 700
D) 1100
E) None of the above
A) 1000
B) 800
C) 700
D) 1100
E) None of the above
Question
Question
Given the following distances between destination nodes, what is the minimum distance that connects all the nodes? 
A) 900
B) 650
C) 400
D) 1200
E) None of the above
A) 900
B) 650
C) 400
D) 1200
E) None of the above
Question
Question
Find the shortest route from Node 1 to Node 6. 
A) 300
B) 450
C) 550
D) 650
E) None of the above
A) 300
B) 450
C) 550
D) 650
E) None of the above
Question
Pipeline fluid flows are indicated below. Determine the maximum flow from Node 1 to Node 5. 
A) 300
B) 400
C) 600
D) 500
E) None of the above
A) 300
B) 400
C) 600
D) 500
E) None of the above
Question
Given the following distances between destination nodes, what is the minimum distance that connects all the nodes? 
A) 100
B) 150
C) 550
D) 1225
E) None of the above
A) 100
B) 150
C) 550
D) 1225
E) None of the above
Question
Given the following distances between destination nodes, what is the minimum distance that connects all the nodes? 
A) 900
B) 1200
C) 1100
D) 700
E) None of the above
A) 900
B) 1200
C) 1100
D) 700
E) None of the above
Question
Find the shortest route from Node 1 to Node 4 using the shortest-route technique. 
A) 650
B) 450
C) 550
D) 500
E) 800
A) 650
B) 450
C) 550
D) 500
E) 800
Question
Pipeline fluid flows are indicated below. Determine the maximum flow from Node 1 to Node 4. 
A) 200
B) 300
C) 600
D) 700
E) None of the above
A) 200
B) 300
C) 600
D) 700
E) None of the above
Question
Question
Given the following distances between destination nodes, what is the minimum distance that connects all the nodes? 
A) 290
B) 310
C) 620
D) 460
E) None of the above
A) 290
B) 310
C) 620
D) 460
E) None of the above
Question
Given the following distances between destination nodes, what is the minimum distance that connects all the nodes? 
A) 300
B) 525
C) 675
D) 1925
E) None of the above
A) 300
B) 525
C) 675
D) 1925
E) None of the above
Question
Find the shortest route from Node 1 to Node 4. 
A) 750
B) 500
C) 550
D) 600
E) 50
A) 750
B) 500
C) 550
D) 600
E) 50
Question
Find the shortest route from Node 1 to Node 5. 
A) 200
B) 350
C) 250
D) 450
E) None of the above
A) 200
B) 350
C) 250
D) 450
E) None of the above
Question
Find the shortest route from Node 1 to each of the other nodes in the transportation network represented below. 
Question
Given the following traffic flows, in hundreds of cars per hour, what is the maximum traffic flow from Town 1 to Town 7? 
A) max flow = 4 units
B) max flow = 6 units
C) max flow = 3 units
D) max flow = 9 units
E) None of the above
A) max flow = 4 units
B) max flow = 6 units
C) max flow = 3 units
D) max flow = 9 units
E) None of the above
Question
Find the shortest route from Node 6 to Node 1. 
A) branches 9, 7, and 2
B) branches 8, 6, and 2
C) branches 8, 6, 7, and 1
D) branches 9, 5, and 1
E) None of the above
A) branches 9, 7, and 2
B) branches 8, 6, and 2
C) branches 8, 6, 7, and 1
D) branches 9, 5, and 1
E) None of the above
Question
Solve the minimal-spanning tree problem defined below: 
A) total cost = 13
B) total cost = 15
C) total cost = 17
D) total cost = 11
E) None of the above
A) total cost = 13
B) total cost = 15
C) total cost = 17
D) total cost = 11
E) None of the above
Question
The west-to-east air traffic system passing through the United States can handle aircraft flows with capacities in hundreds of planes per hour as shown. What is the peak air traffic load (From City 1 to City 5) in aircraft per hour that this system can handle? 
Question
Find the shortest route from Node 1 to Node 6. 
A) total distance = 350
B) total distance = 410
C) total distance = 270
D) total distance = 520
E) None of the above
A) total distance = 350
B) total distance = 410
C) total distance = 270
D) total distance = 520
E) None of the above
Question
As part of the planning for a major office development project, it is necessary to install telephone lines to the buildings. Information about the project is given below. The distances are provided in hundreds of feet. Which offices should be connected so that total wiring costs (i.e., total distance) are minimized? What is the total length of this? 
Question
Brantley College has decided to "wire" its campus. The first stage in this effort is to install the "backbone," i.e., to connect all the buildings. The table below gives the distances between the various buildings on campus in hundreds of feet. How should the buildings be connected to minimize the total length of cable? What length of cable is required? 
Question
Given the following nodes and distances, determine the minimal length of cable necessary to connect all nodes, using Node 2 as the starting point. 
A) 1200
B) 1100
C) 900
D) 700
E) None of the above
A) 1200
B) 1100
C) 900
D) 700
E) None of the above
Question
A logistics company is determining the shortest route to get to a selected final destination. The information on possible paths and distances is given below: 
Question
Given a network with the following distances: 
(a) Determine which nodes should be connected to get the minimum distance from Nodes 1 through 6.
(b) Determine the minimum distance.
(a) Determine which nodes should be connected to get the minimum distance from Nodes 1 through 6.(b) Determine the minimum distance.
Question
Given the following traffic flows, in hundreds of cars per hour, what is the maximum traffic flow from City 1 to City 7? 
A) 1200
B) 1400
C) 900
D) 800
E) None of the above
A) 1200
B) 1400
C) 900
D) 800
E) None of the above
Question
A cable company must is to provide service for 7 houses in a particular neighborhood. They would like to wire the neighborhood in a way to minimize the wiring costs (or distance). How should the cable company wire the neighborhood and what would be the minimal length of the network? 
Question
Find the shortest route from Node 1 to each of the other nodes in the transportation network represented below. 
Question
Given a network with the following distances: 
(a) Determine which nodes should be connected to get the minimum distance flowing from Node 1 through Node 7.
(b) Determine the minimum distance.
(a) Determine which nodes should be connected to get the minimum distance flowing from Node 1 through Node 7.(b) Determine the minimum distance.
Question
Find the least amount of cable that will allow Jack's Cable Company to connect the following nodes (houses). 
A) 250
B) 400
C) 350
D) 300
E) None of the above
A) 250
B) 400
C) 350
D) 300
E) None of the above
Question
Given the pipeline fluid flows indicated below, determine the maximum flow from Node 1 to Node 5. 
A) 250
B) 300
C) 350
D) 450
E) None of the above
A) 250
B) 300
C) 350
D) 450
E) None of the above
Question
As part of the planning for a major office development project, it is necessary to install telephone line to the buildings. Information about the project is given below. The distances are provided in hundreds of feet. Which offices should be connected so that total wiring costs (i.e., total distance) are minimized? What is the total length of this? 
Question
Find the shortest route from Node 1 to Node 6. 
A) 300
B) 450
C) 550
D) 650
E) None of the above
A) 300
B) 450
C) 550
D) 650
E) None of the above
Question
Given the following nodes and distances, determine the minimum length of cable necessary to connect all six nodes. 
A) 200
B) 300
C) 400
D) 500
E) None of the above
A) 200
B) 300
C) 400
D) 500
E) None of the above
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Deck 11: Network Models
1
In the minimal-spanning tree technique, if there is a tie for the nearest node, that suggests that there may be more than one optimal solution.
True
2
The shortest-route model assumes that one is trying to connect two end points in the shortest manner possible, rather than attempting to connect all the nodes in the model.
True
3
The maximal-flow model assumes that there is a net flow from "source" to "sink."
True
4
Cable television companies would employ the shortest-route technique to lay out the cables connecting individual houses.
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5
A traveling salesperson might use the shortest route technique to minimize the distance traveled to reach one of his/her customers.
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6
We may begin the maximal-flow technique by picking an arbitrary path through the network.
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7
Transportation companies would definitely be interested in the shortest-route technique to optimize travel.
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8
The maximal-flow model might be of use to an engineer looking for spare capacity in an oil pipeline system.
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9
In the maximal-flow technique, a zero (0) means no flow or a one-way arc.
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10
Busy highways are often analyzed with the maximal-flow technique.
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11
The shortest-route technique might be used by someone planning a vacation in order to minimize the required amount of driving.
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12
The minimal-spanning tree technique determines the path through the network that connects all the points while minimizing total distance.
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13
The maximal-flow technique finds the maximum flow of any quantity or substance through a network.
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14
The points on the network are referred to as nodes.
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15
The maximal-flow technique might be used by the U.S. Army Corps of Engineers to study water run-off in an attempt to minimize the danger from floods.
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16
The minimal-spanning tree technique finds the shortest route to a series of destinations.
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17
In the minimal-spanning tree technique, it is necessary to start at the last node in the network.
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18
The shortest-route technique is the same as the minimal-spanning tree technique.
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19
The maximal-flow technique would be helpful to city planners in determining how freeways should be expanded.
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20
Lines connecting nodes on a network are called links.
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21
Which of the following techniques is not discussed in Chapter 11?
A) shortest-route
B) maximal-flow
C) linear programming
D) minimal-flow
E) minimal-spanning tree
A) shortest-route
B) maximal-flow
C) linear programming
D) minimal-flow
E) minimal-spanning tree
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22
All the nodes must be connected in which of the following techniques?
A) minimal-flow
B) maximal-spanning tree
C) shortest-route
D) maximal-flow
E) minimal-spanning tree
A) minimal-flow
B) maximal-spanning tree
C) shortest-route
D) maximal-flow
E) minimal-spanning tree
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23
The second step in the maximal-flow technique is to
A) pick the node with the maximum flow.
B) pick any path with some flow.
C) decrease the flow as much as possible.
D) add capacity to the path with minimum flow.
E) find the arc on the previously chosen path with the smallest flow capacity available.
A) pick the node with the maximum flow.
B) pick any path with some flow.
C) decrease the flow as much as possible.
D) add capacity to the path with minimum flow.
E) find the arc on the previously chosen path with the smallest flow capacity available.
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24
The final node or destination in a network is called a(n) ________.
A) arc
B) branch
C) source
D) mouth
E) sink
A) arc
B) branch
C) source
D) mouth
E) sink
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25
Which of the following problems can be solved using linear programming?
A) maximal-flow problem
B) shortest-route problem
C) minimal-spanning tree problem
D) A and B
E) A, B, and C
A) maximal-flow problem
B) shortest-route problem
C) minimal-spanning tree problem
D) A and B
E) A, B, and C
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26
The origin or beginning node in a network is called ________.
A) home
B) delta
C) source
D) mouth
E) sink
A) home
B) delta
C) source
D) mouth
E) sink
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27
The maximal-flow technique would best be used
A) to assign workers to jobs in the cheapest manner.
B) to determine the number of units to ship from each source to each destination.
C) to determine LAN network wiring within a building.
D) to maximize traffic flow on a busy highway.
E) by a trucking company making frequent but repeatable drops.
A) to assign workers to jobs in the cheapest manner.
B) to determine the number of units to ship from each source to each destination.
C) to determine LAN network wiring within a building.
D) to maximize traffic flow on a busy highway.
E) by a trucking company making frequent but repeatable drops.
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28
When using the shortest-route technique, the first step is to
A) connect the nearest node that minimizes the total distance to the origin.
B) trace the path from the warehouse to the plant.
C) determine the average distance traveled from source to end.
D) find the nearest node to the origin and put a distance box by the node.
E) None of the above
A) connect the nearest node that minimizes the total distance to the origin.
B) trace the path from the warehouse to the plant.
C) determine the average distance traveled from source to end.
D) find the nearest node to the origin and put a distance box by the node.
E) None of the above
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29
A line in a network that may represent a path or a route is called a(n) ________.
A) arc
B) branch
C) line
D) fork
E) sink
A) arc
B) branch
C) line
D) fork
E) sink
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30
The shortest-route technique would best be used to ________
A) assign workers to jobs in the cheapest manner.
B) determine the number of units to ship from each source to each destination.
C) determine the amount of LAN network wiring within a building.
D) minimize the amount of traffic flow on a busy highway.
E) determine the path for a truck making frequent but repeatable drops.
A) assign workers to jobs in the cheapest manner.
B) determine the number of units to ship from each source to each destination.
C) determine the amount of LAN network wiring within a building.
D) minimize the amount of traffic flow on a busy highway.
E) determine the path for a truck making frequent but repeatable drops.
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31
The minimal-spanning tree technique would best be used
A) by a forest ranger seeking to minimize the risk of forest fires.
B) by a telephone company attempting to lay out wires in a new housing development.
C) by an airline laying out flight routes.
D) None of the above
E) All of the above
A) by a forest ranger seeking to minimize the risk of forest fires.
B) by a telephone company attempting to lay out wires in a new housing development.
C) by an airline laying out flight routes.
D) None of the above
E) All of the above
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32
The minimal-spanning technique would best be used
A) to assign workers to jobs in the cheapest manner.
B) to determine LAN network wiring within a building.
C) to minimize traffic flow on a busy highway.
D) by a trucking company making frequent but repeatable drops.
E) to determine the number of units to ship from each source to each destination.
A) to assign workers to jobs in the cheapest manner.
B) to determine LAN network wiring within a building.
C) to minimize traffic flow on a busy highway.
D) by a trucking company making frequent but repeatable drops.
E) to determine the number of units to ship from each source to each destination.
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33
Which of the following problems can be solved as a linear program using binary decision variables?
A) maximal-flow problem
B) shortest-route problem
C) minimal-spanning tree problem
D) A and B
E) A, B, and C
A) maximal-flow problem
B) shortest-route problem
C) minimal-spanning tree problem
D) A and B
E) A, B, and C
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34
The shortest-route technique might be logically used for
A) finding the longest time to travel between two points.
B) finding the shortest travel distance between two points.
C) finding the most scenic route to allow travel to several places during a trip on spring break.
D) connecting all the points of a network together while minimizing the distance between them.
E) None of the above
A) finding the longest time to travel between two points.
B) finding the shortest travel distance between two points.
C) finding the most scenic route to allow travel to several places during a trip on spring break.
D) connecting all the points of a network together while minimizing the distance between them.
E) None of the above
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35
A technique that allows a researcher to determine the greatest amount of material that can move through a network is called
A) maximal-flow.
B) maximal-spanning.
C) shortest-route.
D) maximal-tree.
A) maximal-flow.
B) maximal-spanning.
C) shortest-route.
D) maximal-tree.
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36
The first step in the maximal-flow technique is to
A) pick the node with the maximum flow.
B) pick any path with some flow.
C) eliminate any node that has a zero flow.
D) add a dummy flow from the start to the finish.
E) None of the above
A) pick the node with the maximum flow.
B) pick any path with some flow.
C) eliminate any node that has a zero flow.
D) add a dummy flow from the start to the finish.
E) None of the above
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37
Which of the following problems can be solved as a linear program using integer decision variables?
A) maximal-flow problem
B) shortest-route problem
C) minimal-spanning tree problem
D) A and B
E) A, B, and C
A) maximal-flow problem
B) shortest-route problem
C) minimal-spanning tree problem
D) A and B
E) A, B, and C
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38
If your goal was to construct a network in which all points were connected and the distance between them was as short as possible, the technique that you would use is
A) shortest-route.
B) maximal-flow.
C) shortest-spanning tree.
D) minimal-flow.
E) minimal-spanning tree.
A) shortest-route.
B) maximal-flow.
C) shortest-spanning tree.
D) minimal-flow.
E) minimal-spanning tree.
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39
A point in the network, that is at the beginning or end of a route is called a(n) ________.
A) arc
B) branch
C) line
D) node
E) source
A) arc
B) branch
C) line
D) node
E) source
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40
The maximal-flow technique might be used
A) to help design the moving sidewalks transporting passengers from one terminal to another in a busy airport.
B) by someone designing the traffic approaches to an airport.
C) by someone attempting to design roads that would limit the flow of traffic through an area.
D) All of the above
E) None of the above
A) to help design the moving sidewalks transporting passengers from one terminal to another in a busy airport.
B) by someone designing the traffic approaches to an airport.
C) by someone attempting to design roads that would limit the flow of traffic through an area.
D) All of the above
E) None of the above
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41
Pipeline fluid flows are indicated below. Determine the maximum flow from Node 1 to Node 3.
A) 100
B) 400
C) 500
D) 700
E) None of the above
A) 100
B) 400
C) 500
D) 700
E) None of the above
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42
Pipeline fluid flows are indicated below. Determine the maximum flow from Node 1 to Node 4.
A) 100
B) 150
C) 200
D) 50
E) None of the above
A) 100
B) 150
C) 200
D) 50
E) None of the above
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43
Given the following distances between destination nodes, what is the minimum distance that connects all the nodes?
A) 450
B) 150
C) 350
D) 650
E) None of the above
A) 450
B) 150
C) 350
D) 650
E) None of the above
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44
Given the following distances between destination nodes, what is the minimum distance that connects all the nodes?
A) 100
B) 750
C) 850
D) 900
E) None of the above
A) 100
B) 750
C) 850
D) 900
E) None of the above
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45
Find the shortest route from Node 1 to Node 5 using the shortest-route technique.
A) 350
B) 400
C) 450
D) 600
E) None of the above
A) 350
B) 400
C) 450
D) 600
E) None of the above
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46
Given the following distances between destination nodes, what is the minimum distance that connects all the nodes?
A) 1000
B) 800
C) 700
D) 1100
E) None of the above
A) 1000
B) 800
C) 700
D) 1100
E) None of the above
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47
The shortest-route technique would best be used to
A) plan the routes for a vacation driving tour.
B) plan the route for a school bus.
C) determine the path for a truck making frequent runs from a factory to a warehouse.
D) All of the above
E) None of the above
A) plan the routes for a vacation driving tour.
B) plan the route for a school bus.
C) determine the path for a truck making frequent runs from a factory to a warehouse.
D) All of the above
E) None of the above
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48
Given the following distances between destination nodes, what is the minimum distance that connects all the nodes?
A) 900
B) 650
C) 400
D) 1200
E) None of the above
A) 900
B) 650
C) 400
D) 1200
E) None of the above
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49
In network models, the lines connecting the nodes are called ________.
A) bridges
B) arrows
C) spans
D) arcs
E) links
A) bridges
B) arrows
C) spans
D) arcs
E) links
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50
Find the shortest route from Node 1 to Node 6.
A) 300
B) 450
C) 550
D) 650
E) None of the above
A) 300
B) 450
C) 550
D) 650
E) None of the above
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51
Pipeline fluid flows are indicated below. Determine the maximum flow from Node 1 to Node 5.
A) 300
B) 400
C) 600
D) 500
E) None of the above
A) 300
B) 400
C) 600
D) 500
E) None of the above
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52
Given the following distances between destination nodes, what is the minimum distance that connects all the nodes?
A) 100
B) 150
C) 550
D) 1225
E) None of the above
A) 100
B) 150
C) 550
D) 1225
E) None of the above
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Unlock for access to all 86 flashcards in this deck.
Unlock Deck
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53
Given the following distances between destination nodes, what is the minimum distance that connects all the nodes?
A) 900
B) 1200
C) 1100
D) 700
E) None of the above
A) 900
B) 1200
C) 1100
D) 700
E) None of the above
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Unlock for access to all 86 flashcards in this deck.
Unlock Deck
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54
Find the shortest route from Node 1 to Node 4 using the shortest-route technique.
A) 650
B) 450
C) 550
D) 500
E) 800
A) 650
B) 450
C) 550
D) 500
E) 800
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Unlock for access to all 86 flashcards in this deck.
Unlock Deck
k this deck
55
Pipeline fluid flows are indicated below. Determine the maximum flow from Node 1 to Node 4.
A) 200
B) 300
C) 600
D) 700
E) None of the above
A) 200
B) 300
C) 600
D) 700
E) None of the above
Unlock Deck
Unlock for access to all 86 flashcards in this deck.
Unlock Deck
k this deck
56
When using the shortest-route technique, the second step is to
A) find the next-nearest node to the origin and put the distance in a box by the node.
B) trace the path from the warehouse to the plant.
C) determine the average distance traveled from source to end.
D) find the nearest node to the origin and put a distance box by the node.
E) None of the above
A) find the next-nearest node to the origin and put the distance in a box by the node.
B) trace the path from the warehouse to the plant.
C) determine the average distance traveled from source to end.
D) find the nearest node to the origin and put a distance box by the node.
E) None of the above
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Unlock for access to all 86 flashcards in this deck.
Unlock Deck
k this deck
57
Given the following distances between destination nodes, what is the minimum distance that connects all the nodes?
A) 290
B) 310
C) 620
D) 460
E) None of the above
A) 290
B) 310
C) 620
D) 460
E) None of the above
Unlock Deck
Unlock for access to all 86 flashcards in this deck.
Unlock Deck
k this deck
58
Given the following distances between destination nodes, what is the minimum distance that connects all the nodes?
A) 300
B) 525
C) 675
D) 1925
E) None of the above
A) 300
B) 525
C) 675
D) 1925
E) None of the above
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Unlock for access to all 86 flashcards in this deck.
Unlock Deck
k this deck
59
Find the shortest route from Node 1 to Node 4.
A) 750
B) 500
C) 550
D) 600
E) 50
A) 750
B) 500
C) 550
D) 600
E) 50
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Unlock for access to all 86 flashcards in this deck.
Unlock Deck
k this deck
60
Find the shortest route from Node 1 to Node 5.
A) 200
B) 350
C) 250
D) 450
E) None of the above
A) 200
B) 350
C) 250
D) 450
E) None of the above
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Unlock for access to all 86 flashcards in this deck.
Unlock Deck
k this deck
61
Find the shortest route from Node 1 to each of the other nodes in the transportation network represented below.
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Unlock Deck
k this deck
62
Given the following traffic flows, in hundreds of cars per hour, what is the maximum traffic flow from Town 1 to Town 7?
A) max flow = 4 units
B) max flow = 6 units
C) max flow = 3 units
D) max flow = 9 units
E) None of the above
A) max flow = 4 units
B) max flow = 6 units
C) max flow = 3 units
D) max flow = 9 units
E) None of the above
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Unlock for access to all 86 flashcards in this deck.
Unlock Deck
k this deck
63
Find the shortest route from Node 6 to Node 1.
A) branches 9, 7, and 2
B) branches 8, 6, and 2
C) branches 8, 6, 7, and 1
D) branches 9, 5, and 1
E) None of the above
A) branches 9, 7, and 2
B) branches 8, 6, and 2
C) branches 8, 6, 7, and 1
D) branches 9, 5, and 1
E) None of the above
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Unlock for access to all 86 flashcards in this deck.
Unlock Deck
k this deck
64
Solve the minimal-spanning tree problem defined below:
A) total cost = 13
B) total cost = 15
C) total cost = 17
D) total cost = 11
E) None of the above
A) total cost = 13
B) total cost = 15
C) total cost = 17
D) total cost = 11
E) None of the above
Unlock Deck
Unlock for access to all 86 flashcards in this deck.
Unlock Deck
k this deck
65
The west-to-east air traffic system passing through the United States can handle aircraft flows with capacities in hundreds of planes per hour as shown. What is the peak air traffic load (From City 1 to City 5) in aircraft per hour that this system can handle?
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Unlock for access to all 86 flashcards in this deck.
Unlock Deck
k this deck
66
Find the shortest route from Node 1 to Node 6.
A) total distance = 350
B) total distance = 410
C) total distance = 270
D) total distance = 520
E) None of the above
A) total distance = 350
B) total distance = 410
C) total distance = 270
D) total distance = 520
E) None of the above
Unlock Deck
Unlock for access to all 86 flashcards in this deck.
Unlock Deck
k this deck
67
As part of the planning for a major office development project, it is necessary to install telephone lines to the buildings. Information about the project is given below. The distances are provided in hundreds of feet. Which offices should be connected so that total wiring costs (i.e., total distance) are minimized? What is the total length of this?
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Unlock for access to all 86 flashcards in this deck.
Unlock Deck
k this deck
68
Brantley College has decided to "wire" its campus. The first stage in this effort is to install the "backbone," i.e., to connect all the buildings. The table below gives the distances between the various buildings on campus in hundreds of feet. How should the buildings be connected to minimize the total length of cable? What length of cable is required?
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Unlock for access to all 86 flashcards in this deck.
Unlock Deck
k this deck
69
Given the following nodes and distances, determine the minimal length of cable necessary to connect all nodes, using Node 2 as the starting point.
A) 1200
B) 1100
C) 900
D) 700
E) None of the above
A) 1200
B) 1100
C) 900
D) 700
E) None of the above
Unlock Deck
Unlock for access to all 86 flashcards in this deck.
Unlock Deck
k this deck
70
A logistics company is determining the shortest route to get to a selected final destination. The information on possible paths and distances is given below:
Unlock Deck
Unlock for access to all 86 flashcards in this deck.
Unlock Deck
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71
Given a network with the following distances: (a) Determine which nodes should be connected to get the minimum distance from Nodes 1 through 6.
(b) Determine the minimum distance.
(a) Determine which nodes should be connected to get the minimum distance from Nodes 1 through 6.(b) Determine the minimum distance.
Unlock Deck
Unlock for access to all 86 flashcards in this deck.
Unlock Deck
k this deck
72
Given the following traffic flows, in hundreds of cars per hour, what is the maximum traffic flow from City 1 to City 7?
A) 1200
B) 1400
C) 900
D) 800
E) None of the above
A) 1200
B) 1400
C) 900
D) 800
E) None of the above
Unlock Deck
Unlock for access to all 86 flashcards in this deck.
Unlock Deck
k this deck
73
A cable company must is to provide service for 7 houses in a particular neighborhood. They would like to wire the neighborhood in a way to minimize the wiring costs (or distance). How should the cable company wire the neighborhood and what would be the minimal length of the network?
Unlock Deck
Unlock for access to all 86 flashcards in this deck.
Unlock Deck
k this deck
74
Find the shortest route from Node 1 to each of the other nodes in the transportation network represented below.
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75
Given a network with the following distances: (a) Determine which nodes should be connected to get the minimum distance flowing from Node 1 through Node 7.
(b) Determine the minimum distance.
(a) Determine which nodes should be connected to get the minimum distance flowing from Node 1 through Node 7.(b) Determine the minimum distance.
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Unlock for access to all 86 flashcards in this deck.
Unlock Deck
k this deck
76
Find the least amount of cable that will allow Jack's Cable Company to connect the following nodes (houses).
A) 250
B) 400
C) 350
D) 300
E) None of the above
A) 250
B) 400
C) 350
D) 300
E) None of the above
Unlock Deck
Unlock for access to all 86 flashcards in this deck.
Unlock Deck
k this deck
77
Given the pipeline fluid flows indicated below, determine the maximum flow from Node 1 to Node 5.
A) 250
B) 300
C) 350
D) 450
E) None of the above
A) 250
B) 300
C) 350
D) 450
E) None of the above
Unlock Deck
Unlock for access to all 86 flashcards in this deck.
Unlock Deck
k this deck
78
As part of the planning for a major office development project, it is necessary to install telephone line to the buildings. Information about the project is given below. The distances are provided in hundreds of feet. Which offices should be connected so that total wiring costs (i.e., total distance) are minimized? What is the total length of this?
Unlock Deck
Unlock for access to all 86 flashcards in this deck.
Unlock Deck
k this deck
79
Find the shortest route from Node 1 to Node 6.
A) 300
B) 450
C) 550
D) 650
E) None of the above
A) 300
B) 450
C) 550
D) 650
E) None of the above
Unlock Deck
Unlock for access to all 86 flashcards in this deck.
Unlock Deck
k this deck
80
Given the following nodes and distances, determine the minimum length of cable necessary to connect all six nodes.
A) 200
B) 300
C) 400
D) 500
E) None of the above
A) 200
B) 300
C) 400
D) 500
E) None of the above
Unlock Deck
Unlock for access to all 86 flashcards in this deck.
Unlock Deck
k this deck
Unlock Deck
Unlock for access to all 86 flashcards in this deck.
