C.2. Consider the following transportation table: Destination Source A B C D E Supply 1 $12 $8 $5 $10 $4 18 2 $6 $11 $3 $7 $9 14 Demand 6 8 12 4 2 Find the optimal solution of amounts from sources to destinations. Compute the total cost.
C.2. Consider the following transportation table: Destination Source A B C D E Supply 1 $12 $8 $5 $10 $4 18 2 $6 $11 $3 $7 $9 14 Demand 6 8 12 4 2 Find the optimal solution of amounts from sources to destinations. Compute the total cost.
Advanced Engineering Mathematics
10th Edition
ISBN:9780470458365
Author:Erwin Kreyszig
Publisher:Erwin Kreyszig
Chapter2: Second-order Linear Odes
Section: Chapter Questions
Problem 1RQ
Related questions
Question
Answer C.2
![C.1. Supply Chain Manager Gabriela Valdez wishes the find the lowest cost shipping routes to ship from
three source cities to three destination cities. Unit costs for each shipping route are in dollars.
To
From
Mexico City
Detroit
Los Angeles
$6
Calgary
$18
Panama City
Supply
$8
100
$17
$13
$19
60
Ottawa
$20
$10
$24
40
Demand
50
80
70
Find the optimal solution to the transportation problem. Compute the total cost.
C.2. Consider the following transportation table:
Destination
Source
A
B
C
D
E
Supply
1
$12
$8
$5
$10
$4
18
2
$6
$11
$3
$7
$9
14
Demand
6
8
12
4
2
Find the optimal solution of amounts from sources to destinations. Compute the total cost.
C.8. The Donna Mosier Clothing Group owns factories in three towns (W, Y, Z) which distributes to three
retail other cities (A, B, C). The following table summarizes factory availabilities, project store demand,
and unit shipping costs:
From To
Dress Shop A
Dress Shop B
Dress Shop C
Factory
Availability
Factory W
$4
$3
$3
35
Factory Y
$6
$7
$6
50
Factory Z
$8
$2
$5
50
Store demand
30
65
40
135
Determine the optimal solution for shipping at the Mosier Clothing Group.
C.15. For the following Gregory Bier Corp. data, find the optimal solution of amounts from sources to
destinations and the total costs.
From To
W
X
Y
Z
Supply
A
$132
$116
$250
$110
220
B
$220
$230
$180
$178
300
C
$152
$173
$196
$164
435
Demand
160
120
200
230](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F95e704fe-78e6-442e-9331-9047694f7516%2Faca73294-b0ed-4baf-81cf-a1a9344335ac%2F8ayma1i_processed.jpeg&w=3840&q=75)
Transcribed Image Text:C.1. Supply Chain Manager Gabriela Valdez wishes the find the lowest cost shipping routes to ship from
three source cities to three destination cities. Unit costs for each shipping route are in dollars.
To
From
Mexico City
Detroit
Los Angeles
$6
Calgary
$18
Panama City
Supply
$8
100
$17
$13
$19
60
Ottawa
$20
$10
$24
40
Demand
50
80
70
Find the optimal solution to the transportation problem. Compute the total cost.
C.2. Consider the following transportation table:
Destination
Source
A
B
C
D
E
Supply
1
$12
$8
$5
$10
$4
18
2
$6
$11
$3
$7
$9
14
Demand
6
8
12
4
2
Find the optimal solution of amounts from sources to destinations. Compute the total cost.
C.8. The Donna Mosier Clothing Group owns factories in three towns (W, Y, Z) which distributes to three
retail other cities (A, B, C). The following table summarizes factory availabilities, project store demand,
and unit shipping costs:
From To
Dress Shop A
Dress Shop B
Dress Shop C
Factory
Availability
Factory W
$4
$3
$3
35
Factory Y
$6
$7
$6
50
Factory Z
$8
$2
$5
50
Store demand
30
65
40
135
Determine the optimal solution for shipping at the Mosier Clothing Group.
C.15. For the following Gregory Bier Corp. data, find the optimal solution of amounts from sources to
destinations and the total costs.
From To
W
X
Y
Z
Supply
A
$132
$116
$250
$110
220
B
$220
$230
$180
$178
300
C
$152
$173
$196
$164
435
Demand
160
120
200
230
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