Consider the generalized transportation problem shown below. How can this problem be transformed into an equivalent transportation problem? Draw the network for the equivalent problem.
Since it is given that 10% loss is occurring on all nodes which are going towards node 4, so,
702 /0.9
= 780
In totality stream of 780 units must be come into hub 4. Subsequently, the interest of hub 4 can be effectively expanded to 780 and after this it tends to be viewed as that no misfortune will happen on curves which are associated with the hub 4. In the comparable way,
. 608/1.05 = 579.05
Along these lines, stream 579.05 units must be flown in to hub 5. Consequently, the interest of hub 5 can be effectively diminished to 579.05 and after this it tends to be viewed as that no addition will happen on bends which are associated with the hub 5. The new system outline can be appeared underneath,
Consider the generalized transportation problem shown below. How can this problem be transformed ...
(a) The Assignment Problem can be modeled as a Transportation Problem: yes no it depends Explanation: (b) The Transportation Problem can be modeled as a Generalized Network Flow Problem: yes no it depends Explanation: (c) The Generalized Network Flow Problem with multiple source and sink nodes can be converted to a Generalized Network Flow Problem with only one source and one sink node: yes no it depends Explanation: (d) Negative arc weights in the Shortest Path Problem can never occur...
Consider the following network representation of a transportation problem: The supplies, demands, and transportation costs per unit are shown on the network. The optimal (cost minimizing) distribution plan is given below. Des Moines Kansas City St.Louis Supply Jefferson City 20 0 10 30 Omaha 5 15 0 20 Demand 25 15 10 Total Cost: $540. Find an alternative optimal solution for the above problem. If your answer is zero, enter “0”. Des Moines Kansas City St.Louis Jefferson City ____ ______...
Discuss how a 'transportation and communication' revolution transformed the country in the first half of the 19th century America. What were the important inventions of the period and how did they affect commerce and economic activity in general?
(Transportation problem): Consider the transportation model in the table below. a) Use the northwest-corner method to find a starting solution. b) Develop the iterations that lead to the optimal solution. $1 19 $8 6 $6 19 5
Consider the following network representation of a transportation problem: Des Moines 25 30 Jefferson City Kansas City 115 20 Omaha St. Louis 10 Supplies Demands The supplies, demands, and transportation costs per unit are shown on the network. The optimal (cost minimizing) distribution plan is given below. Des Moines Kansas City St.Louis Supply Jefferson City 20 10 30 Omaha 5 15 Demand | 25 15 10 Total Cost: $540. Find an alternative optimal solution for the above problem. If your...
Consider the following network representation of a transportation problem: Des Moines25 Jefferson City 30 15 City 20 Omaha St. Louis 10 Supplies Demands The supplies, demands, and transportation costs per unit are shown on the network. The optimal (cost minimizing) distribution plan is given below City Jefferson City Des Moines 20 280 Jefferson City - St. Louis Omaha Des Moines Omaha Kansas City Total Cost: $540 Find an alternative optimal solution for the above problem City Jefferson City - Des...
eBook Consider the following network representation of a transportation problem: Des Moines 25 14 30 Jefferson City 16 > Kansas City 15 10 20 Omaha $ St Louis 10 Supplies Demands The supplies, demands, and transportation costs per unit are shown on the network. The optimal (cost minimizing) distribution plan is given below. Des Moines Kansas City St.Louis Supply 20 0 10 30 Jefferson City Omaha Demand 5 15 0 20 25 15 10 Total Cost: $540 Find an alternative...
Question 4 The input instantaneous power expression of the generalized steady-state RLC network is shown below p(t) = (t)i.(t) = 26cos 20 +26cos(7544 +100) W Where .(t) - V.cos(wt +.) 1. (t) = I.cos(wt +8.) i ( 04 Generalized RLC Network p(t) What is the period in milliseconds of the input current signal? OT=7.54 OP - 8.9 OT-16.7 OT= 33.4 None of the above
show how toulene can be transformed from product A ts) Show how toluene can be transformed to product A. Dr. Ber? ore HOZS А
Compound A can be transformed into Compound using the main below and Compound the bee Compound as shown in the structure of each compound Compound A 1. Hg(OAC), H20 CH, 2. NaBH Compound B conc. H heat CHO (optically inactive) Compound сна Won to Compounds and time and women and Account for them to draw of each de anders te han Compound Compound HNMR (chemical shit Integration spiring potem 11 de 45 metra 13 Compound A can be transformed into...