Here we are finding maximum flow from node1 to node5
1 ) By Direct way i.e from direct node1 to node2
& 3) By not direct way i.e from node1 to node2,node2 to node4,
& node4 to node5
In both of them we wand maximum flow & that was 600 (not direct way)
& 100(direct way i.e from directly node1 to node5)
9.1) Given the pipeline fluid flows indicated below, determine the maximum flow from Node 1 to...
Pipeline fluid flows are indicated below. Determine the maximum flow from Node 1 to Node 5. From Node To Node Fluid Flow 1 2 300 2 1 0 1 3 0 3 1 150 1 4 200 4 1 200 1 5 100 5 1 100 2 4 200 4 2 200 3 4 250 4 3 300 3 5 300 5 3 250 4 5 100 5 4 0
40. Pneumatic Freight Pipeline (5 engineers) A freight pipeline involves the use of a fluid moving through a pipeline to transport a solid or a liquid substance over a certain distance; in other words, the moving fluid conveys "freight." The fluid itself in many cases is merely discharged at the destination Consider the freight pipeline sketched in Figure 11.8. At the inlet, air is moved into the pipeline by a blower. Just downstream is a hopper from which the substance...
40. Pneumatic Freight Pipeline (5 engineers) A freight pipeline involves the use of a fluid moving through a pipeline to transport a solid or a liquid suhstance over a certain distanoe in other words, the moving fluid conveys "freight. The Buid itself in mang cases is merely discharged at the destination Consider the freight pipeline sketched in Figure 11.8. At the inlet, air is moved into the pipeline by a blower. Just downstream is a hogFper from which the substance...
The network below shows a network of railway lines from city 1 to city 10. The numbers on the arcs represent the number of cars per hour that can pass along that segment of track 400 600 300 150 500 200 400 600 450 10 6 300 300 300 200 300 500 500. 400 350 Find the maximal flow in cars per hour that can pass through the network from node 1 to node 10. In each blank, enter the...
Given the following distances between destination nodes, what is the minimum distance that connects all the nodes? From Node To Node Distance 1 1 2 150 2 1 3 200 3 2 3 100 4 2 4 200 5 2 5 50 6 3 4 350 7 3 5 300 8 4 6 100 9 5 6 100 NOTE: You have to show your work. Do not use EXCEL QM Identify decision variables Formulate the LP problem by showing objective...
Q1. A fluid of specific gravity 0.90 flows at a Reynolds number of 1500 in a pipeline with diameter 0.3 m. The velocity at 100 mm from the wall is 3 m/s. Calculate the flowrate and the velocity gradient at the wall. Q2. Water flows through a pipe AB of diameter d = 50 mm, which is in series with a pipe BC of diameter d2 = 75 mm in which the mean velocity V2 = 2 m/sec. Q1 =...
How do you put this into excel
QM? which method do you select?
Given the following distances between destination nodes, what is the minimum distance that connects all the nodes? Distance From To 1 2 100 1 3 200 2 3 100 2 4 150 2 5 200 150 3 4 300 3 5 250 4 5 4 6 200 6 100 LC
Given the following distances between destination nodes, what is the minimum distance that connects all the nodes?...
Using EPANET2.0 Software, determine the flow rate in each pipe
for the simple network shown in the Figure. Assume the fully
turbulent flow exists for all pipes. The pipe lengths, diameters
and the Darcy-Weisbachand Hazen-William roughness factor f for each
pipe are given in the Table.
60U/s 40L/ Question-1 Using EPANET 2.0 Software, determine the flow rate in each pipe for the simple network shown in the Figure. Assume the fully turbulent flow exists for all pipes. The pipe lengths,...
1. Please show only structural hazards. mov [100], [150] mov [200], [250] add [150], [250], r3 sub r3, #5, r4 add r3, #2, r5 div r4, r5, r6 Instruction encoding: instruction op1, op2, result; [xxxx] – memory address; #x – constant; rx – register. 2. Please show only data hazards. mov [100], [150] mov [200], [300] add [100], [150], [300] add [300], #100, [322] add [300], #200, [333] sub [250], [333], [326] 4. Write program (in pseudo assembler code) for...
no
you dont. let someone else answer it.
1. Given the following horizontal curve and spiral data: Total tangent deflection angle (A) = 30° Rt. D= 5° Design Speed = 50 mph Two lane road in Southern Climate PI Station @ 64+20.00 Find and e from Table 13.8 or 13.9 (see handouts) Compute: = R P= Compute the stations of: T.S. = S.C. C.S. = S.T. = Compute the Long Tangent and the Short Tangent Table 13.9 SPIRAL CURVE LENGTHS...