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Q.2.8 MASS FLOW AT A PIPE JUNCTION Consider the s. tv low in a water pipc joint shown in the diagram. The areas are: A = 0.. fluid is lost out of a hole at estimated at a rate of 0.1 ms. The avcrage speeds at sections @ and e V =5 mis and V3=12 mis, respectively. Find the velocity at scction A =02 m, and A, =0.15 m. In addition, Given: Steady flow of water through the device. A, = 0.2 m A: = 02m A, 0,1Sm² V - 5m/s V, = 12m/sp= 999 kg/m Volume flow rate at =01 m's Find: Velocity at section -

Q.2.8 MASS FLOW AT A PIPE JUNCTION Consider the s. tv low in a water pipc joint shown in the diagram. The areas are: A = 0.. fluid is lost out of a hole at estimated at a rate of 0.1 ms. The avcrage speeds at sections @ and e V =5 mis and V3=12 mis, respectively. Find the velocity at scction A =02 m, and A, =0.15 m. In addition, Given: Steady flow of water through the device. A, = 0.2 m A: = 02m A, 0,1Sm² V - 5m/s V, = 12m/sp= 999 kg/m Volume flow rate at =01 m's Find: Velocity at section -

Structural Analysis
Structural Analysis
6th Edition
ISBN:9781337630931
Author:KASSIMALI, Aslam.
Publisher:KASSIMALI, Aslam.
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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Q.2.8 MASS FLOW AT A PIPE JUNCTION Consider the s. tv flow in a water pipe joint shown in the diagram. The areas are: A,= 0.. A =02 m, and A, =0.15 m. In addition, fluid is lost out of a hole at estimated at a rate of 0.1 ms. The avcrage speeds at sections @ and e V -5 mis and V,=12 mis. respectively. Find the velocity at scction Glven: Steady flow of water through the device. A, = 0.2 m A: - 02 m A, 0,1S m V - 5m/s V = 12m/s p= 999 kg/m Volume flow rate at =at m's Find: Velocity at section
Transcribed Image Text:Q.2.8 MASS FLOW AT A PIPE JUNCTION Consider the s. tv flow in a water pipe joint shown in the diagram. The areas are: A,= 0.. A =02 m, and A, =0.15 m. In addition, fluid is lost out of a hole at estimated at a rate of 0.1 ms. The avcrage speeds at sections @ and e V -5 mis and V,=12 mis. respectively. Find the velocity at scction Glven: Steady flow of water through the device. A, = 0.2 m A: - 02 m A, 0,1S m V - 5m/s V = 12m/s p= 999 kg/m Volume flow rate at =at m's Find: Velocity at section
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