In the following figure the long tube is filled with water at 20°C. When valve A is closed,P₁-P₂ = 75kPa. When valve A is open and water flows at 500 m³/h, P₁ – P₂ = 160kPaWhat is the loss in lift due to friction between 1 and 2, for the condition in which the waterflows? (p = 998 kg ,g = 9,812)m 731)BombaR.SA(2)

Givenwhen valve is closed P1-P2=75 kPawhen valve is openQ=500 m3/h=500 3600m3/s=0.1388…

In the following figure the long tube is filled with water at 20°C. When valve A is closed, P₁ – P₂ = 75kPa. When valve A is open and water flows at 500 m³/h, P₁ P₂ = 160kP What is the loss in lift due to friction between 1 and 2, for the condition in which the wat flows? (p = 998 kg , g = 9,811)

In the following figure the long tube is filled with water at 20°C. When valve A is closed, P₁ – P₂ = 75kPa. When valve A is open and water flows at 500 m³/h, P₁ P₂ = 160kP What is the loss in lift due to friction between 1 and 2, for the condition in which the wat flows? (p = 998 kg , g = 9,811)

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

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Question

In the following figure the long tube is filled with water at 20°C. When valve A is closed,
P₁-P₂ = 75kPa. When valve A is open and water flows at 500 m³/h, P₁ – P₂ = 160kPa
What is the loss in lift due to friction between 1 and 2, for the condition in which the water
flows? (p = 998 kg ,g = 9,812)
m 73
1)
Bomba
R.SA
(2)

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