Problem 7 For water flow through the control volume shown in Figure 10. Use the Reynolds transport theorem with parameter b equal to the velocity to determine the momentum flow rates across the vertical surfaces A-D and B-C. 1 fu's 2 ft 6 fUs 1 ft 5 ft 2 fus 1 ft/s 2 ft Control surface Figure 10: Water flow in a control volume [Ans : 38.8 lb, 77.6 lb)

Elements Of Electromagnetics
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Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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Problem 7
For water flow through the control volume shown in Figure 10. Use the Reynolds transport theorem
with parameter b equal to the velocity to determine the momentum flow rates across the vertical surfaces
A-D and B-C.
A
1 ft/s
2 ft
6 ft/s
1 ft
5 ft
2 ft/s
1 ft/s
2 ft
Control surface
Figure 10: Water flow in a control volume
[Ans : 38.8 lb, 77.6 lb)
Transcribed Image Text:Problem 7 For water flow through the control volume shown in Figure 10. Use the Reynolds transport theorem with parameter b equal to the velocity to determine the momentum flow rates across the vertical surfaces A-D and B-C. A 1 ft/s 2 ft 6 ft/s 1 ft 5 ft 2 ft/s 1 ft/s 2 ft Control surface Figure 10: Water flow in a control volume [Ans : 38.8 lb, 77.6 lb)
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