Quiz - TMPC332 FLUID MACHINERIES Solve the problem as stated below. Make your solution clear and clear. Mind your own “Solution". Do not copy the solution of others. Problem: A 65 mm. fire hose dischargos water through a no2z/e having a jet diameter of 25 mm. The head lost in the nozzle is 4% of the velocity head in the jet. 4 the gage prescure at the bare of the nDzzle N 540 KPa , (6) the flow or dnNcharge in cms, 6) the velocity at 2 in m/ec, vetvelocity) m/sec 45mm. Ø nozzle stream af H20 Figure: datum -25mm. dia, of jet GNEN; d, = C5mm 0.065m. da 25 mm 0.025m. %3D 2, =0 29a A 0.04 VE 29 (c) Also determine the power develop by the jet in kW.
Quiz - TMPC332 FLUID MACHINERIES Solve the problem as stated below. Make your solution clear and clear. Mind your own “Solution". Do not copy the solution of others. Problem: A 65 mm. fire hose dischargos water through a no2z/e having a jet diameter of 25 mm. The head lost in the nozzle is 4% of the velocity head in the jet. 4 the gage prescure at the bare of the nDzzle N 540 KPa , (6) the flow or dnNcharge in cms, 6) the velocity at 2 in m/ec, vetvelocity) m/sec 45mm. Ø nozzle stream af H20 Figure: datum -25mm. dia, of jet GNEN; d, = C5mm 0.065m. da 25 mm 0.025m. %3D 2, =0 29a A 0.04 VE 29 (c) Also determine the power develop by the jet in kW.
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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Transcribed Image Text:Quiz - TMPC332 FLUID MACHINERIES
Solve the problem as stated below. Make your solution clear and clear. Mind your
own “Solution". Do not copy the solution of others.
Problem:
A 65 mm. fire hose dischargos water through a no2z/e
having a jet diameter of 25 mm. The head lost in the
nozzle is 4% of the velocity head in the jet. 4 the gage
prescure at the bare of the nDzzle N 540 KPa ,
(6) the flow or dnNcharge in cms,
6) the velocity at 2 in m/ec, vetvelocity)
m/sec
45mm. Ø
nozzle
stream af H20
Figure:
datum
-25mm. dia, of jet
GNEN; d, = C5mm 0.065m.
da 25 mm 0.025m.
%3D
2, =0
29a
A 0.04 VE
29
(c) Also determine the power develop by the jet in kW.
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