storage tank through a pipe with cross sectional area 0.05ft2². The velocity in the suction line is 3 ft/s (0.914 m/s). The pump discharges through a pipe with cross sectional area 0.02 ft² to an overhead tank. The end of the discharge pipe is 50 ft (15.2 m) above the level of the solution in the feed tank. Friction losses in the entire piping system are 10 ft. lbf/ lb (29.9 J/Kg). What is the work done by the pump per unit mass of water? (25%) T A = 0.02 50 ft A = 0.05ft² Pump 2 ft² a b

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
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2. In the system shown in figure below, a pump draws a solution of water from a
storage tank through a pipe with cross sectional area 0.05ft². The velocity in the
suction line is 3 ft/s (0.914 m/s). The pump discharges through a pipe with cross
sectional area 0.02 ft² to an overhead tank. The end of the discharge pipe is 50 ft
(15.2 m) above the level of the solution in the feed tank. Friction losses in the
entire piping system are 10 ft. lbf / lb (29.9 J/Kg). What is the work done by the
pump per unit mass of water? (25%)
A = 0.02
50 ft
A = 0.05ft²
Pump
2
ft²
a
b
Transcribed Image Text:2. In the system shown in figure below, a pump draws a solution of water from a storage tank through a pipe with cross sectional area 0.05ft². The velocity in the suction line is 3 ft/s (0.914 m/s). The pump discharges through a pipe with cross sectional area 0.02 ft² to an overhead tank. The end of the discharge pipe is 50 ft (15.2 m) above the level of the solution in the feed tank. Friction losses in the entire piping system are 10 ft. lbf / lb (29.9 J/Kg). What is the work done by the pump per unit mass of water? (25%) A = 0.02 50 ft A = 0.05ft² Pump 2 ft² a b
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