In Fig. P8.111, pipe AB is 1200 ft long, of 8 in diameter, with f = 0.035; pipe BC (upper) is 800 ft long, of 6 in diameter, with f = 0.025; pipe BC (lower) is 900 ft long, of 4 in diameter, with f = 0.045; and pipe CD is 500 ft long, of 6 in diameter, with f = 0.025. The elevations are reservoir water surface = 150 ft, A = 120 ft, B = 70 ft, C = 60 ft, and D = 30 ft. There is free discharge to the atmosphere at D. Neglecting velocity heads, (a) compute the flow in each pipe and (b) determine the pressures at B and C. Water Figure P8.111
In Fig. P8.111, pipe AB is 1200 ft long, of 8 in diameter, with f = 0.035; pipe BC (upper) is 800 ft long, of 6 in diameter, with f = 0.025; pipe BC (lower) is 900 ft long, of 4 in diameter, with f = 0.045; and pipe CD is 500 ft long, of 6 in diameter, with f = 0.025. The elevations are reservoir water surface = 150 ft, A = 120 ft, B = 70 ft, C = 60 ft, and D = 30 ft. There is free discharge to the atmosphere at D. Neglecting velocity heads, (a) compute the flow in each pipe and (b) determine the pressures at B and C. Water Figure P8.111
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:In Fig. P8.111, pipe AB is 1200 ft long, of 8 in diameter,
with f = 0.035; pipe BC (upper) is 800 ft long, of 6 in
diameter, with f = 0.025; pipe BC (lower) is 900 ft long,
of 4 in diameter, with f = 0.045; and pipe CD is 500 ft
long, of 6 in diameter, with f = 0.025. The elevations are
reservoir water surface
= 60 ft, and D = 30 ft. There is free discharge to the
atmosphere at D. Neglecting velocity heads, (a) compute the
flow in each pipe and (b) determine the pressures at B and
C.
Water
150 ft, A = 120 ft, B = 70 ft, C
Figure P8.111
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