Water at 10 °C (v = 1.307 × 10-6 m²/s, ) is to flow from reservoir A to reservoir B through a cast-iron pipe (8 = 0.26 mm) of length 20 m at a rate of Q = 0.0020 m/s as shown in Fig. . The system contains a sharp-edged entrance and six regular threaded 90° elbows. Determine the pipe diameter needed. Elevation z1 = 2 m Total length = ( = 20 m (1)V Elevation z2 = 0 m V(2) B
Water at 10 °C (v = 1.307 × 10-6 m²/s, ) is to flow from reservoir A to reservoir B through a cast-iron pipe (8 = 0.26 mm) of length 20 m at a rate of Q = 0.0020 m/s as shown in Fig. . The system contains a sharp-edged entrance and six regular threaded 90° elbows. Determine the pipe diameter needed. Elevation z1 = 2 m Total length = ( = 20 m (1)V Elevation z2 = 0 m V(2) B
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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7 Water t 10°C (v = 1307 X 10 mi/s. )is 0 flow from reservoir A 0 reservoir B through a cast-iron pipe (¢ = 0.26 mm) of length 20 m at a rate of Q = 0.0020 m*/s as shown in Fig. . The system contains a sharp-edged entrance and six regular threaded 90° elbows. Determine the pipe diameter needed. Elevation 2, =2 m Total length = € =20 m Elevation z, = 0 m
Transcribed Image Text:11 Water at 10 °C (v = 1.307 x 10-6 m²/s, ) is to flow from reservoir A to reservoir
B through a cast-iron pipe (ɛ = 0.26 mm) of length 20 m at a rate of Q = 0.0020 m/s
as shown in Fig. . The system contains a sharp-edged entrance and six regular threaded
90° elbows. Determine the pipe diameter needed.
Elevation z1 = 2 m
Total length = { = 20 m
(1)
Elevation z2 = 0 m
A
D/2)
В
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