For the pipe system shown. Assume n = 0.013 for all pipes. Neglect minor losses. 1. Compute the head loss from A to B in terms of Q. a. 0.056Q2 b. 0.029Q2 c. 0.016Q2 d. 0.096Q2 2. Assuming Q = 12 cfs, compute the head loss of pipe CD. a. 15.78 ft b. 13.02 ft c. 18.56 ft d. 24.56 ft 3. Assuming Q = 12 cfs, compute the total head loss from A to D. a. 47.786 ft b. 56.673 ft c. 89.451 ft d. 32.562 ft
For the pipe system shown. Assume n = 0.013 for all pipes. Neglect minor losses. 1. Compute the head loss from A to B in terms of Q. a. 0.056Q2 b. 0.029Q2 c. 0.016Q2 d. 0.096Q2 2. Assuming Q = 12 cfs, compute the head loss of pipe CD. a. 15.78 ft b. 13.02 ft c. 18.56 ft d. 24.56 ft 3. Assuming Q = 12 cfs, compute the total head loss from A to D. a. 47.786 ft b. 56.673 ft c. 89.451 ft d. 32.562 ft
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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Question
For the pipe system shown. Assume n = 0.013 for all pipes. Neglect minor losses.
1. Compute the head loss from A to B in terms of Q.
a. 0.056Q2
b. 0.029Q2
c. 0.016Q2
d. 0.096Q2
2. Assuming Q = 12 cfs, compute the head loss of pipe CD.
a. 15.78 ft
b. 13.02 ft
c. 18.56 ft
d. 24.56 ft
3. Assuming Q = 12 cfs, compute the total head loss from A to D.
a. 47.786 ft
b. 56.673 ft
c. 89.451 ft
d. 32.562 ft
Transcribed Image Text:18 - in o
C 18 - in o
24 - in o B.
A
1500 ft
4000 ft
12-in o
1000 ft
5000 ft
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