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

Automotive Technology: A Systems Approach (MindTap Course List)

6th Edition

ISBN:9781133612315

Author:Jack Erjavec, Rob Thompson

Publisher:Jack Erjavec, Rob Thompson

Chapter10: Engine Disassembly And Cleaning

Section: Chapter Questions

Problem 11RQ

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Concept explainers

Fluid Dynamics

The study of the flow of gases and liquids, usually in and around solid surfaces, is known as fluid dynamics in physics and engineering. Fluid dynamics, for example, can be used to evaluate the movement of air through an airplane wing or the surface of a vehicle. It can also be used in ship design to increase the speed at which ships pass through water.

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

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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