Water from a reservoir flowing through a pipe with a diameter of 600 mm at 1.8m/s, is stopped by the closure of a valve situated 160 meters from the reservoir. The pipe has a thickness of 20 mm and modulus elasticity of 1.40 x 10^11 Pa. Assume that the pressure increases at a uniform rate there is no damping of the pressure wave. Which of the following most nearly gives water hammer pressure assuming instantaneous closure?(a)2.67MPa (b)2.20MPa (c)2.14MPa (d)2.29MPa
Water from a reservoir flowing through a pipe with a diameter of 600 mm at 1.8m/s, is stopped by the closure of a valve situated 160 meters from the reservoir. The pipe has a thickness of 20 mm and modulus elasticity of 1.40 x 10^11 Pa. Assume that the pressure increases at a uniform rate there is no damping of the pressure wave. Which of the following most nearly gives water hammer pressure assuming instantaneous closure?(a)2.67MPa (b)2.20MPa (c)2.14MPa (d)2.29MPa
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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Water from a reservoir flowing through a pipe with a diameter of 600 mm at 1.8m/s, is stopped by the closure of a valve situated 160 meters from the reservoir. The pipe has a thickness of 20 mm and modulus elasticity of 1.40 x 10^11 Pa. Assume that the pressure increases at a uniform rate there is no damping of the pressure wave. Which of the following most nearly gives water hammer pressure assuming instantaneous closure?(a)2.67MPa (b)2.20MPa (c)2.14MPa (d)2.29MPa
Include free body diagram.
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