Under the action of gravity, water of density ρ passes steadily through a circular funnel into a vertical pipe of diameter d, and then exits from the pipe, falling freely under gravity, as shown in Figure P8.33. Atmospheric pressure acts everywhere outside the funnel and pipe. The entrance to the pipe has a loss coefficient K1 = 0.5, the pipe has a friction factor f = 0.01, and the exit from the pipe has a loss coefficient K2 = 1.0. The kinetic energy coefficient α = 1. Find the outlet velocity in terms of g and d. You may assume that D ≫ d.
Under the action of gravity, water of density ρ passes steadily through a circular funnel into a vertical pipe of diameter d, and then exits from the pipe, falling freely under gravity, as shown in Figure P8.33. Atmospheric pressure acts everywhere outside the funnel and pipe. The entrance to the pipe has a loss coefficient K1 = 0.5, the pipe has a friction factor f = 0.01, and the exit from the pipe has a loss coefficient K2 = 1.0. The kinetic energy coefficient α = 1. Find the outlet velocity in terms of g and d. You may assume that D ≫ d.
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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Under the action of gravity, water of density ρ passes steadily through a circular funnel into a vertical pipe of diameter d, and then exits from the pipe, falling freely under gravity, as shown in Figure P8.33. Atmospheric pressure acts everywhere outside the funnel and pipe. The entrance to the pipe has a loss coefficient K1 = 0.5, the pipe has a friction factor f = 0.01, and the exit from the pipe has a loss coefficient K2 = 1.0. The kinetic energy coefficient α = 1. Find the outlet velocity in terms of g and d. You may assume that D ≫ d.
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