PROBLEM 4 In the figure, suppose that 0 = 30°, V. = 100 ft/s and the stream is a jet of water with an initial diameter of 2 in. Assume friction losses such that V: = 95 ft/s. Assuming the flow is steady and occurs in a horizontal plane, determine (a) The flow rate (ft/s) (b) The diameter (in) of the jet at section 2. (c) The x-component Fax of the reaction of the curved vane on the water jet, and
PROBLEM 4 In the figure, suppose that 0 = 30°, V. = 100 ft/s and the stream is a jet of water with an initial diameter of 2 in. Assume friction losses such that V: = 95 ft/s. Assuming the flow is steady and occurs in a horizontal plane, determine (a) The flow rate (ft/s) (b) The diameter (in) of the jet at section 2. (c) The x-component Fax of the reaction of the curved vane on the water jet, and
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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Transcribed Image Text:PROBLEM 4
In the figure, suppose that e = 30°, V: = 100 ft/s and the stream is a jet of water with an initial diameter of 2 in.
Assume friction losses such that V; = 95 ft/s. Assuming the flow is steady and occurs in a horizontal plane,
determine
(a) The flow rate (ft/s)
(b) The diameter (in) of the jet at section 2.
(c) The x-component Fax of the reaction of the curved vane on the water jet, and
(d) The y-component Fey of the reaction of the curved vane on the water jet.
(e) The total reaction Fr.
Express all forces in pounds.
V:
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