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The vertical orifice shown in the figure is 70 mm in diameter with Cv = 0.96 and the fluid is oil (s.g.= 0.80). If the pressure at pt. 1 is 107 kPa, and the actual discharge is 43.35x10-3 m³/sec, determine: a) the coefficient of contraction, and b) the coefficient of discharge.

The vertical orifice shown in the figure is 70 mm in diameter with Cv = 0.96 and the fluid is oil (s.g.= 0.80). If the pressure at pt. 1 is 107 kPa, and the actual discharge is 43.35x10-3 m³/sec, determine: a) the coefficient of contraction, and b) the coefficient of discharge.

Elements Of Electromagnetics
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
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Problem The vertical orifice shown in the figure is 70 mm in diameter with Cv = 0.96 and the fluid is oil (s.g.= 0.80). If the pressure at pt. 1 is 107 kPa, and the actual discharge is 43.35x10-3 m³/sec, determine: a) the coefficient of contraction, and b) the coefficient of discharge. Figure: P₁ O.S. I 2.5 m
Transcribed Image Text:Problem The vertical orifice shown in the figure is 70 mm in diameter with Cv = 0.96 and the fluid is oil (s.g.= 0.80). If the pressure at pt. 1 is 107 kPa, and the actual discharge is 43.35x10-3 m³/sec, determine: a) the coefficient of contraction, and b) the coefficient of discharge. Figure: P₁ O.S. I 2.5 m
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