The jet of water that spews out from the reservoir inti the open air hits the concrete block and is divided into two equal arms. Orifice cross section area at point 1 is A1= 150 cm^2. Neglecting friction losses, a) Find the flow rate (Q1) in section 1. b) Find the intensity of the reaction force (R) that will occur in the concrete block and its angle with the horizontal. (h=3.5 meters, pWater= 1 ton/m^3, yWater= 9.81kN/m^3, g= 9.81 m/s^2, angle a= 45 degree)
The jet of water that spews out from the reservoir inti the open air hits the concrete block and is divided into two equal arms. Orifice cross section area at point 1 is A1= 150 cm^2. Neglecting friction losses, a) Find the flow rate (Q1) in section 1. b) Find the intensity of the reaction force (R) that will occur in the concrete block and its angle with the horizontal. (h=3.5 meters, pWater= 1 ton/m^3, yWater= 9.81kN/m^3, g= 9.81 m/s^2, angle a= 45 degree)
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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The jet of water that spews out from the reservoir inti the open air hits the concrete block and is divided into two equal arms. Orifice cross section area at point 1 is A1= 150 cm^2. Neglecting friction losses,
a) Find the flow rate (Q1) in section 1.
b) Find the intensity of the reaction force (R) that will occur in the concrete block and its angle with the horizontal.
(h=3.5 meters, pWater= 1 ton/m^3, yWater= 9.81kN/m^3, g= 9.81 m/s^2, angle a= 45 degree)
Transcribed Image Text:y
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