A horizontal nozzle discharges water into the atmosphere as shown in the figure, being the relative pressure at point 1 equal to p1 = 20 kPa A Pitot tube connected to a mercury manometer is inserted into the flow in area section A1 indicating a height difference h = 0.02 m. For this reading indicated in the Pitot tube, determine the speed in the Area A1 section of the nozzle. For docking block sizing it is necessary to determine the force that the nozzle applies to the fluid. Calculate the component of this force in the x direction. Data: D1 = 0,075 m; D2 = 0,055 m; θ = 30° ; dHg = 13,6.
A horizontal nozzle discharges water into the atmosphere as shown in the figure, being the relative pressure at point 1 equal to p1 = 20 kPa A Pitot tube connected to a mercury manometer is inserted into the flow in area section A1 indicating a height difference h = 0.02 m. For this reading indicated in the Pitot tube, determine the speed in the Area A1 section of the nozzle. For docking block sizing it is necessary to determine the force that the nozzle applies to the fluid. Calculate the component of this force in the x direction. Data: D1 = 0,075 m; D2 = 0,055 m; θ = 30° ; dHg = 13,6.
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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A horizontal nozzle discharges water into the atmosphere as shown in the figure, being the relative pressure at point 1 equal to p1 = 20 kPa
- A Pitot tube connected to a mercury manometer is inserted into the flow in area section A1 indicating a height difference h = 0.02 m. For this reading indicated in the Pitot tube, determine the speed in the Area A1 section of the nozzle.
- For docking block sizing it is necessary to determine the force that the nozzle applies to the fluid. Calculate the component of this force in the x direction.
Data: D1 = 0,075 m; D2 = 0,055 m; θ = 30° ; dHg = 13,6.
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