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For the system below assume frictionless one dimensional flow. A circular nozzle with prescribed diameters flows water that exits into the air as a jet and strikes a plate. Given that the outlet velocity is 15 m/s; D₁ = 10 cm Water at 20°C h? D₂ = 3 cm Air Hg F ) Determine the force applied on the plate and the velocity in section 1 (D1) of the nozzle. Determine the height h of the mercury manometer.

For the system below assume frictionless one dimensional flow. A circular nozzle with prescribed diameters flows water that exits into the air as a jet and strikes a plate. Given that the outlet velocity is 15 m/s; D₁ = 10 cm Water at 20°C h? D₂ = 3 cm Air Hg F ) Determine the force applied on the plate and the velocity in section 1 (D1) of the nozzle. Determine the height h of the mercury manometer.

Structural Analysis
Structural Analysis
6th Edition
ISBN:9781337630931
Author:KASSIMALI, Aslam.
Publisher:KASSIMALI, Aslam.
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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For the system below assume frictionless one dimensional flow. A circular nozzle with prescribed diameters flows water that exits into the air as a jet and strikes a plate. Given that the outlet velocity is 15 m/s; D₁ = 10 cm Water at 20°C h? D₂ = 3 cm Air Hg ) Determine the force applied on the plate and the velocity in section 1 (D1) of the nozzle. Determine the height h of the mercury manometer.
Transcribed Image Text:For the system below assume frictionless one dimensional flow. A circular nozzle with prescribed diameters flows water that exits into the air as a jet and strikes a plate. Given that the outlet velocity is 15 m/s; D₁ = 10 cm Water at 20°C h? D₂ = 3 cm Air Hg ) Determine the force applied on the plate and the velocity in section 1 (D1) of the nozzle. Determine the height h of the mercury manometer.
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