A nozzle is attached to a pipe at Point 1 as shown in the figure. Water (= 1000 kg/m³) entersthe nozzle at Point 1 and exits (to atmospheric pressure) at Point 2. The nozzle and its contentshave a mass of 50 kg (acting at the center of mass, G) and 0 = 25°. Atmospheric pressure is 100kPa.At Point 1, where the water enters the nozzle:P₁ = 145 kPaV₁ = 3 m/sAt Point 2, where the water leaves the nozzle:P₂ = 100 kPaA1 = 600 cm²V₂ = 8 m/s A₂ = 225 cm²P =atm1100 kPa0Use conservation principles to determine the horizontal and vertical reaction forces required atPoint 1 to keep the nozzle and pipe stationary. Show all your work, including system diagramsand governing equations.2

Answered: Image /qna-images/answer/81a10656-6c5b-49d3-b6dc-f66864778176.jpg

Answered: A nozzle is attached to a pipe at Point…

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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Water is transported from reservoir A to reservoir B by a pump. The diameter of pipe D1 is greater that the diameter of pipe D2 (D1>D2). The reservoir B is elevated from the ground at Z units. Draw the hydraulic gradient line and energy gradient line for the system. D2 A D1 Pump
Water enters a 5-L tank at a rate of 4.00 kg/s and is withdrawn from the tank at a rate of 6.00 kg/s. The tank is initially four-fifths full. (a) Write a mass balance for this process by assigning a variable function to the mass of water at time t. Describe the terms that are present in the balance; give reasons for deletion of any terms. (b) Solve the balance to find how long it will take the tank to drain completely.
A frictionless piston/cylinder assembly A shown in the figure is connected by a thin pipeline with a valve to a rigid tank B. The volume of tank B is 1.0 m³, and the cross-sectional area of the piston is Aa = 1.2 m?. Initially (state 1) the valve is closed, 3 kg of argon is enclosed in the piston/cylinder assembly, mĄ1 = 3 kg, and there is no argon in the tank, mg,1=0. The initial temperature of the argon is TĄ1 = 50°C and the initial volume of the gas enclosed by the piston cylinder is VA1 = 1.5 m?. The valve is slowly opened allowing argon to flow into the tank. The valve is then closed when the piston just touches the stops but does not exert a force on the stops (state 2). At state 2, the temperature and pressure throughout the tank and piston/cylinder system are equal (Pa2 = P8,2 and Ta2= T82). The height from the bottom of the cylinder A to the top of the stops is htops = 0.5 m. The volume of the stops can be assumed negligible. Treat argon as an ideal gas. a) Determine the…

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