Water flows through the 180 degree bend and Nozzle assembly as shown in the Figure below. Assume the assembly lies in the horizontal plane such that gravity is irrelevant (There is no height difference between Station 1 and Station 2) Calculate the FORCE exerted by the FLUID on the bend in the x-direction

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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Note: The following is part of a multi part question
where you are asked to calculate the velocity at station
2, Pressure at station 2, and force exerted by the fluid
on the bend in the x-direction. Please complete all the
above steps and select the correct answers as the
relevant questions arise in the quiz.
Water flows through the 180 degree bend and Nozzle
assembly as shown in the Figure below. Assume the
assembly lies in the horizontal plane such that
gravity is irrelevant (There is no height difference
between Station 1 and Station 2)
Calculate the FORCE exerted by the FLUID on the
bend in the x-direction
Hint: Use the momentum equation. Reaction and
Pressure forces are only important forces.
REMEMBER THERE IS NO HEIGHT DIFFERENCE
160 mm
V2
Section (2)
300 mm
V1
Section (1)
100 kPa
P1
= 2 m/s
V1
%3D
%3D
Select one:
Transcribed Image Text:Note: The following is part of a multi part question where you are asked to calculate the velocity at station 2, Pressure at station 2, and force exerted by the fluid on the bend in the x-direction. Please complete all the above steps and select the correct answers as the relevant questions arise in the quiz. Water flows through the 180 degree bend and Nozzle assembly as shown in the Figure below. Assume the assembly lies in the horizontal plane such that gravity is irrelevant (There is no height difference between Station 1 and Station 2) Calculate the FORCE exerted by the FLUID on the bend in the x-direction Hint: Use the momentum equation. Reaction and Pressure forces are only important forces. REMEMBER THERE IS NO HEIGHT DIFFERENCE 160 mm V2 Section (2) 300 mm V1 Section (1) 100 kPa P1 = 2 m/s V1 %3D %3D Select one:
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