The 30o directional pressure pipe elbow in the vertical plane is 60 cm in diameter. from the elbow The flow rate of the current passing is 1 m3/s. At the lower end (1) of the elbow, the pressure is 70 kPa and the ground level is 30 m, the upper At the end of the section (2), the ground level is 31 m. The fluid is water (ρwater=1000 kg/m3), frictionless and incompressible. taking into account that a) Find the velocities in sections (1) and (2) and the pressure in section (2). b) The weight of the pipe at the elbow is 1400 N. In case the length between sections is 1.2 m In order to keep the elbow stable, taking into account the mass of water in the elbow, in the vertical direction Calculate the force that must be applied
The 30o directional pressure pipe elbow in the vertical plane is 60 cm in diameter. from the elbow The flow rate of the current passing is 1 m3/s. At the lower end (1) of the elbow, the pressure is 70 kPa and the ground level is 30 m, the upper At the end of the section (2), the ground level is 31 m. The fluid is water (ρwater=1000 kg/m3), frictionless and incompressible. taking into account that a) Find the velocities in sections (1) and (2) and the pressure in section (2). b) The weight of the pipe at the elbow is 1400 N. In case the length between sections is 1.2 m In order to keep the elbow stable, taking into account the mass of water in the elbow, in the vertical direction Calculate the force that must be applied
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 30o directional pressure pipe elbow in the vertical plane is 60 cm in diameter. from the elbow
The flow rate of the current passing is 1 m3/s. At the lower end (1) of the elbow, the pressure is 70 kPa and the ground level is 30 m, the upper
At the end of the section (2), the ground level is 31 m. The fluid is water (ρwater=1000 kg/m3), frictionless and incompressible.
taking into account that
a) Find the velocities in sections (1) and (2) and the pressure in section (2).
b) The weight of the pipe at the elbow is 1400 N. In case the length between sections is 1.2 m
In order to keep the elbow stable, taking into account the mass of water in the elbow, in the vertical direction
Calculate the force that must be applied.
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