As seen in the figure above, the water is directed downward in the installation with a 25 ° angle narrowing elbow in a piping system with a volumetric flow of 0.025 m3 / s. Effective pressure at 1 point is measured as 2 bar. Where the flow is frictionless and gravitational effects are neglected (a) Calculate the effective (effective) pressure at point 2 (b) Calculate the x and y components of the force required to hold the elbow in place and the resultant force (water = 1000 kg / m3, g = 9.81 m / s2).
As seen in the figure above, the water is directed downward in the installation with a 25 ° angle narrowing elbow in a piping system with a volumetric flow of 0.025 m3 / s. Effective pressure at 1 point is measured as 2 bar. Where the flow is frictionless and gravitational effects are neglected (a) Calculate the effective (effective) pressure at point 2 (b) Calculate the x and y components of the force required to hold the elbow in place and the resultant force (water = 1000 kg / m3, g = 9.81 m / s2).
Mechanics of Materials (MindTap Course List)
9th Edition
ISBN:9781337093347
Author:Barry J. Goodno, James M. Gere
Publisher:Barry J. Goodno, James M. Gere
Chapter11: Columns
Section: Chapter Questions
Problem 11.5.7P: Solve the preceding problem for a column with e = 0.20 in,, L = 12 ft, I = 2L7in4, and E = 30 ×...
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As seen in the figure above, the water is directed downward in the installation with a 25 ° angle narrowing elbow in a piping system with a volumetric flow of 0.025 m3 / s. Effective pressure at 1 point is measured as 2 bar. Where the flow is frictionless and gravitational effects are neglected
(a) Calculate the effective (effective) pressure at point 2
(b) Calculate the x and y components of the force required to hold the elbow in place and the resultant force (water = 1000 kg / m3, g = 9.81 m / s2).
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