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The speed of water passing through the elbow on a buried pipe is V = 8 ft/s. Assume water is ideal fluid, that is, incompressible and frictionless. (Figure 1) B 5 in. 8 ft/s Assuming that the pipe connections at A and B do not offer any force resistance on the elbow, determine the resultant horizontal force F that the support must exert on the elbow in order to hold it in equilibrium. The pressure within the pipe at A and Bis 11 psi

The speed of water passing through the elbow on a buried pipe is V = 8 ft/s. Assume water is ideal fluid, that is, incompressible and frictionless. (Figure 1) B 5 in. 8 ft/s Assuming that the pipe connections at A and B do not offer any force resistance on the elbow, determine the resultant horizontal force F that the support must exert on the elbow in order to hold it in equilibrium. The pressure within the pipe at A and Bis 11 psi

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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The speed of water passing through the elbow on a buried pipe is V = 8 ft/s. Assume water is ideal fluid, that is, incompressible and frictionless. (Figure 1) B 5 in. 8 ft/s 45 45° Assuming that the pipe connections at A and B do not offer any force resistance on the elbow, determine the resultant horizontal force F that the support must exert on the elbow in order to hold it in equilibrium. The pressure within the pipe at A and B is 11 psi
Transcribed Image Text:The speed of water passing through the elbow on a buried pipe is V = 8 ft/s. Assume water is ideal fluid, that is, incompressible and frictionless. (Figure 1) B 5 in. 8 ft/s 45 45° Assuming that the pipe connections at A and B do not offer any force resistance on the elbow, determine the resultant horizontal force F that the support must exert on the elbow in order to hold it in equilibrium. The pressure within the pipe at A and B is 11 psi
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