A reducing elbow is used to deflect and accelerate the flow of water from a horizontal pipe to 30 ° at a rate of 14 kg / s. The elbow discharges the water into the atmosphere. The cross-sectional area at the inlet is 113 cm2 and at the outlet 7 cm2. You can neglect the weight of the elbow and of the water. It is estimated that the head loss due to the HLT elbow is equivalent to 0.3 m col of water. Determine the force (Vector) in [N] that must be applied to the flange to hold the elbow in place. Brida = flange
A reducing elbow is used to deflect and accelerate the flow of water from a horizontal pipe to 30 ° at a rate of 14 kg / s. The elbow discharges the water into the atmosphere. The cross-sectional area at the inlet is 113 cm2 and at the outlet 7 cm2. You can neglect the weight of the elbow and of the water. It is estimated that the head loss due to the HLT elbow is equivalent to 0.3 m col of water. Determine the force (Vector) in [N] that must be applied to the flange to hold the elbow in place. Brida = flange
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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A reducing elbow is used to deflect and accelerate the flow of water from a horizontal pipe to 30 ° at a rate of 14 kg / s. The elbow discharges the water into the atmosphere. The cross-sectional area at the inlet is 113 cm2 and at the outlet 7 cm2. You can neglect the weight of the elbow and of the water. It is estimated that the head loss due to the HLT elbow is equivalent to 0.3 m col of water. Determine the force (
Brida = flange
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