Water flowing steadily at a rate of 0.17 m3/s is deflected downward by an angled elbow and exits to atmospheric pressure as shown in the given figure. For D = 30 cm, d = 10 cm, and h = 50 cm, determine the force acting on the flanges of the elbow and the angle its line of action makes with the horizontal. Take the internal volume of the elbow to be 0.03 m3 and disregard the weight of the elbow material and the frictional effects. Take the density of water to be 1000 kg/m3.

Elements Of Electromagnetics
7th Edition
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Water flowing steadily at a rate of 0.17 m3/s is deflected downward by an angled elbow and exits to atmospheric pressure as shown in the given figure. For D = 30 cm, d = 10 cm, and h = 50 cm, determine the force acting on the flanges of the elbow and the angle its line of action makes with the horizontal. Take the internal volume of the elbow to be 0.03 m3 and disregard the weight of the elbow material and the frictional effects. Take the density of water to be 1000 kg/m3.

Water flowing steadily at a rate of 0.17 m/s is deflected downward by an angled elbow and exits to atmospheric pressure as shown in
the given figure. For D= 30 cm, d= 10 cm, and h = 50 cm, determine the force acting on the flanges of the elbow and the angle its line
of action makes with the horizontal. Take the internal volume of the elbow to be 0.03 m3 and disregard the weight of the elbow
material and the frictional effects. Take the density of water to be 1000 kg/m3.
Flange
D
h
Bolts
60°
d
The force acting on the flanges of the elbow is
kN.
The angle (B) between the line of action of the force and the horizontal is
Transcribed Image Text:Water flowing steadily at a rate of 0.17 m/s is deflected downward by an angled elbow and exits to atmospheric pressure as shown in the given figure. For D= 30 cm, d= 10 cm, and h = 50 cm, determine the force acting on the flanges of the elbow and the angle its line of action makes with the horizontal. Take the internal volume of the elbow to be 0.03 m3 and disregard the weight of the elbow material and the frictional effects. Take the density of water to be 1000 kg/m3. Flange D h Bolts 60° d The force acting on the flanges of the elbow is kN. The angle (B) between the line of action of the force and the horizontal is
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