Salt water (p = 1025 kg/m³) enters a stationary vertical pipe with a volumetric flow rate of 0.5 m³/s and is into the atmosphere from discharged the two 30° outlets as shown. The flow divides equally between the two outlets. Each of the discharge nozzles has a diameter of 10 cm. The inside diameter of the pipe at section A-A is The abo f the 25

Elements Of Electromagnetics
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Problem 10.2
Salt water (p = 1025 kg/m³) enters a
stationary vertical pipe with a
volumetric flow rate of 0.5 m³/s and is
discharged into the atmosphere from
the two 30° outlets as shown. The
flow divides equally between the two
outlets.
Each of the discharge nozzles has a
diameter of 10 cm. The inside
diameter of the pipe at section A-A is
25 cm. The absolute pressure of the
water at section A-A is 550 kPa. The
pipe above the flange and the water
within it has a mass of 60 kg.
300
↑
Salt water flows
into the pipe.
30⁰
Determine the total force exerted by the lower pipe on the section of pipe above the flange A-A.
Indicate both the magnitude of this force (in Newtons) and its direction. Assume atmospheric
pressure is 100 kPa.
Answer: 25 N <|F|< 50N
Transcribed Image Text:Problem 10.2 Salt water (p = 1025 kg/m³) enters a stationary vertical pipe with a volumetric flow rate of 0.5 m³/s and is discharged into the atmosphere from the two 30° outlets as shown. The flow divides equally between the two outlets. Each of the discharge nozzles has a diameter of 10 cm. The inside diameter of the pipe at section A-A is 25 cm. The absolute pressure of the water at section A-A is 550 kPa. The pipe above the flange and the water within it has a mass of 60 kg. 300 ↑ Salt water flows into the pipe. 30⁰ Determine the total force exerted by the lower pipe on the section of pipe above the flange A-A. Indicate both the magnitude of this force (in Newtons) and its direction. Assume atmospheric pressure is 100 kPa. Answer: 25 N <|F|< 50N
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