Water flows from the tee attached to the pipe as shown in Fig. Q2. The water exits as a free jet at point 2. The gage pressure at point 1 equals 35 kPa. a) What is the inlet velocity at point 1? b) Solve for the gage pressure at point 3. c) If viscous effects and gravity are negligible, determine the x and y components of the force that the pipe exerts on the tee. V = 10 m/s Area = 0.3 m? Area = 1 m? 30+V = 10 m/s Area = 0.5 m? Pipe Tee

Elements Of Electromagnetics
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Water flows from the tee attached to the pipe as shown in Fig. Q2. The water exits as
a free jet at point 2. The gage pressure at point 1 equals 35 kPa.
a) What is the inlet velocity at point 1?
b) Solve for the gage pressure at point 3.
c) If viscous effects and gravity are negligible, determine the x and y components
of the force that the pipe exerts on the tee.
V = 10 m/s
Area = 0.3 m?
Area = 1 m?
30
V = 10 m/s
Area = 0.5 m?
Pipe
Tee
Fig. Q2
Transcribed Image Text:Water flows from the tee attached to the pipe as shown in Fig. Q2. The water exits as a free jet at point 2. The gage pressure at point 1 equals 35 kPa. a) What is the inlet velocity at point 1? b) Solve for the gage pressure at point 3. c) If viscous effects and gravity are negligible, determine the x and y components of the force that the pipe exerts on the tee. V = 10 m/s Area = 0.3 m? Area = 1 m? 30 V = 10 m/s Area = 0.5 m? Pipe Tee Fig. Q2
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