Question 1: The diagram shows water leaving a tank through an inverted V-tube. (All answers to be given in SI units.) y (1) q-in diameter x=7 ft, y=9 ft, diameter = d z=16 ft, q=2.9 in a) Determine the velocity at which water leaves the tank. b) Determine the mass flow-rate at which water leaves the tank. c) Determine the pressure at point B (report your answer in Pa). d) Given that the diameter at the constriction is 2.4 in, determine the pressure at point A. e) Given that the water is at 50 °C, and that the vapor pressure of water is 12.3 kPa at that temperature, state whether cavitation is likely to occur at A?

a) Determine the velocity at which water leaves the tank.
b) Determine the mass flow-rate at which water leaves the tank.
c) Determine the pressure at point B (report your answer in Pa).
d) Given that the diameter at the constriction is 2.4 in, determine the pressure at point A.
e) Given that the water is at 50 oC, and that the vapor pressure of water is 12.3 kPa at that
temperature, state whether cavitation is likely to occur at A?

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Question 1: The diagram shows water leaving a tank through an inverted V-tube. (All answers to be given in SI units.) y (1t) q-in diameter x=7 ft, y=9 ft, diameter = d z=16 ft, q=2.9 in a) Determine the velocity at which water leaves the tank. b) Determine the mass flow-rate at which water leaves the tank. c) Determine the pressure at point B (report your answer in Pa). d) Given that the diameter at the constriction is 2.4 in, determine the pressure at point A. e) Given that the water is at 50 °C, and that the vapor pressure of water is 12.3 kPa at that temperature, state whether cavitation is likely to occur at A?