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.

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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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?
Transcribed Image Text: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?
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