Q4: A pressurized tank is providing water for a fountain at a steady flow rate, shown in the following figure. The pipe has a constant diameter. If the tank is pressurized to 50 kPa. Determine: 1) The height h, to which the water rises (hint: apply the Bernoulli's equation between points 0 and 2, where velocity is both zero); 2) The water velocity in the pipe (hint: apply the Bernoulli's equation between points 0 and 3 after h is found); 3) The static pressure of water in the horizontal part of the pipe. 2 All Water 50 kN/ 0 Figure 4. Q4
Q4: A pressurized tank is providing water for a fountain at a steady flow rate, shown in the following figure. The pipe has a constant diameter. If the tank is pressurized to 50 kPa. Determine: 1) The height h, to which the water rises (hint: apply the Bernoulli's equation between points 0 and 2, where velocity is both zero); 2) The water velocity in the pipe (hint: apply the Bernoulli's equation between points 0 and 3 after h is found); 3) The static pressure of water in the horizontal part of the pipe. 2 All Water 50 kN/ 0 Figure 4. Q4
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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Transcribed Image Text:Q4: A pressurized tank is providing water for a fountain at a steady flow rate, shown in the following
figure. The pipe has a constant diameter. If the tank is pressurized to 50 kPa. Determine:
1) The height h, to which the water rises (hint: apply the Bernoulli's equation between points 0 and
2, where velocity is both zero);
2) The water velocity in the pipe (hint: apply the Bernoulli's equation between points 0 and 3 after
h is found);
3) The static pressure of water in the horizontal part of the pipe.
2
All
Water
50 kN/
0
Figure 4. Q4
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