- Q3) Water at 4°C enters a tank of diameter D₁ = 50 cm at a constant mass flow rate of min= 1kg/s. An orifice at the bottom with diameter Do 10 mm allows water to drain. The frictional losses can be negligible. If the tank is initially at h₁ =10 m, determine the final height that the water will reach in the tank and then derive the integration relation to calculate the time that is needed to reach this height. m D₁ Do hi
- Q3) Water at 4°C enters a tank of diameter D₁ = 50 cm at a constant mass flow rate of min= 1kg/s. An orifice at the bottom with diameter Do 10 mm allows water to drain. The frictional losses can be negligible. If the tank is initially at h₁ =10 m, determine the final height that the water will reach in the tank and then derive the integration relation to calculate the time that is needed to reach this height. m D₁ Do hi
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
Related questions
Question
![Q3) Water at 4°C enters a tank of diameter D₁ = 50 cm at
a constant mass flow rate of min= 1kg/s. An orifice at
the bottom with diameter Do = 10 mm allows water
to drain. The frictional losses can be negligible. If the
tank is initially at h; =10 m, determine the final
height that the water will reach in the tank and then
derive the integration relation to calculate the time
that is needed to reach this height.
DT
hi](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fad53af2a-e512-454f-8f75-121cc9927ab8%2F5e320002-d5ed-4362-90f1-162093be5d38%2Fe0vb2s9_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Q3) Water at 4°C enters a tank of diameter D₁ = 50 cm at
a constant mass flow rate of min= 1kg/s. An orifice at
the bottom with diameter Do = 10 mm allows water
to drain. The frictional losses can be negligible. If the
tank is initially at h; =10 m, determine the final
height that the water will reach in the tank and then
derive the integration relation to calculate the time
that is needed to reach this height.
DT
hi
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