Water flows into a tank and out through another pipe, as shown in the figure below. The water in the tank has a surface area, Asurf 4.6 m². At the bottom of the tank there is a door inclined at an angle = 30 degrees with respect to the horizontal. The door has a length L=0.8 m and a width w=1 m (out of the page). = The flowrate into the tank is Qi (t) = 0.17 m³/s and the flowrate out is Qo(t) = = At time t = 0, the water has a depth ho = 2.1 m. The density of water is p = 1000 kg/m³. 0.05 m³/s
Water flows into a tank and out through another pipe, as shown in the figure below. The water in the tank has a surface area, Asurf 4.6 m². At the bottom of the tank there is a door inclined at an angle = 30 degrees with respect to the horizontal. The door has a length L=0.8 m and a width w=1 m (out of the page). = The flowrate into the tank is Qi (t) = 0.17 m³/s and the flowrate out is Qo(t) = = At time t = 0, the water has a depth ho = 2.1 m. The density of water is p = 1000 kg/m³. 0.05 m³/s
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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A) Find the pressure (in kilopascals) at time t=0
B)Find the vertical force (in Newtons) on the door at time t=0
c)Find the height (in metres) of the fluid at time t=100
d)Find the pressure (in Pascals) at the bottom at time t=100t=100 s
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VIEWStep 4: 3) The height (in meters) of the fluid at time t=100 s
VIEWStep 5: 4) The pressure (in Pascals) at the bottom at time t=100 s
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