A closed tank whose bottom is 45 cm in diameter is filled with three liquids: 30 cm of carbon tetrachloride (SG=1.59), 10 cm of water and 5 cm of syrup (SG=1.31). The air chamber in the tank is pressurized at 62 kPa. Illustrate the problem before solving. A.) Determine the pressure at the interface of carbon tetrachloride and syrup. B.) Determine the difference in pressure between the interface of water and syrup and the interface of carbon tetrachloride and syrup. C.) Compute the hydrostatic pressure (in kPa) acting at the bottom of the tank. D.) Apply the PANEL EQUATIONS to determine the magnitude, direction and location of the total hydrostatic force acting at the bottom of the tank. (PLEASE ANSWER ASAP THANK YOU AND GODBLESS)
A closed tank whose bottom is 45 cm in diameter is filled with three liquids: 30 cm of carbon tetrachloride (SG=1.59), 10 cm of water and 5 cm of syrup (SG=1.31). The air chamber in the tank is pressurized at 62 kPa. Illustrate the problem before solving.
A.) Determine the pressure at the interface of carbon tetrachloride and syrup.
B.) Determine the difference in pressure between the interface of water and syrup and the interface of carbon tetrachloride and syrup.
C.) Compute the hydrostatic pressure (in kPa) acting at the bottom of the tank.
D.) Apply the PANEL EQUATIONS to determine the magnitude, direction and location of the total hydrostatic force acting at the bottom of the tank.
(PLEASE ANSWER ASAP THANK YOU AND GODBLESS)
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