Find the magnitude of the difference between the total downward force at the top of the cube, and the total upward force at the bottom of the cube. Assume atmospheric pressure (STP) to be 1 atm. Liquid density - 1039 kg/m³ L 0.442 m mass m of the cube 7 kg NOTE: Your answer must be in units of newton (N) and in ZERO decimal place.
Find the magnitude of the difference between the total downward force at the top of the cube, and the total upward force at the bottom of the cube. Assume atmospheric pressure (STP) to be 1 atm. Liquid density - 1039 kg/m³ L 0.442 m mass m of the cube 7 kg NOTE: Your answer must be in units of newton (N) and in ZERO decimal place.
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Transcribed Image Text:Find the magnitude of the difference between the total downward force at the top of the cube, and the total upward force at the bottom of the cube. Assume atmospheric pressure
(STP) to be 1 atm.
Liquid density = 1039 kg/m³
L = 0.442 m
mass m of the cube = 7 kg
NOTE: Your answer must be in units of newton (N) and in ZERO decimal place.
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