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/m³L = 0.442 mmass m of the cube = 7 kgNOTE: Your answer must be in units of newton (N) and in ZERO decimal place.

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Description: 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/m³L = 0.442 mmass m of the cube

GIVEN: Density, ρ = 1039 kg/m³ L = 0.442 m Mass, m = 7 kg Atmospheric pressure, Po = 1 atm =…

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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 atmosph (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 atmosph (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.

University Physics Volume 1

18th Edition

ISBN:9781938168277

Author:William Moebs, Samuel J. Ling, Jeff Sanny

Publisher:William Moebs, Samuel J. Ling, Jeff Sanny

Chapter14: Fluid Mechanics

Section: Chapter Questions

Problem 89P: A container of water has a cross-sectional area of A=0.1m2 . A piston sits top of the water (see be...

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