(a) Use the principle in Problem 8 to calculate the pressure at a depth of $1000 mathrm{ft}$...
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(a) Use the principle in Problem 8 to calculate the pressure at a depth of $1000 \mathrm{ft}$ below the surface of the ocean (in psi, $\mathrm{Pa}$, and atm). Assume that the ocean water density is $64 \mathrm{lb}_{\mathrm{m}} / \mathrm{ft}^{3}$.
(b) If this ocean were on the moon, what would be the answer to (a)? Use the following information to solve this problem: The diameter of the moon is 2160 miles, the diameter of the earth is 8000 miles, and the density of the earth is 1.6 times that of the moon.
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Related Book For
Chemical Engineering Fluid Mechanics
ISBN: 9781498724432
3rd Edition
Authors: Ron Darby, Raj P Chhabra
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