A cube with edge length L = 0.15 m and density ρc = 0.86×103 kg/m3 floats in equilibrium in a liquid of density ρl = 1.9×103 kg/m3, with the top of the cube a distance d above the liquid’s surface, as shown in the figure. Part A: Enter an expression for the distance d, in terms of the defined quantities. Part B: If the density of the cube is equal to the density of the liquid, how high, in meters, will the top of the cube be above the surface of the liquid? Part C: The given values of edge length and densities are L = 0.15 m, ρc = 0.86×103 kg/m3, and ρl = 1.9×103 kg/m3. With these values, how high, in meters, is the top of the cube above the liquid’s surface
A cube with edge length L = 0.15 m and density ρc = 0.86×103 kg/m3 floats in equilibrium in a liquid of density ρl = 1.9×103 kg/m3, with the top of the cube a distance d above the liquid’s surface, as shown in the figure. Part A: Enter an expression for the distance d, in terms of the defined quantities. Part B: If the density of the cube is equal to the density of the liquid, how high, in meters, will the top of the cube be above the surface of the liquid? Part C: The given values of edge length and densities are L = 0.15 m, ρc = 0.86×103 kg/m3, and ρl = 1.9×103 kg/m3. With these values, how high, in meters, is the top of the cube above the liquid’s surface
College Physics
1st Edition
ISBN:9781938168000
Author:Paul Peter Urone, Roger Hinrichs
Publisher:Paul Peter Urone, Roger Hinrichs
Chapter12: Fluid Dynamics And Its Biological And Medical Applications
Section: Chapter Questions
Problem 34PE: Fluid originally flows through a tube at a rate of 100 cm3/s. To illustrate the sensitivity of flow...
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A cube with edge length L = 0.15 m and density ρc = 0.86×103 kg/m3 floats in equilibrium in a liquid of density ρl = 1.9×103 kg/m3, with the top of the cube a distance d above the liquid’s surface, as shown in the figure.
Part A: Enter an expression for the distance d, in terms of the defined quantities.
Part B: If the density of the cube is equal to the density of the liquid, how high, in meters, will the top of the cube be above the surface of the liquid?
Part C: The given values of edge length and densities are L = 0.15 m, ρc = 0.86×103 kg/m3, and ρl = 1.9×103 kg/m3. With these values, how high, in meters, is the top of the cube above the liquid’s surface.
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