A homogeneous cylinder is submerged into two layers of liquid composed of water at the top layer and a heavier, non-polar liquid (SG=3.6) at the lower layer. It settled in equilibrium as shown in the figure. Diameter – 125mm Draft in H20 -710mm Draft in Non-Polar Liquid – 280mm a. Determine the density of the cylinder. b. How much vertical force is needed to push the cylinder down by twice the given draft in the non-polar

A homogeneous cylinder is submerged into two layers of liquid composed of water at the top layer and a heavier, non-polar liquid (SG=3.6) at the lower layer. It settled in equilibrium as shown in the figure. Diameter – 125mm Draft in H20 -710mm Draft in Non-Polar Liquid – 280mm a. Determine the density of the cylinder. b. How much vertical force is needed to push the cylinder down by twice the given draft in the non-polar

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A homogeneous cylinder is submerged into two layers of liquid composed of water at the top layer and
a heavier, non-polar liquid (SG=3.6) at the lower layer. It settled in equilibrium as shown in the figure.
Diameter – 125mm
Draft in H20 - 710mm
Draft in Non-Polar Liquid – 280mm
a. Determine the density of the cylinder.
b. How much vertical force is needed to push the cylinder down by twice the given draft in the non-polar
liquid? Use n = 3.14.

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