right circular cone is 50mm in radius and 170mm high and weighs 2.1 N in air. It is placed to float in ethanol (sg = 0.79) with its vertex down ward Calculate the depth of submergence of the cone in mm and How much force is required to push this cone vertex downward into the ethanol so that its base is exactly flushed at the surface in N?
right circular cone is 50mm in radius and 170mm high and weighs 2.1 N in air. It is placed to float in ethanol (sg = 0.79) with its vertex down ward Calculate the depth of submergence of the cone in mm and How much force is required to push this cone vertex downward into the ethanol so that its base is exactly flushed at the surface in N?
Sustainable Energy
2nd Edition
ISBN:9781337551663
Author:DUNLAP, Richard A.
Publisher:DUNLAP, Richard A.
Chapter14: Ocean Thermal Energy Conversion And Ocean Salinity Gradient Energy
Section: Chapter Questions
Problem 8P
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A right circular cone is 50mm in radius and 170mm high and weighs 2.1 N in air. It is placed to float in ethanol (sg = 0.79) with its vertex down ward
Calculate the depth of submergence of the cone in mm and How much force is required to push this cone vertex downward into the ethanol so that its base is exactly flushed at the surface in N?
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