A U-tube is partly filled with mercury and an unknown liquid is poured into it through the other arm. The surface of the separation of the liquids is at the 6.35 cm mark, the 0 marks being at the tube’s bottom. The free surface of mercury is at 8.46 cm while that of the unknown liquid at 28.24 cm. If the density of mercury is 13.6 g/cc, calculate the density of the unknown liquid.
A U-tube is partly filled with mercury and an unknown liquid is poured into it through the other arm. The surface of the separation of the liquids is at the 6.35 cm mark, the 0 marks being at the tube’s bottom. The free surface of mercury is at 8.46 cm while that of the unknown liquid at 28.24 cm. If the density of mercury is 13.6 g/cc, calculate the density of the unknown liquid.
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 U-tube is partly filled with mercury and an unknown liquid is poured into it through the other arm. The surface of the separation of the liquids is at the 6.35 cm mark, the 0 marks being at the tube’s bottom. The free surface of mercury is at 8.46 cm while that of the unknown liquid at 28.24 cm. If the density of mercury is 13.6 g/cc, calculate the density of the unknown liquid.
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