The hydrometer shown in the figure below has a mass of 0.05 kg and the diameter of its stem is 7.1 mm. When the hydrometer floats in two different liquids, the absolute difference in distance between graduations on the stem is 9.3 cm. If the liquid with higher density has a Specific Gravity (SG) of 0.97, the liquid with lower density has a SG of . Assume the density of water to be 1000 kg/m³ and the gravitational acceleration g -9.81 m/s². Assume that the hydrometer bulb is completely submerged. of Hydrometer- Fluid surface
The hydrometer shown in the figure below has a mass of 0.05 kg and the diameter of its stem is 7.1 mm. When the hydrometer floats in two different liquids, the absolute difference in distance between graduations on the stem is 9.3 cm. If the liquid with higher density has a Specific Gravity (SG) of 0.97, the liquid with lower density has a SG of . Assume the density of water to be 1000 kg/m³ and the gravitational acceleration g -9.81 m/s². Assume that the hydrometer bulb is completely submerged. of Hydrometer- Fluid surface
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Transcribed Image Text:The hydrometer shown in the figure below has a mass of 0.05 kg and the diameter of its stem is 7.1 mm. When the hydrometer floats in two different liquids, the absolute difference in distance
between graduations on the stem is 9.3 cm. If the liquid with higher density has a Specific Gravity (SG) of 0.97, the liquid with lower density has a SG of . Assume the density of water to
be 1000 kg/m³ and the gravitational acceleration g -9.81 m/s². Assume that the hydrometer bulb is completely submerged.
of
Hydrometer-
Fluid
surface
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