A metal sphere of radius 1 mm and mass 50 mg falls verticcally in glycerine. Find (a) the viscous force exerted by the glycerine on the sphere when the speed of the sphere is 1 cm s^{-1}, (b) the hydrostatic force exerted by the glycerine on the sphere and (c) the terminal velocity with which the sphere will move down without acceleration. Density of glycerine = 1260kgm−3 and its coefficient of viscosity at room temperature = 8.0 poise.

A metal sphere of radius 1 mm and mass 50 mg falls verticcally in glyc

1.	A metal sphere of radius 1 mm and mass 50 mg falls verticcally in glycerine. Find (a) the viscous force exerted by the glycerine on the sphere when the speed of the sphere is 1 cm s^{-1}, (b) the hydrostatic force exerted by the glycerine on the sphere and (c) the terminal velocity with which the sphere will move down without acceleration. Density of glycerine = 1260kgm−3 and its coefficient of viscosity at room temperature = 8.0 poise.
Answer» A metal sphere of radius 1 mm and mass 50 mg falls verticcally in glycerine. Find (a) the viscous force exerted by the glycerine on the sphere when the speed of the sphere is 1 cm s^{-1}, (b) the hydrostatic force exerted by the glycerine on the sphere and (c) the terminal velocity with which the sphere will move down without acceleration. Density of glycerine = $1260 k g m^{- 3}$ and its coefficient of viscosity at room temperature = 8.0 poise.

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