find the terminal velocity of a steel ball 2mm in diameter falling through glycerine. Relative density of steel =8, relative density of glycerine =1.3 and viscosity of glycerine=8.3 poise.

Find the terminal velocity of a steel ball 2 mm in diameter falling through glycerine. Relative density of steel is 8, relative density of glycerine is 1.3 and viscosity of glycerine is 8.3 poise.

Find the ternimal velocity of a steel ball 2 mm in diameter falling through glycerine.(Sp gr. Of steel = 8 and of glycerine =1.3, viscosity of glycerine = 8.3 poise)

Find the density of steel if its relative density is 8 and the density of water is 10^3 kg//m^3

A metal sphere of radius 1 mm and mass 50 mg falls vertically 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 vertically 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 vertically 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.

Find the terminal velocity acquired by a steel ball of diameter 3.2 mm falling under gravity through an oil of density 920 "kg m"^(-3) and viscosity 1.64"N s m"^(-2) . The density of steel may be taken as 7820 kg m^(-3) .

What do you mean by the statement---"The coefficient of viscosity of glycerine is 8.4 poise"?

Find the terminal velocity of a steel ball bearing of radius 0.1cm when it falls through a tube filled with glycerine. ( rho_(steel) = 8 g//cm^3 , a = 1.34 g//cm^3 , r| = 9 poise)