A gas bubble of 2 cm diameter rises through a liquid `1.75 gm cm^(-3)` with a fixed speed of `0.35 cm s^(-1)`.Naglect the density of the gas. The cofficient of viscosity of the liquid is

An air bubble of diameter 2mm rises steadily through a solution of density 1750kgm^(-3) at the rate of 0.35cms^(-1) .Calculate the coefficient of viscosity of the solution (in Pascal times Sec ).The density of air is negligible. (g=9.8m/s^(2))

An air bubble of 1cm radius is rising at a steady rate of 0.5cms^(-1) through a liquid of density 0.81gcm^(-3) . Calculate the coefficient of viscosity of the liquid. Neglect the density of air. ( Take g=10m//s^(2))

An air bubble of 1 cm radius is rising at a steady rate of 2.00ms^-1 through a liquid of density 1.5gcm^-3 . Neglect density of air. If g=1000cms^-2 , then the coeffieciet of viscosity of the liquid is

An air bubble of 1 cm radius is rising at a steady rate of 2.00ms^-1 through a liquid of density 1.5gcm^-3 . Neglect density of air. If g=1000cms^-2 , then the coeffieciet of viscosity of the liquid is

A gas bubble of diameter 002 m rises steadily at the rate of 2.5 10^(-2) ms^(-1) through a solution of density 2.5 xx 10^(3) kg m ^(-3) . Calculate the coefficient of viscosity of the solution. Neglect the density of the gas.

A small metal ball of diameter 4 mm and density 10.5 g//cm^(3) in dropped in glycerine of density 1.5 g//cm^(3) . The ball attains a terminal velocity of 8cm s^(-1) . The coefficient of viscosity of glycerine is

An air bubble of diameter 2 cm is allowed to rise through a long cylindrical column of viscous liquid and travels at the rate of 0.21 cm s^(-1) . If the density of the liquid is 1.47 g cm^(-3) . find the coefficient of viscosity. Density of air is neglected.

A lead sphere of 1.0 mm diameter and relative density 11.20 attains a terminal velocity of 0.7 cm s^(-1) in a liquid of relative density 1.26 . Determine the coefficient of dynamic viscosity of the liquid.

A small metal ball of diameter 4 mm and density 10.5 g//cm^(3) in dropped in glycerine of density 1.5 g//cm^(3) . The ball attains a terminal velocity of 8//cm s^(-1) . The coefficient of viscosity of glycerine is

Water is flowing in a pipe of diameter 6 cm with an average velocity 7.5 cm^(-1).s^(-1) and its density is 10^(3) kg m^(-3) . What is the nature of flow ? Given coefficient of viscosity of water is 10^(-3) kgm^(-1) s^(-1).