An air bubble of `10mm` radius is rising at a stready rate of `2mm//sec` through a liquid of density `1.47xx10^(8) kg m^(-3)` . Calculate the coffe. Of viscosity of liquid `(g=9.8 ms^(-2))` neglect density of air.

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 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 radius 10^(-2) m is rising up at a steady rate of 2times10^(-3)ms^(-1) through a liquid of density 1.5times10^(3)kgm^(-3) , the coefficient of viscosity neglecting the the density of air, will be (g=10ms^(-2))

An air bubble of radius 10^(-2) m is rising up at a steady rate of 2times10^(-3)ms^(-1) through a liquid of density 1.5times10^(3)kgm^(-3) , the coefficient of viscosity neglecting the the density of air, will be (g=10ms^(-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

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