Find the terminal velocity of solid sphere of radius 0.1 m moving in air in vertically downward direction. `(eta=1.8xx10^(-5)(Ns)/(m^(2))`, density of sphere `=1000(kg)/(m^(3))` and `g=10(m)/(s^(2)))`

Find the terminal velocity of solid shpere or radius 0.1 m moving in air in vertically downward direction . (eta=18xx10^(-5) Ns//m^(2) , density of sphere =1000 kg//m^(2) and g=10^m//s^(2))

Compute the terminal velocity of rain drop of radius 0.3 mm take coefficient of viscosity of air= 1.83xx10^(-5) poise and density of air 1.3 kg m^(-3) Density of water= 10^3 kg m^(-3) and g =9.8m s^(-2)

Find the greatest length of steel wire that can hang vertically without breaking. Breaking stress of steel =8.0xx10^(8) N//m^(2) . Density of steel =8.0xx10^(3) kg//m^(3) . Take g =10 m//s^(2) .

Compute the terminal velocity of a rain drop of radius 0.3 mm. Take coefficient of viscosity of air 1.83 X 10^(-5) poise and density of air = 1.3 kg m^(-3) Density of water - 10^(3) kg m^(-3) and take g= 9.8 ms^(-2)

Find the greatest length of steel wire that can hang vertically without breaking.Breaking stress of steel =8.0xx10^(8) N//m^(2) . Density of steel =8.0xx10^(3) kg//m^(3) . Take g =10 m//s^(2) .

Calculate the terminal velocity of a water drop of radius 0.002 mm falling in air. Density of air =1.3" kg/m"^(3) . Density of water =10^3 "kg/m"^(3). Coefficient of viscosity of air is 1.7 xx 10^(-5)" decapoise."

Neglecting the density of air, the terminal velocity obtained by a raindrop of radius 0.3 mm falling through the air of viscosity 1.8 xx10^(-5) N//m^(2) will be

Neglecting the density of air, the terminal velocity obtained by a raindrop of radius 0.3 mm falling through the air of viscosity 1.8 xx10^(-5) N//m^(2) will be