The viscosity `eta` of a gas is determined by its density `rho`, molecular velocity c and its mean free path `lambda`.Show that `eta=krhoclambda` where k is a dimensionless constant.

If P is the pressure of a gas and rho is its density , then find the dimension of velocity in terms of P and rho .

The coefficient of viscosity eta of a gas depends on mass of the gas molecule, its effective diameter and its average speed. It is known that diameter of helium atom is 2.1xx10^(-10) m and its coefficient of viscosity, at room temperature is 2.0 xx 10^(-5) kg m^(-1)s^(-1) . Estimate the effective diameter of CO_(2) molecule if it is known that eta at room temperature for CO_(2) is 1.5 xx 10^(-5) kg m^(-1)s^(-1) .

If P is doubled and T is reduced to half at constant volume, what will be its effect on the mean free path ( lambda ) of a gas molecule?

Stoke's law states that the viscous drag force F experienced by a sphere of radius a, moving with a speed v through a fluid with coefficient of viscosity eta , is given by F=6 pi eta If this fluid is flowing through a cylindrical pipe of radius r, length l and a pressure difference of P across its two ends, then the volume of water V which flows through the pipe in time t can be written as (V)/(t)=K ((p)/(l))^(a)eta^(b)r^(c ) where k is a dimensionless constant. Correct values of a, b and c are -

Stoke’s law states that the viscous drag force F experienced by a sphere of radius a, moving with a speed V through a fluid with coefficient of viscosity eta , is given by F = 6pi"na"v . If this fluid is flowing through a cylindrical pipe of radius r, length l and a pressure difference of P across its two ends, then the volume of water V which flows through the pipe in time t can be written as c (V)/(t)=k((P)/(l))eta^(b)r^(c) , where k is a dimensional constant. Correct values of a, b and c are