The density of a gas is equal to ?
( P = pressure , V= volume , T = temperature, R = gas constant ,n = number of moles and M =molecular wt -

The density of a gas is equal to (P = pressure , V = volume, T = temperature, R = gas constant, n= number of mole and M = molecular weight) :

The pressure P, Volume V and temperature T of a gas in the jar A and the other gas in the jar B at pressure 2P , volume V//4 and temperature 2 T , then the ratio of the number of molecules in the jar A and B will be

The pressure P, Volume V and temperature T of a gas in the jar A and the other gas in the jar B at pressure 2P , volume V//4 and temperature 2 T , then the ratio of the number of molecules in the jar A and B will be

The pressure P , volume V and temperature T of a gas in the jqar A and other gas in the jar B as at pressure 2P , volume V//4 and temperature 2T , then the ratio of the number of molecules in the jar A and B will be

In the formula , p = (nRT)/(V-b) e ^(a/(RTV)) find the dimensions of a and b, where p = pressure , n= number of moles , T = temperture , V = volume and R = universal gas constant .

In the formula P=(nRT)/(V-b)e^((-a)/(RTV)) , Find the dimensions of length in b. (where P = pressure, n = no. of moles, T = temperature, V = volume and R = universal gas constant).

The vander Waal's equation for n moles of a real gas is (p + (a)/(V^(2))) (V-b) = nRT where p is pressure, V is volume, T is absoulte temperature, R is molar gas constant a,b and c are vander Wall's constants. The dimensional formula for ab is

A gas enclosed in a vessel has pressure P, volume V and absolute temperature T, write the formula for number of molecule N of the gas.

A gas enclosed in a vessel has pressure P, volume V and absolute temperature T, write the formula for number of molecule N of the gas.