A gas obeys the equation of state `P(V-b) =RT` (The parameter b is a constnat The slope for an isochore will be .

One mole of a monoatomic real gas satisfies the equation p(V-b)=RT where b is a constant. The relationship of interatomic potential V(r) and interatomic distance r for gas is given by

The equation of state of a gas is given as P(V-b)=nRT, where b is constant ,n is the number of moles and R is the universal gas constant .when 2 moles of this gas undergo reversible isothermal expansion from volume V to 2V ,what is work done by the gas ?

At a given temperature T, gases Ne, Ar, Xe and Kr are found to deviate from ideal gas behavior. Their equation of state is given as P = (RT)/(V-b) at T. Here, b is the van der Waals constant. Which gas will exhibit steepest increase in the plot of Z (compression factor) vs P?

In van der Waals' equation of state of the gas law the constnat 'b' is a measure of .

The slope of P-V graph for isochoric process is

Differential equation of x^2= 4b(y + b) , where b is a parameter, is

In Vander Waal's equation of state of the gas law, the constant 'b' is a measure of

1 mol of a real gas obeys P(V_(m) - b) = RT , where 'b' and 'R' are constants. If the compressibility factor of gas is 1. 11 and occupied volume of the gas is Xb then determine value of X//2 .

One way of writing the equation of state for real gases is PV=RT[1+(B)/(V)+….] where B is a constant. Derive an approximate expression for B in terms of the van der Waals constants a and b .

One way of writing the equation of state for real gases is PV = RT [1+R/V+…] ? Where B is constant. Derive an approximate expression for B in terms of the van der Waals constant a and b.