At low pressure, the van der Waals equation is reduced to

In the van der Waals equation

At high pressure , the van der Waals equation is reduced to

Using van der Waals equation (P+(a)/(V^(2)))(V-b)=RT , answer the following questions: At high pressure, the van der Waals equation gets reduced to

At low pressures, the van der Waals equation is written as [P+(a)/(V^(2))]V=RT The compressibility factor is then equal to

At very high pressure, the van der Waals equation reduces to

At very high pressure, the van der Waals equation reduces to

van der Waal's equation is true for

At low pressure, the van der Waal's equation become : (a) PV_(m)=RT (b) P(V_(m)-b)=RT (c) (P+(a)/(V_(M)^(2)))V_(m)=RT (d) P=(RT)/(V_(m))+(a)/(V_(m)^(2))

At low pressure and high temperature the Van der Waals equation is finally reduced (simplified) to

At high temperature and low pressure van der Waal's equation becomes