1000 Solved Problems in Modern Physics

4.3 Solutions 275

whereHis the enthalpy

∴TΔS+VΔP= 0

But by Problem 4.31

TΔS=CPΔT−T

(

∂V

∂T

)

P

ΔP

∴CPΔT+

[

V−T

(

∂V

∂T

)

P

]

ΔP= 0

or ΔT=

[

T

(∂V

∂T

)

P−V

]

ΔP

CP

4.34 (a) For perfect gas

PV=RT

P

(

∂V

∂T

)

P

=R

T

(

∂V

∂T

)

P

=

TR

P

=V

orT

(

∂V

∂T

)

P

−V= 0

∴ΔT=0 by Problem 4.31

(b) For imperfect gas

(

P+

a

V^2

)

(V−b)=RT

orPV=RT−

a

V

+bP+

ab

V^2

P

(

∂V

∂T

)

P

=R+

a

V^2

(

∂V

∂T

)

P

−

2 ab

V^3

(

∂V

∂T

)

P

Re-arranging

(

∂V

∂T

)

P

=

R

P−Va 2 +^2 Vab 3

=

R

RT

V−b−

2 a

V^2

(

1 −Vb

)

Multiplying both numerator and denominator of RHS by (V−b)/R

T

(

∂V

∂T

)

P

=(V−b)

[

1 −

2 a

RT V^3

(V−b)^2

]− 1

=(V−b)

[

1 +

2 a

RT V^3

(V−b)^2

]