THERMODYNAMIC RELATIONS 361dharm
\M-therm\Th7-2.pm5
Equating the co-efficients of dT in the two equations of ds, we have
c
Ts
Tv
v= ∂
∂F
HGI
KJcv = T∂
∂F
HI
Ks
T v∂
∂F
HGI
KJ
= ∂
∂∂c
vT s
Tvv
T2From eqn. (7.20),
∂
∂F
HI
K =∂
∂F
HI
Ks
vp
TvT
∂
∂∂
= ∂
∂F
HGI
KJ22
2s
vTp
T v
∂
∂F
HGI
KJ =∂
∂F
HGI
KJc
v
T p
Tv
T v2
2Also p = RTv ...(Given)
∂
∂F
HI
K =p
TR
v v
∂
∂F
HGI
KJ
=2
2 0p
T vor ∂
∂F
HGI
KJcvv =
T0This shows that cv is a function of T alone, or cv is independent of pressure.Also, cp = T (^) HF∂∂TsIK
p
∂
∂
F
HG
I
KJ
= ∂∂∂
c
p T
s
Tp
p
T
2
From eqn. (7.21),
∂
∂
F
H
I
K =−
∂
∂
F
H
I
K
s
p
v
T T p
∂
∂∂ =−
∂
∂
F
HG
I
KJ
22
2
s
pT
v
T p
∂
∂
F
HG
I
KJ
=− ∂
∂
F
HG
I
KJ
c
p T
v
T
p
T p
2
2
Again, v = R
p
...(Given)
∂
∂
F
HG
I
KJ
v =
T
R
p p
and
∂
∂
F
HG
I
KJ
2
2
v
T p = 0 ;
∂
∂
F
HG
I
KJ
c
p
p
T
= 0
This shows that cp is a function of T alone or cp is independent of pressure.