what is the relation between cp and cv
specific heat of gas at constant pressure and at constant volume....
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Relationship between CP and CV for an Ideal Gas
From the equation q = n C ∆T, we can say:
At constant pressure P, we have qP = n CP∆T
This value is equal to the change in enthalpy, that is, qP = n CP∆T = ∆H
Similarly, at constant volume V, we have qV = n CV∆T
This value is equal to the change internal energy, that is, qV = n CV∆T= ∆U
We know that for one mole (n=1) of ideal gas,
∆H = ∆U + ∆(pV )
= ∆U + ∆(RT )
= ∆U + R∆T
Therefore, ∆H = ∆U + R ∆T
Substituting the values of ∆H and ∆U from above in the former equation,
CP∆T = CV∆T + R ∆T
Or CP = CV + R
Or CP – CV= R
___________________________________
This answer may help you
____________
Thanks
_____________________________
Relationship between CP and CV for an Ideal Gas
From the equation q = n C ∆T, we can say:
At constant pressure P, we have qP = n CP∆T
This value is equal to the change in enthalpy, that is, qP = n CP∆T = ∆H
Similarly, at constant volume V, we have qV = n CV∆T
This value is equal to the change internal energy, that is, qV = n CV∆T= ∆U
We know that for one mole (n=1) of ideal gas,
∆H = ∆U + ∆(pV )
= ∆U + ∆(RT )
= ∆U + R∆T
Therefore, ∆H = ∆U + R ∆T
Substituting the values of ∆H and ∆U from above in the former equation,
CP∆T = CV∆T + R ∆T
Or CP = CV + R
Or CP – CV= R
___________________________________
This answer may help you
____________
Thanks
Chetan12341:
this may help you
thnks...
ur welcome
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