6. (a) Write down an expression for the volume difference dV between two equilibrium states in which the temperature and pressure differ by dT and dP respectively, T and P being independent. (b) Write down a similar expression for the pressure difference dP between two equilibrium states in which T and V are independent. (c) Proceed to show that the partial derivatives are related by: av ӘР == (-), (²), ()₁ = -1
6. (a) Write down an expression for the volume difference dV between two equilibrium states in which the temperature and pressure differ by dT and dP respectively, T and P being independent. (b) Write down a similar expression for the pressure difference dP between two equilibrium states in which T and V are independent. (c) Proceed to show that the partial derivatives are related by: av ӘР == (-), (²), ()₁ = -1
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![6. (a) Write down an expression for the volume difference dV between
two equilibrium states in which the temperature and pressure differ by
dT and dp respectively, T and P being independent.
(b) Write down a similar expression for the pressure difference dP
between two equilibrium states in which T and V are independent.
(c) Proceed to show that the partial derivatives are related by:
(₁),₂=
=-1
OP
ar/v
av/p](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F0a21b9bc-f6fc-4a69-ab1a-7d5c0dff8539%2F619a57cc-188e-4e39-9dad-93f673e0588f%2F87f5npuj_processed.jpeg&w=3840&q=75)
Transcribed Image Text:6. (a) Write down an expression for the volume difference dV between
two equilibrium states in which the temperature and pressure differ by
dT and dp respectively, T and P being independent.
(b) Write down a similar expression for the pressure difference dP
between two equilibrium states in which T and V are independent.
(c) Proceed to show that the partial derivatives are related by:
(₁),₂=
=-1
OP
ar/v
av/p
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