Thermal physics - how are Cp and Cv used?

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Cp and Cv represent the heat capacities at constant pressure and constant volume, respectively, and are material properties that do not require specific processes like isobaric or isochoric to be applicable. The first equation, Cp - Cv = nR, illustrates the relationship between these heat capacities, allowing one to be inferred from the other. Cp indicates the energy required to raise the temperature of a sample by one unit at constant pressure, while Cv does so at constant volume. The definitions of Cp and Cv are mathematically expressed in terms of enthalpy and internal energy, respectively. Understanding these concepts is crucial for thermodynamic calculations across various processes.
Flucky
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Afternoon all.

I've have the following equations:

Cp - Cv = nR = Nkb

Cv = nRf / 2

Cp = nR(2+f) / 2

CvlnT = -nRlnV + const

where f is degrees of freedom

Do the Cp and Cv just stand for pressure and volume (where both are constant), so for example can the first equation only be used for a system that is isobaric and isochoric?
 
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The subscript refers to the state variable held constant in order to measure the corresponding heat capacity.

The first equation gives the relation between the heat capacities - it would be used, for instance, to infer one from knowledge of the other.
http://en.wikipedia.org/wiki/Heat_capacity

There's no special reason that a isobaric or isochoric process must be happening for the different capacities to be used. Heat capacities are a material property.
i.e. in an Adiabatic process, both (in ratio) are used yet pressure and volume both change.
 
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Ah ok, now the C makes sense.

So I might be given a value for Cp and what that means is: # moles of this gas was raised by # Kelvin/°C with the pressure kept constant?
 
Yah.
The Cp, say, would be given for the entire sample though, and it does not have to be a gas.
It literally means that if you raised the temperature of the sample by 1 unit while keeping the pressure a constant, and without changing phase, then you used 1 unit of energy.

What counts as 1 unit depends on what units Cp was quoted in.
In SI units, that would be K and J.
 
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cool thanks simon
 
A mathematically precise definition of the molar heat capacities which never fails is

Cp=∂H(T,P)/∂T

and

Cv=∂U(T,P)/∂T

where H is the enthalpy and U is the internal energy.

Chet
 
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