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Fluids

Heat capacity C_P

The molar heat capacity of a gas is defined as the amount of heat required to increase one mole of the gas by a temperature of 1^oC.
For a gas this quantity depends on the process. When we consider an isobaric process then the molar heat capacity is defined as C_P, which is the heat capacity at constant pressure.
Hence, to heat n moles of an ideal gas from temperature T₁ to temperature T₂ at a constant pressure P, we need an amount of heat equal to

Q_1→2 = nC_P(T₂-T₁)

In the previous page we found for the heat Q_1→2 which was needed to increase the temperature of a quantity of N molecules from T₁ to T₂ under constant pressure P, to be equal to

Q_1→2 = 5(PV₂-PV₁)/2

By the use of the ideal-gas law that expression can be written as

Q_1→2 = 5(nRT₂-nRT₁)/2 = 5nR(T₂-T₁)/2

Hence, we find for the specific heat C_P the relation

C_P = 5R/2



isochoric process