- #1
laser1
- 103
- 16
- Homework Statement
- desc
- Relevant Equations
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I have an issue with (b). What I did was simply integrate ##dS##. It's a perfect gas, so, $$\left(\frac{\partial E}{\partial T}\right)_V=NC_V$$ and $$\left(\frac{\partial E}{\partial V}\right)_T=0$$ Next I used the relation that ##PV=NkT## to get ##\frac{P}{T}=\frac{Nk}{T}##, and after integrating I got $$S=NC_V \ln T + Nk \ln V + const$$ I understand that I could substitute ##Nk\ln V = Nk\ln\frac{V}{N}+Nk\ln N##, but then the constant depends on ##N## and in the problem statement, it says that ##C## is a constant for the particle type of particle, so it shouldn't depend on the number of particles in my opinion (##N##). Thank you