- #1
laser1
- 110
- 16
- Homework Statement
- Given ##\frac{1}{kT}=\frac{d\ln(\Omega)}{dE}##, derive an expression for entropy
- Relevant Equations
- ##dU=dQ+dW##
Okay, so we have that $$dU = \left( \frac{\partial U}{\partial V} \right)_S dV + \left( \frac{\partial U}{\partial S} \right)_V dS$$ And comparing that to the first law, we get that $$T=\left(\frac{\partial U}{\partial S}\right)_V$$. Comparing expressions of ##T##, $$\left(\frac{dE}{dk\ln(\Omega)}\right)=\left(\frac{\partial U}{\partial S}\right)_V$$, it ALMOST seems like ##S=k\ln(\Omega)##. But I have one doubt about the constant volume... why isn't this an issue?