- #1
Polyrhythmic
- 343
- 0
The only reason I can think of is: By defining [itex]S=k_b \log \Omega[/itex], it just works out; for an ideal gas as well as for other systems (that I can't come up with right now).
[itex]\frac{dS}{dE}=\frac {1}{T(E,...)}\,[/itex] states that temperature is a measure of the increase in entropy when some energy is added to a system. Is there a physical interpretation of this quantity other than the above?
[itex]\frac{dS}{dE}=\frac {1}{T(E,...)}\,[/itex] states that temperature is a measure of the increase in entropy when some energy is added to a system. Is there a physical interpretation of this quantity other than the above?