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Thermodynamics deals with equilibrium systems composed of
very large numbers of particles/molecules. However, even without knowing
the molecular nature of matter, classical thermodynamics has given a
general relationship among the state variables such as pressure,
temperature, and volume, i.e., equations of state. Statistical
thermodynamics, on the other hand, take a step further by acknowledging
the existence of molecules. Given a detailed molecular model and a
statistical principle for the system of interest, statistical
thermodynamics yields the equations of state that can describe the
equilibrium property of the system in detail. In this sense, statistical
thermodynamics can provide more detailed information about a specific
system than classical thermodynamics does.
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