Transcription of Chapter 15. Statistical Thermodynamics
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boltzmann distribution Partition Functions Molecular Energies The Canonical Ensemble Internal energy and entropy Derived functionsChapter 15. Statistical ThermodynamicsMajor ConceptsReviewDiscrete Energy levelsParticle in a boxRigid rotorHarmonic OscillatorMathProbability Lagrange MultipliersProperties of lnMicroscopic PropertiesQuantum MechanicsSpectroscopyVibrational frequenciesBond dissociationsMacroscopic PropertiesThermodynamicsHeat capacityCoefficient of expansionStatistical MechanicsStatistical ThermodynamicsStatistical Thermodynamics provides the link between the microscopic ( , molecular) properties of matter and its macroscopic ( , bulk) properties. It provides a means of calculating thermodynamic properties from the Statistical relationship between temperature and on the concept that all macroscopic systems consist of a large number of statesof differing energies, and that the numbers of atoms or molecules that populate each of these states are a function of the thermodynamic temperature of the of the first applications of this concept was the development of the kinetic theory of gases and the resulting maxwell - boltzmann distrib
resulting Maxwell-Boltzmann distribution of molecular velocities, which was first developed by Maxwell in 1860 on purely heuristic grounds and was based on the assumption that gas molecules in a system at thermal equilibrium had a range of velocities and, hence, energies.
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