Title in English: Termodynamika a statistická fyzika II. Guaranteed by: Institute of J. Kvasnica: Statistická fyzika: Academia, Praha, L. E. Reichl: A Modern. Title in English: Termodynamika a statistická fyzika. Guaranteed by: Institute of J. Kvasnica: Statistická fyzika (Academia, Praha, ). M. Noga, F. Čulík: Úvod. Kvasnica Statistická Fyzika Ed1 – Ebook download as PDF File .pdf) or read book online.
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Faculty of Mining and Geology. Faculty of Metallurgy and Materials Engineering.
PřF:F Therm. and stat. phys. – Course Information
Faculty of Mechanical Engineering. Faculty of Electrical Engineering and Computer Science.
Faculty of Civil Engineering. Faculty of Safety Engineering.
Course succeeds to compulsory courses shatistick previous semester. The course is oriented on classical thrmodynamics and statistical physics. Collect the basic principles of thermodynamics and statistical physics Define the physical quantities for describing statistical ensembles with great numer of particles Apply the simple mathematical methods for describing of the thermodynamic phenomene Interpret the knowlidges from the mathematical statistics for solving of statistical physical problems.
Basic concepts of thermodynamics, the state of thermodynamic equilibrium, the first and second postulate of thermodynamics.
Reversible and irreversible processes, the criterion of reversibility of the process. The first law of thermodynamics, heat capacity. The second law of thermodynamics. Entropy, entropy associated with the heat capacities of the system.
University Study Programmes
Gibbs – Helmholtz equation. Dependence of thermodynamic potentials of the number of particles in the system. The second law of thermodynamics for irreversible processes. Conditions of equilibrium thermodynamic system expressed by potentials.
University Study Programmes – VŠB-TUO
Concepts of probability theory and mathematical statistics in statistical physics. Basic concepts and ideas of statistical physics. Microstates, macrostates, ensemble of systems.
Time evolution of probability density. Entropy and thermodynamic probability.
The canonical Gibbs ensemble. The partition function, partition sum integral.
Relationships between partition functions and thermodynamic quantities. Classical and quantum harmonic oscillator. Grand canonical partition function. The transition to quantum statistics. Kvasnicaa properties of photons file. Thermodynamic properties of a file of free electrons in the metal.