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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Statistical calculation of thermodynamic quantities. Thermodynamic properties of a file of free electrons in the metal. Izdatel’stvo Char’kovskogo universiteta, Classical thermodynamics, extensive and intensive variables, heat engines, Carnot cycle, thermodynamic potentials, their properties and significance, thermodynamic relations, partial derivatives, Maxwell relations, relations involving cV and cP, electrical cell.
Law of mass action. The partition function, partition sum integral. Faculty of Mechanical Engineering. Classical and quantum harmonic oscillator.
Reversible and irreversible processes, the criterion of reversibility of the process. The basic laws of thermodynamics are also derived from statitsick of statistical physics. Second law of thermodynamics. The second law of thermodynamics. Relationships between partition functions and thermodynamic quantities. Meeting with international participation.
Students are graded according to the results of the oral and written exam. Grand canonical partition function. The ideal Fermi-Dirac gas Equation of state, limit cases, nonrelativistic electron gas, Sommerfeld expansion; relativistic electron gas, white dwarfs, spin and magnetism. Syllabus – Czech English. The interpretation of basic ideas and laws of thermodynamics is based on its statistical description. Requirements to the exam – Czech. Microstates, macrostates, ensemble of systems.
Kvasnica, Jozef [WorldCat Identities]
Gibbs – Helmholtz equation. Edited by Ralph Baierlein.
Faculty of Mathematics and Physics. Gas of classical interacting particles Interacting dilute gas, classical cluster, group, and virial expansion. Time evolution of probability density. Thermodynamic properties of photons file. Transport phenomena, Boltzmann kinetic equation.
University Study Programmes – VŠB-TUO
Entropy and thermodynamic probability. For the 3rd year of the TF study. Basic theory of phase transitions Singularity in the statistical sum, Lee-Young’s theorems, phase transitions, order parameter, correlation functions, critical exponents, Landau mean field theory, the scaling hypothesis, universality and renormalization group.
Implications of third law of thermodynamics. Quantum statistical mechanics Postulates of quantum statistical mechanics, density matrix, statistical ensembles, the third law of thermodynamics, statistical sum, the saddle point method, the classical limit, ideal quantum gases, Bose and Fermi distribution The theory of fluctuations and equivalence of statistical ensembles Moments of distribution functions, correlation functions, quadratic correlations, Gibbs and Einstein’s method, thermodynamic limit and equivalence of statistical ensembles, the relation of thermodynamics and statistical mechanics.
Collect the basic principles of thermodynamics and statistical physics Define the physical quantities for describing kvasnicz 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.
Conditions of equilibrium thermodynamic system expressed by potentials. Classification of phase transitions.
Systems with variable contents, Grand canonical Gibbs distribution, chemical potential, grand partition function sumFermi-Dirac distribution, Bose-Einstein distribution, electron gas, Planck distribution, Debye theory of heat capacity.
Descriptions of systems of many particles. Faculty of Electrical Engineering and Computer Science. Fundamentals of statistical mechanics Classical statistical mechanics Macroscopic and microscopic states, ergodic systems and thermodynamic limit. Identical particles, quantum statistical ensembles, the classical limit. First-order phase transitions, phase diagram.
The relation of thermodynamics, statistical physics and mechanics, phase space, microstate and macrostate, statistical ensemble, time and ensemble averaging, fluctuations, homogeneous and heterogeneous systems, thermodynamic equilibrium, energy in thermodynamic systems, adiabatic processes, reversible and dissipative work, First law of thermodynamics, Second law of thermodynamics.
Charles University Information system of Charles University http: Fluctuation theory, equivalence of statistical ensembles. Entropy, entropy associated with the heat capacities of the system.
Cambridge University Press, Equilibrium and stability conditions. Wiley and Sons, New York