Gurantor department | Department of Physics | Credits | 4 |

Subject guarantor | doc. RNDr. Dalibor Ciprian, Ph.D. | Subject version guarantor | doc. RNDr. Dalibor Ciprian, Ph.D. |

Study level | undergraduate or graduate | Requirement | Choice-compulsory |

Year | 1 | Semester | summer |

Study language | Czech | ||

Year of introduction | 2018/2019 | Year of cancellation | |

Intended for the faculties | USP, FEI | Intended for study types | Follow-up Master |

Instruction secured by | |||
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Login | Name | Tuitor | Teacher giving lectures |

CIP10 | doc. RNDr. Dalibor Ciprian, Ph.D. |

Extent of instruction for forms of study | ||
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Form of study | Way of compl. | Extent |

Full-time | Credit and Examination | 2+2 |

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

Lectures

Seminars

Tutorials

The course is oriented on classical thrmodynamics and statistical physics.

SONNTAG, R. E., BORGNAKKE, C., VAN WYLEN, G. J. Fundamentals of
Thermodynamics. John Wiley&Sons, USA, 2003. ISBN 0-471-15232-3;

BEISER, A.: Concepts of Modern Physics, McGraw-Hill 2002

Discussion with students during the lessons.

No e-learinig available.

Systematic individual off-classroom study is assumed.

Subject has no prerequisities.

Subject has no co-requisities.

1. 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.
2. The first law of thermodynamics, heat capacity. The second law of thermodynamics. Entropy, entropy associated with the heat capacities of the system.
3. Thermodynamic potentials: internal energy, free energy, enthalpy, Gibbs potential. Gibbs - Helmholtz equation. Dependence of thermodynamic potentials of the number of particles in the system. Grandkanonical potential. The second law of thermodynamics for irreversible processes. Conditions of equilibrium thermodynamic system expressed by potentials.
4. Concepts of probability theory and mathematical statistics in statistical physics. Basic concepts and ideas of statistical physics. Microstates, macrostates, ensemble of systems. Ergodic hypothesis. Time evolution of probability density.
5. The mikrocanonical ensemble. Entropy and thermodynamic probability.
6. The canonical (Gibbs) ensemble. The partition function, partition sum (integral). Relationships between partition functions and thermodynamic quantities. Maxwell – Boltzmann´s distribution of velocities of gas molecules. Classical and quantum harmonic oscillator.
7. Grand canonical ensemble. Grand canonical partition function. The transition to quantum statistics. Fermi – Dirac´s distribution. Bose - Einsteinś distribution. Thermodynamic properties of photons file. Thermodynamic properties of a file of free electrons in the metal.

Task name | Type of task | Max. number of points
(act. for subtasks) | Min. number of points |
---|---|---|---|

Credit and Examination | Credit and Examination | 100 (100) | 51 |

Credit | Credit | 30 (30) | 16 |

Zápočtová písemka | Written test | 30 | 16 |

Examination | Examination | 70 (70) | 35 |

Zkouška - písemka | Written examination | 40 | 20 |

Zkouška - ústní | Oral examination | 30 | 15 |

Show history

Academic year | Programme | Field of study | Spec. | Zaměření | Form | Study language | Tut. centre | Year | W | S | Type of duty | |
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2018/2019 | (N2658) Computational Sciences | (2612T078) Computational Sciences | P | Czech | Ostrava | 1 | Choice-compulsory | study plan |

Block name | Academic year | Form of study | Study language | Year | W | S | Type of block | Block owner |
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