Chemistry

Definition of Ensemble. Liouville theorem. Microcanonical ensemble. Ergodic hypothesis. Statistical entropy. Internal energy and absolute temperature. External variables and generalized forces. The chemical potential. First law of thermodynamics. The entropy of an ideal gas. Calculation of the probability distribution of a physical quantity. Canonical ensemble. Thermodynamic functions of the canonical Ensemble. The canonical ensemble for perfect gases. Quantum Statistical Mechanics. Elements of quantum mechanics: the wave function, expectation values, results of experimental measurements. Postulate of a priori equal probability. Postulate of random phases. Time evolution of sets. Continuous generalization. Microcanonical and canonical ensemble. The Pauli exclusion principle and Symmetrization postulate. Entropy: quantum form and number of states. Boltzmann's H theorem. Maxwell distribution. Principle of Equipartition of Energy. Grand Canononical Ensemble. Grand canonical ensemble for perfect gases. Grand Canonical Ensemble in Quantum Statistical Mechanics. The fluctuations. Fermi-Dirac distribution. The Fermi level. Heat capacity of a free electron gas at low temperatures. Bose-Einstein distribution. Einstein's condensation.

Basic knowledge of Thermodynamics. Fundamental elements of Quantum Mechanics.

To prepare the exam, refer to all the didactic material (Slides) made available. Recommended books: Statistical Mechanics, K. Huang Zanichelli (1997)

Attendance is optional but highly recommended due to the complexity of the treated topics.

The exam will consist of an oral exam in which you will be asked to illustrate the different topics of the course.

Lessons take place in person

Definition of Ensemble. Liouville theorem. Microcanonical ensemble. Ergodic hypothesis. Statistical entropy. Internal energy and absolute temperature. External variables and generalized forces. The chemical potential. First law of thermodynamics. The entropy of an ideal gas. Calculation of the probability distribution of a physical quantity. Canonical ensemble. Thermodynamic functions of the canonical Ensemble. The canonical ensemble for perfect gases. Quantum Statistical Mechanics. Elements of quantum mechanics: the wave function, expectation values, results of experimental measurements. Postulate of a priori equal probability. Postulate of random phases. Time evolution of sets. Continuous generalization. Microcanonical and canonical ensemble. The Pauli exclusion principle and Symmetrization postulate. Entropy: quantum form and number of states. Boltzmann's H theorem. Maxwell distribution. Principle of Equipartition of Energy. Grand Canononical Ensemble. Grand canonical ensemble for perfect gases. Grand Canonical Ensemble in Quantum Statistical Mechanics. The fluctuations. Fermi-Dirac distribution. The Fermi level. Heat capacity of a free electron gas at low temperatures. Bose-Einstein distribution. Einstein's condensation.

Basic knowledge of Thermodynamics. Fundamental elements of Quantum Mechanics.

To prepare the exam, refer to all the didactic material (Slides) made available. Recommended books: Statistical Mechanics, K. Huang Zanichelli (1997)

Attendance is optional but highly recommended due to the complexity of the treated topics.

The exam will consist of an oral exam in which you will be asked to illustrate the different topics of the course.

Lessons take place in person