Lectures related to Boltzmann Distribution & Thermodynamic Ensembles

Canonical Ensemble: Probability Distribution

Explores the probability distribution in the canonical ensemble and the Boltzmann distribution.

Covers ensembles, partition functions, and distributions in statistical thermodynamics.

Statistical Physics: Isolated Systems and Entropy

Covers statistical physics, isolated systems, entropy, and the Boltzmann distribution.

Quantum to Classical Mechanics: Fundamentals

Covers the transition from quantum to classical mechanics, statistical mechanics, Monte Carlo simulations, and molecular dynamics simulations.

Sampling the Canonical Ensemble

Explores sampling the canonical ensemble, temperature fluctuations, extended Lagrangian, and Maxwell-Boltzmann distribution in molecular dynamics simulations.

Monte Carlo Simulations

Covers the theory and practical aspects of Monte Carlo simulations in molecular dynamics, including ensemble averages and Metropolis algorithm.

Sampling the Canonical Ensemble

Explores sampling the canonical ensemble, temperature fluctuations, extended Lagrangian, and molecular dynamics control of temperature.

Grand Canonical and Isothermal Ensembles

Explores the grand canonical and isothermal isobaric ensembles and their thermodynamic implications.

Canonical Ensemble: Partition Function and Ideal Gas

Explores the canonical ensemble, partition function, and ideal gas properties.

Statistical Thermodynamics: Boltzmann Distribution

Covers the Boltzmann distribution in statistical thermodynamics, focusing on the harmonic oscillator system and analyzing state occupancy with varying temperatures.

Statistical Physics: Entropy

Explores statistical physics concepts like equiprobable microstates, entropy, and canonical ensembles, with applications in quantum mechanics and semiconductor physics.

Bose-Einstein Statistics: Derivation and Applications

Explores the derivation and application of Fermi and Bose statistics in different ensembles.

Statistical Definition of Entropy: Microstates and Macrostates

Covers microstates, macrostates, entropy, and density of states in statistical mechanics.

Statistical Thermodynamics: Microcanonical and Canonical Ensembles

Explores the microcanonical and canonical ensembles, historical contributions, macrostates, microstates, and particle arrangements in statistical thermodynamics.

Metastable Materials: New Perspectives on Discovery

Explores challenges in identifying useful metastable materials and discusses concepts like structure predictions, ensemble probabilities, and mapping algorithms.

Ensemble microcanonique: perfect gas

Explores the microcanonical ensemble applied to a perfect gas and the statistical mean of physical quantities.

Statistical Mechanics: Canonical Ensemble

Covers the canonical ensemble and harmonic oscillators in statistical mechanics.

Statistical Mechanics: Microscopic-Macroscopic Systems

Explores the link between microscopic and macroscopic systems, ensembles, probability distributions, entropy, and energy distribution.

Quantum Statistics: Canonical & Grand Canonical Ensembles

Explores quantum statistics in canonical and grand canonical ensembles, discussing distinguishability, microstates, and the Pauli exclusion principle.

Monte Carlo Simulations

Covers Monte Carlo simulations, ensemble properties, and numerical integration techniques.