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Monte Carlo Simulations: Photon Gas & LJ Potential
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Boltzmann Distribution & Thermodynamic Ensembles
Explores Boltzmann distribution, quantum particles, thermodynamic ensembles, and ensemble sampling methods.
Ensemble microcanonique: perfect gas
Explores the microcanonical ensemble applied to a perfect gas and the statistical mean of physical quantities.
Statistical Physics: Isolated Systems and Entropy
Covers statistical physics, isolated systems, entropy, and the Boltzmann distribution.
Ensembles and Partition Functions
Covers ensembles, partition functions, and distributions in statistical thermodynamics.
Classical Scattering Theory
Covers the classical scattering theory for two-body systems and the behavior of molecules in critical conditions.
Efficiency of Sampling: Ergodicity and Autocorrelation Functions
Explores the efficiency of sampling in molecular dynamics, focusing on ergodicity and autocorrelation functions.
Computer Simulation: Early Days and Monte Carlo Method
Explores the early days of computer simulation, focusing on the Monte Carlo method and its evolution in scientific research.
Molecular Dynamics Simulations: Basics and Algorithms
Covers the basics of molecular dynamics simulations, ensemble properties, classical mechanics formulations, numerical integration, energy conservation, and constraint algorithms.
Statistical Distribution in Canonical and Grand-Canonical Ensembles
Covers the statistical distribution in canonical and grand-canonical ensembles, focusing on the bathed system.
Canonical Distribution: Gibbs Entropy and Ensembles
Explores the derivation of the canonical distribution based on Gibbs's entropy and a maximum entropy principle.
