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Lecture
Statistical Mechanics: Fundamentals
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Related lectures (30)
Scaling & Renormalization in Statistical Mechanics
Explores scaling and renormalization in statistical mechanics, emphasizing critical points and invariant properties.
Kinetic Theory of Gases: Introduction
Introduces the kinetic theory of gases, focusing on the microscopic description of gas components and the ideal gas law.
Molecular Dynamics and Monte Carlo
Covers computational methods for molecular systems at finite temperature, emphasizing stochastic sampling and time evolution simulations.
Molecular dynamics under constraints
Explores molecular dynamics simulations under holonomic constraints, focusing on numerical integration and algorithm formulation.
Statistical Mechanics: Velocity and Langevin Formulation
Covers the statistical mechanics of velocity and Langevin formulation, discussing the Langevin force and thermal equilibrium.
Phase Equilibria: Understanding Vapor-Liquid Separation
Provides an overview of vapor-liquid phase diagrams and their role in separation processes, focusing on phase equilibria and the Gibbs phase rule.
Thermodynamics: Understanding Systems and Temperature
Provides an overview of thermodynamics, focusing on systems, temperature, and the laws governing gas behavior.
Statistical Mechanics: Langevin Hypothesis
Covers the basics of statistical mechanics, focusing on the Langevin hypothesis and its implications.
Statistical Physics: Systems Isolation
Explores statistical physics concepts in isolated systems, focusing on entropy and disorder.
Kinetic Theory: Ideal Gas Model
Introduces the kinetic theory of gases and the ideal gas law.
Thermodynamics: Understanding Particle Systems and Their Properties
Covers the principles of thermodynamics, focusing on particle systems and their statistical properties.
Chemical Equilibria and Reactivity
Covers the concepts of energy types, entropy, second principle, and Gibbs free energy.
Entropy and the Second Law of Thermodynamics
Covers entropy, its definition, and its implications in thermodynamics.
Thermodynamics: Principles and Applications of Gas Laws
Explores the principles of thermodynamics, focusing on gas behavior and the relationship between temperature, pressure, and volume.
Experimental Test of Jarzynski Equality
Explores the Jarzynski Equality through experimental tests on RNA molecules, validating the theory in non-equilibrium conditions.
Calorimetry: Properties of Ideal Gases
Provides an overview of calorimetry and the thermodynamic properties of ideal gases, including their state equations and heat capacities.
Statistical Physics: Isolated Systems and Entropy
Covers statistical physics, isolated systems, entropy, and the Boltzmann distribution.
Classical Thermodynamics: Fundamentals
Covers the fundamentals of classical thermodynamics, from classical mechanics to statistical mechanics, and key thermodynamic variables.
Thermodynamic Transformations and Entropy
Explores thermodynamic transformations of ideal gases, heat capacity, entropy, and adiabatic processes.
Euclidean Path Integrals: Harmonic Oscillator
Explores the Euclidean path integral formalism, with a focus on the harmonic oscillator.
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