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Microscopic reversibility
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Related lectures (30)
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Stochastic Processes: Time Reversal
Explores time reversal in stationary Markov chains and the concept of detailed balance conditions.
Markov Chains: Reversibility and Irreducibility
Explores reversibility and irreducibility in Markov chains, along with optimal decision-making policies.
Effective Dynamics for Stochastic Differential Equations
Explores effective dynamics for non-reversible stochastic differential equations, covering molecular dynamics, bottlenecks, coarse-graining, and free-energy connection.
Chemical Kinetics: Basic Concepts
Covers the basic concepts of chemical kinetics and related theories.
Statistical Physics: Systems Isolation
Explores statistical physics concepts in isolated systems, focusing on entropy and disorder.
Linear Phenomenological Relations
Explores linear phenomenological relations in thermodynamics, focusing on current densities and generalized forces.
Semiotics: Reversibility
Explores the concept of reversibility in semiotics, analyzing the transition from utopias to dystopias through sign systems.
Statistical Approach: Dice and Microscopic States
Explores the statistical approach through dice throwing and microscopic states, discussing fundamental assumptions and energy state probabilities.
Pair Correlation Function and Macroscopic Properties
Explores the link between pair correlation function and physical observables, providing insights into particle interactions in liquids.
Discrete-Time Markov Chains: Reversible Chains
Covers reversible discrete-time Markov chains in communication models.
Markov Chains: Reversibility & Convergence
Covers Markov chains, focusing on reversibility, convergence, ergodicity, and applications.
Discrete-Time Markov Chains: Reversible Chains
Covers reversible discrete-time Markov chains and their concept of reversibility.
Modelling Stochastic Communications: Reversible Discrete-Time Markov Chains
Covers reversible discrete-time Markov chains in stochastic communications, explaining stationarity and transition probabilities.
Entropy and Its Role in Thermodynamics
Explores the concept of entropy and its significance in thermodynamics.
Second Law of Thermodynamics: Motivations
Delves into the historical motivations behind the second law of thermodynamics, emphasizing limitations in heat-to-work conversion and the inevitability of irreversible processes.
Chemical Reactions: Thermodynamics
Explores chemical reactions, thermodynamics, calorimetry, and reversible work in closed and open systems.
Mathematical Modeling in Chemistry and Biology
Covers mathematical modeling in chemistry and biology, including chemical reactions, enzymatic kinetics, and population dynamics.
Entropy and the Joule Expansion: A Statistical Perspective
Covers the relationship between entropy and the Joule expansion, illustrating how microscopic states relate to macroscopic disorder.
Carnot Cycle: Efficiency and Reversibility
Explores the Carnot Cycle's efficiency, reversibility, and entropy in thermodynamics.
Carnot Cycle: Efficiency and Second Law Equivalence
Explores the Carnot theorem, its equivalence with the second law, and practical applications.
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