Author name: Tariq Ahmad

Nonequilibrium statistical mechanics studies how macroscopic irreversibility, transport, dissipation, fluctuations, and organized behavior emerge from microscopic dynamics when systems are not at thermal equilibrium. This article examines microscopic reversibility and macroscopic irreversibility, Liouville dynamics, BBGKY hierarchy, Boltzmann equation, H-theorem, master equations, detailed balance, Markov processes, Langevin equations, Fokker–Planck equations, Brownian motion, fluctuation–dissipation relations, Onsager reciprocity, Green–Kubo formulas, entropy production, nonequilibrium steady states, stochastic thermodynamics, fluctuation theorems, Jarzynski equality, Crooks relation, kinetic theory, hydrodynamic limits, transport coefficients, reaction networks, active matter, driven systems, and computational stochastic workflows. Selected R and Python examples model Markov jump entropy production and overdamped Langevin dynamics, while the linked GitHub repository expands the article with reproducible nonequilibrium workflows.