MOOC
Plasma Physics: Applications
Lectures in this MOOC (75)
Fluid Quantities and Two-Fluid ModelMOOC: Plasma Physics: Introduction
Covers fluid quantities, moments of kinetic equation, two-fluid model, and plasma turbulence simulation.
Linearization and DispersionMOOC: Plasma Physics: Introduction
Covers linearization and Fourier mode analysis techniques applied to Maxwell and two-fluid equations.
Two-Fluid WavesMOOC: Plasma Physics: Introduction
Explores two-fluid waves in plasma physics, discussing dispersion relations and wave propagation characteristics.
Plasma Waves: Properties & FrequenciesMOOC: Plasma Physics: Introduction
Explores the properties of plasma waves, focusing on dispersion, cut-off, resonance frequencies, and wave modes.
Plasma Physics ExercisesMOOC: Plasma Physics: Introduction
Covers exercises on plasma waves, collisions, and Faraday rotation phenomenon.
MHD Model: One-Fluid VariablesMOOC: Plasma Physics: Introduction
Covers the derivation of the one-fluid model for Magneto-hydro dynamics (MHD) by introducing one-fluid variables.
MHD Equilibrium: Equations and ApplicationsMOOC: Plasma Physics: Introduction
Covers the equations for static ideal MHD equilibrium and force-free and force-balanced equilibria in plasma physics.
MHD Equilibrium StabilityMOOC: Plasma Physics: Introduction
Delves into the stability of Magnetohydrodynamic equilibria in plasmas, analyzing various instabilities and methods for stability analysis.
Plasma Waves in MHD ModelMOOC: Plasma Physics: Introduction
Covers ideal MHD waves, including the shear Alfvén wave and compressional waves with a longitudinal component.
MHD Equilibria and WavesMOOC: Plasma Physics: Introduction
Explores static ideal MHD equilibria, magnetic flux tubes on the Sun, and waves in ideal MHD plasma.