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Lecture
Plasma Two-fluid Model
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Related lectures (29)
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Plasma Collisions: Coulomb Force
Analyzes Coulomb collisions between charged particles and the conservation of energy, momentum, and angular momentum.
Electrostatic Waves: Magnetic Field Interaction
Explores the interaction of electrostatic waves with the magnetic field in plasma physics.
Plasma Resistivity: Coulomb Collisions and Momentum Equation
Covers plasma resistivity, Coulomb collisions, and momentum equation in plasma.
Plasma Energy Loss: Impact Parameter and Debye Screening
Covers energy loss in plasma due to impact parameter intervals and Debye screening effects.
Plasma Waves: Two-Fluid Model
Explores plasma waves described by the two-fluid model and the behavior of Langmuir waves.
Conservation Laws in Plasma Physics
Covers the conservation laws in plasma physics, highlighting entropy, energy, and momentum conservation.
Random Walk Simulation: Mean Displacement and Diffusion Coefficient
Covers random walk simulation, mean displacement, and diffusion coefficient calculations for weakly ionized particles.
Kinetic Theory of Plasma: Linearized Vlasov Equations
Explores the kinetic theory of plasma, focusing on linearized Vlasov equations in hot magnetized plasmas and the behavior of plasma particles in phase space.
MHD Plasma Approximation
Covers the MHD plasma approximation, discussing macroscopic phenomena and phase velocities.
Plasma Waves: Propagation and Modes
Explores the propagation and modes of plasma waves, including R- and L-waves, Langmuir waves, and Faraday rotation.
