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Related lectures (42)
Gravity Waves and Instabilities
Covers perturbation theory, compressible fluids, sound waves, instabilities, energy equations, and gravity waves.
Turbulence in Astrophysics: Reynolds Decomposition
Covers the modeling of fluid instabilities with linear perturbation theory and explores the origin of unpredictability in turbulence through the Navier-Stokes equations.
Plasma Physics: Collective Behavior
Explores plasma properties, long-range forces, and magnetization in astrophysical contexts.
Astrophysical Fluids Dynamics
Explores astrophysical fluid dynamics, covering compressible flows, basic thermodynamics, shock waves, and perturbation theory.
Astrophysical Fluid Dynamics
Covers the dynamics of astrophysical fluids, hydrodynamics, special characteristics, and ideal fluids.
Numerical Methods in Hydrodynamics
Covers numerical methods in hydrodynamics, ideal fluids, plasma universe, dark matter simulation, and baryon modeling.
Magnetic Flux Freezing
Explains magnetic flux freezing and the transition to a 1-fluid model in plasma dynamics.
MHD Turbulence & Dynamo
Explores MHD waves, instabilities, magnetoconvection, and the impact of B-fields on convection.
Viscous Torque in Astrophysics
Explores the role of viscosity in redistributing angular momentum in astrophysical objects, focusing on accretion disks and energy conversion efficiency.
Magnetic Fields in Astrophysical Fluids
Explores the dynamics of astrophysical fluids, focusing on cosmic magnetic fields, synchrotron emission, and plasma stability.