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Plasma Physics Exercises
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Related lectures (32)
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Burning Plasmas: Fast Ions Role
Explores burning plasma specifics, fast ions role, losses, MHD modes, turbulence, Alfvén waves interaction, and burn stability.
Magnetohydrodynamics: Modeling and Equations
Covers magnetohydrodynamics, focusing on modeling challenges and MHD equations in plasma physics.
Magnetic Fusion Reactor Design
Explores the design parameters of a magnetic fusion reactor, emphasizing cost minimization and reactor optimization.
Magnetohydrodynamics: Two-Fluid Model
Explores magnetohydrodynamics, emphasizing the two-fluid model, Alfvén's theorem, solar wind, dynamos, and magnetic reconnection.
From Fusion to DEMO
Explores the progress in magnetic confinement fusion, roadmaps to fusion power, ITER components, and the path towards DEMO.
Thermonuclear Fusion: Power Balance
Explores fusion power density, losses, breakeven, ignition, and engineering fusion gain in thermonuclear fusion reactors.
Fusion Reactions: Kinetic Energy and Impulse
Delves into fusion reactions, energy release, kinetic energy distribution, and impulse in collisions.
MHD Equilibrium & Stability
Explores Magnetohydrodynamic equilibrium and stability, ideal MHD solutions, 'hairy ball' theorem, and boundary conditions.
Plasma Physics and Fusion Energy
Explores the complexity of boundary plasma in fusion energy research, focusing on experimental techniques and simulations to understand plasma dynamics and improve fusion reactor design.
MHD: The Magnetohydrodynamic Description
Covers the Magnetohydrodynamic (MHD) description of plasma, including MHD equations, conservation properties, and ideal vs. resistive models.
