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UWAA558 - Magnetohydrodynamic Theory
UWAA558 - Magnetohydrodynamic Theory
Introduction
Kinetic Models
Plasma Fluid Model
Two-Fluid Model
MHD
MHD Boundary Conditions
MHD Equilibrium Concepts
Equilibrium of 1D Configurations
Equilibrium of 2D Configurations
Equilibrium of 3D Configurations
MHD Stability
Formulary
UWAA557 - Physics of Fusion Plasmas
UWAA557 - Physics of Fusion Plasmas
Rules of thumb
Review
Review
Statistical Mechanics
Review of E&M
Lagrange Multipliers
Plasma Properties
Plasma Properties
Wall-supported Plasma
Collisions
Oscillations
UWAA543 - Introduction to Compressible CFD
UWAA543 - Introduction to Compressible CFD
Introduction
Introduction
Introduction
Governing Equations
Reduced Models
Equation Types
Panel Method
Finite Differencing
Finite Differencing
Finite Difference Algorithms
Explicit Finite Difference Algorithms
Finite Difference and Finite Volume Methods
Implicit Algorithms
Numerical Boundary Conditions
Method of Lines
EPFLx - Plasma Physics Introduction
EPFLx - Plasma Physics Introduction
Definition of Plasma
Particle motion in EM fields
Griffiths E&M
Griffiths E&M
Introduction
1 - Vector Analysis
1 - Vector Analysis
1.1 - Vector Algebra
1.2 - Differential Calculus
1.3 - Integral Calculus
1.4 - Curvilinear Coordinates
1.5 - The Dirac Delta Function
1.6 - The Theory of Vector Fields
2 - Electrostatics
2 - Electrostatics
2.1 - The Electric Field
2.2 - Divergence and Curl of Electrostatic Fields
2.3 - Electric Potential
2.4 - Work and Energy in Electrostatics
2.5 - Conductors
3 - Potentials
3 - Potentials
3.1 - Laplace's Equation
3.2 - The Method of Images
3.3 - Separation of Variables
3.4 - Multipole Expansion
Problems
4 - Electric Fields in Matter
4 - Electric Fields in Matter
4.1 - Polarization
4.2 - The Field of a Polarized Object
4.3 - The Electric Displacement
4.4 - Linear Dielectrics
5 - Magnetostatics
5 - Magnetostatics
5.1 - The Lorentz Force Law
5.2 - The Biot-Savart Law
5.3 - The Divergence and Curl of B
5.4 - Magnetic Vector Potential
Problems
6 - Magnetic Fields in Matter
6 - Magnetic Fields in Matter
6.1 - Magnetization
6.2 - The Field of a Magnetized Object
6.3 - The Auxiliary Field
6.4 - Linear and Nonlinear Media
7 - Electrodynamics
7 - Electrodynamics
7.1 - Electromotive Force
7.2 - Electromagnetic Induction
7.3 - Maxwell's Equations
Problems
8 - Conservation Laws
8 - Conservation Laws
8.0 - Phys544 Introduction
8.1 - Charge and Energy
8.2 - Momentum
9 - Electromagnetic Waves
9 - Electromagnetic Waves
9.1 - Waves in One Dimension
9.2 - Electromagnetic Waves in Vacuum
9.3 - Electromagnetic Waves in Matter
9.4 - Absorption and Dispersion
9.5 - Guided Waves
Problems
10 - Potentials and Fields
10 - Potentials and Fields
10.1 - The Potential Formulation
10.2 - Retarded Potentials
10.3 - Point Charges
11 - Radiation
11 - Radiation
11.1 - Dipole Radiation
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