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Physics
Foundational Physics
Electromagnetism
1. Fundamental Concepts and Mathematical Preliminaries
2. Electrostatics
3. Electric Fields in Matter
4. Magnetostatics
5. Magnetic Fields in Matter
6. Electrodynamics
7. Conservation Laws and Energy Flow
8. Electromagnetic Waves
9. Advanced Topics
Magnetic Fields in Matter
Magnetization in Materials
Atomic Magnetic Moments
Electron Spin Magnetic Moment
Orbital Magnetic Moment
Nuclear Magnetic Moments
Magnetization Vector
Relationship to Atomic Moments
Magnetization Current Densities
Bound Currents
Bound Volume Current Density
Bound Surface Current Density
Amperian Current Model
Auxiliary Magnetic Field
Definition of H Field
Relationship to B and M
Ampere's Law for H Field
Physical Interpretation
Boundary Conditions for H
Linear Magnetic Materials
Magnetic Susceptibility
Temperature Dependence
Permeability
Absolute Permeability
Relative Permeability
Relationship between B, H, and M
Classification of Magnetic Materials
Diamagnetism
Physical Origin
Lenz's Law Explanation
Examples and Properties
Paramagnetism
Physical Origin
Curie's Law
Examples and Properties
Ferromagnetism
Physical Origin
Exchange Interaction
Domain Structure
Curie Temperature
Antiferromagnetism
Physical Origin
Néel Temperature
Ferrimagnetism
Physical Origin
Hysteresis in Ferromagnets
Hysteresis Loop
Coercivity
Remanence
Saturation
Energy Loss
Magnetic Boundary Conditions
Boundary Conditions for B Field
Boundary Conditions for H Field
Refraction of Magnetic Field Lines
Applications to Magnetic Circuits
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6. Electrodynamics