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This is a calculus based electromagnetism course which goes into the details of dielectric and magnetie materials under electric and magnetic

fields. The course presents boundary values problems and Maxwell's equations in their local and integral

forms.



In this chapter we covered:

Addition of Vectors

Multiplication of Vectors

Vector Product

Mixed Scalar Product

Mixed Vector Product

Cartesian-Polar-Cylindrical-Spherical coordinates

Gradient of a scalar function

Divergence of a vector...
Chapter 1 EM: Vector Analysis
Dernier document publié:
de cela
This is a calculus based electromagnetism course which goes into the details of dielectric and magnetie materials under electric and magnetic

fields. The course presents boundary values problems and Maxwell's equations in their local and integral

forms.



In this chapter we covered:

Addition of Vectors

Multiplication of Vectors

Vector Product

Mixed Scalar Product

Mixed Vector Product

Cartesian-Polar-Cylindrical-Spherical coordinates

Gradient of a scalar function

Divergence of a vector...
This is a calculus based electromagnetism course which goes into the details of dielectric and magnetic materials under electric and magnetic

fields. The course presents boundary values problems and Maxwell's equations in their local and integral

forms.



In this chapter we covered:

Axioms of Magnetic fields

Ampere's Law

Biot-Savart Law

Magnetization and equivalent current densities

Magnetic field Intensity and Permeability

Behaviour of Magnetic Materials

Boundary conditions of magneti...
Chapter 3 EM: Magnetic Fields
Dernier document publié:
de cela
This is a calculus based electromagnetism course which goes into the details of dielectric and magnetic materials under electric and magnetic

fields. The course presents boundary values problems and Maxwell's equations in their local and integral

forms.



In this chapter we covered:

Axioms of Magnetic fields

Ampere's Law

Biot-Savart Law

Magnetization and equivalent current densities

Magnetic field Intensity and Permeability

Behaviour of Magnetic Materials

Boundary conditions of magneti...
This is a calculus based electromagnetism course which goes into the details of dielectric and magnetie materials under electric and magnetic

fields. The course presents boundary values problems and Maxwell's equations in their local and integral

forms.



In this chapter we covered:

The axioms of electric field

Electric field by discrete and continuous charges

Gauss's Law

Electric potential of a dipole

Conductors in static fields

Dielectric in static fields

Polarization

Boundary con...
Chapter 2 EM: Static Electric Fields
Dernier document publié:
de cela
This is a calculus based electromagnetism course which goes into the details of dielectric and magnetie materials under electric and magnetic

fields. The course presents boundary values problems and Maxwell's equations in their local and integral

forms.



In this chapter we covered:

The axioms of electric field

Electric field by discrete and continuous charges

Gauss's Law

Electric potential of a dipole

Conductors in static fields

Dielectric in static fields

Polarization

Boundary con...
This is a calculus based electromagnetism course which goes into the details of dielectric and magnetie materials under electric and magnetic

fields. The course presents boundary values problems and Maxwell's equations in their local and integral

forms.



In this chapter we covered Faradays law of electromagnetic induction
Chapter 4 EM: Faradays law of electromagnetic induction
Dernier document publié:
de cela
This is a calculus based electromagnetism course which goes into the details of dielectric and magnetie materials under electric and magnetic

fields. The course presents boundary values problems and Maxwell's equations in their local and integral

forms.



In this chapter we covered Faradays law of electromagnetic induction