Magnetostatics – Basic Laws

• Ampere's Law for Magnetic Force.
• Biot-Savart Law: Magnetic Field Intensity and Magnetic Flux Density.
• The Magnetic Flux and Gauss' Law for Magnetism.
• Ampere's Circuital Law.

Magnetic Field Evaluation Using the "Incrementation" Scheme and Biot-Savart Law

• A finite length thin straight current-carrying conductor.
• An infinite length thin straight current-carrying conductor.
• A thin circular current-carrying (loop) conductor. Also, the case of a segment of a loop.
• A finite height circular solenoid.

Magnetic Field Evaluation Using Ampere's Circuital Law Scheme

• Cylindrical (axial/coaxial) symmetries.
• An infinite length thin straight current-carrying conductor.
• An infinite length thick straight current-carrying conductor.
• An infinite length coaxial transmission line.
• Planar symmetries.
• An infinite extension thin current sheet.
• Toroidal & Solenoidal symmetries.
• Toroid.
• An infinite height solenoid.

Magnetostatic Differential (Point) Forms.

• Point form of Gauss' Law in Magnetism.
• Point form of Ampere's Circuital Law.
• The Curl.
• Stoke's Theorem.

Static Form of Maxwell's Equations
Scalar and Vector Magnetic Potential
Electrostatic – Magnetostatic Analogies