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Electromagnetics and Applications (Staelin)
1: Introduction to Electromagnetics and Electromagnetic Fields

1: Introduction to Electromagnetics and Electromagnetic Fields

Last updated

Jun 7, 2025
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- 1.1: Review of Foundations

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1.1: Review of Foundations
This page introduces electromagnetics, covering the behavior of electric charges through laws like the Lorentz force and Maxwell's equations. It highlights significant advancements in electrical engineering and discusses conservation laws in physics, including momentum and charge. Key aspects include the interplay of electric charge, current, and photon energy, alongside relationships between frequency, wavelength, and light speed.
1.2: Forces and the Measurement and Nature of Electromagnetic Fields
This page explains the Lorentz force law, illustrating how electric and magnetic fields exert forces on electric charges. Electric fields affect stationary charges, while magnetic fields require movement. Field lines depict these interactions, with electric lines radiating from positive to negative charges and magnetic lines showing pole interactions.
1.3: Gauss’s Law and electrostatic fields and potentials
This page outlines key electrostatics concepts including the Lorentz force law and Maxwell's equations, particularly Gauss's Law, which connects charge distribution to electric fields. It demonstrates using Gauss's Law for calculating fields from charged geometries and highlights voltage differences between points.
1.4: Ampere’s Law and Magnetostatic Fields
This page explains Ampere's law related to static current densities, linking the magnetic field $\vec H$ with current density $\vec J$ in different geometries. It details calculations for cylindrical currents and describes the uniform magnetic field between parallel plates with opposing currents. The text emphasizes the role of Maxwell's equations and the Lorentz force law in electromagnetic phenomena, providing simplified models of electric and magnetic fields.

Thumbnail: The electric field lines and equipotential lines for field of two point charges. (CC BY-SA 3.0; Geek3 via Wikipedia).

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