Lectures related to Rectangular Waveguides: TM and TE Modes

Electric Displacement in Dielectrics: Gauss's Law and Boundary Conditions

Introduces the concept of electric displacement vector D and explores boundary conditions in dielectrics.

Covers guided propagation in rectangular waveguides for TE and TM modes.

Covers TE modes in rectangular waveguides, including boundary conditions and dispersion diagrams.

Covers the propagation modes in rectangular waveguides, focusing on TM modes and discussing basic equations and solutions.

Electric Fields Boundary Conditions: Gauss's Law and Displacement Vector

Explores Gauss's law, displacement vector in dielectrics, and symmetry analysis of electric fields.

Electric Field Between Infinite Planes: Laplace Equation

Focuses on finding the electric field between infinite planes in electrostatics.

Guided Propagation: Theory and Examples

Discusses guided propagation for waves along a structure with invariant geometry and covers examples of TEM, TE, and TM modes.

Transmission Line Models

Explores transmission line models, including Taylor et al. and Agrawal et al., discussing equations and boundary conditions.

Propagation Modes in Waveguides

Explores the propagation modes in waveguides, discussing TE and TM modes, field distribution, and Bessel functions.

Boundary Conditions for D and E: Capacitance and Dielectrics

Explores boundary conditions for D and E at material interfaces and in capacitors, emphasizing the impact of dielectrics.

Electrostatics: Basis and Applications

Explores Coulomb's law, electric fields, capacitance, conductors, and dielectrics in electrostatic systems.

Guided Propagation: Vector Components and Boundary Conditions

Explores guided propagation modes, vector components, boundary conditions, dispersion diagrams, and electromagnetic field reconstruction.

Maxwell for Antennas: Electric and Magnetic Properties

Explores electric and magnetic properties in antennas, including dielectric and magnetic properties, power analysis, Maxwell's equations, and vector potentials.

Perfect Electrical Conductors

Explores the behavior of perfect electrical conductors and their surface properties.

Square Potential Well

Covers the concept of a square potential well and the search for solutions using trigonometric functions.

Boundary Conditions and Basis Decomposition

Explores boundary conditions, basis functions, and PDE solutions using Fourier and Bessel series.

Internal Heat Transfer Effects

Covers internal heat transfer effects in heterogeneous reactions, emphasizing dimensionless numbers and transport effects.

Computational Geomechanics: Unconfined Flow

Explores unconfined flow in computational geomechanics, emphasizing weak form derivation and relative permeability.

Semiconductor Components: N+/N Junction Analysis

Covers the analysis of N+/N junctions in semiconductor components, focusing on diffusion and drift currents and their equilibrium.

Poincaré - Friedrichs: Theorem and Kernel Inequality

Explores the Poincaré - Friedrichs theorem and kernel inequality in constant conditions and boundary uniqueness.