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Lecture
Propagation Modes in Waveguides
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Related lectures (29)
Rectangular Waveguides: TE and TM Modes
Covers guided propagation in rectangular waveguides for TE and TM modes.
Rectangular Waveguides: TE Modes
Covers TE modes in rectangular waveguides, including boundary conditions and dispersion diagrams.
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.
Rectangular Waveguides: TM and TE Modes
Explains the propagation modes in rectangular waveguides for TM and TE modes.
Boundary Conditions and Basis Decomposition
Explores boundary conditions, basis functions, and PDE solutions using Fourier and Bessel series.
Rectangular waveguides: TM Modes
Covers the propagation modes in rectangular waveguides, focusing on TM modes and discussing basic equations and solutions.
Guided Propagation: Vector Components and Boundary Conditions
Explores guided propagation modes, vector components, boundary conditions, dispersion diagrams, and electromagnetic field reconstruction.
Vibratory Mechanics: Continuous Systems
Explores vibratory mechanics in continuous systems, covering separation of variables, boundary conditions, and harmonic solutions.
Electric Field Between Infinite Planes: Laplace Equation
Focuses on finding the electric field between infinite planes in electrostatics.
Symmetry in Finite Element Models
Explores using symmetries in Finite Element models to simplify boundary conditions and reduce rigid-body motions.
Eigen Modes and Frequencies
Explores eigen modes, natural frequencies, and the superposition principle in standing waves on a vibrating string.
Stokes Formula in Hydrodynamics
Explores Stokes formula in hydrodynamics, emphasizing flow along a sphere and boundary conditions.
Vibrating String: Mathematical Analysis
Covers the study of a vibrating string, wave equations, sinusoidal waves, and eigenvalue problems.
Waveguides: Modes and Propagation
Explores waveguide theory, TE and TM modes, field distributions, guided propagation, and Bessel functions.
Heat Transfer Applications
Explores the applications of the Fourier equation in heat transfer phenomena.
Vibrating Strings: Mathematical Analysis and Fourier Series
Provides an overview of the mathematical analysis of vibrating strings using Fourier series and Laplace transforms.
Wave Equation Separation of Variables
Explores the method of separation of variables for the wave equation and the importance of Fourier coefficients in solving boundary and initial conditions.
Internal Heat Transfer Effects
Covers internal heat transfer effects in heterogeneous reactions, emphasizing dimensionless numbers and transport effects.
Heterogeneous Reactions: Transport Effects
Explores transport effects in heterogeneous catalysis, including molecular diffusion and Knudsen diffusion in different types of pores.
Boundary Conditions - 1D Systems
Covers boundary conditions for heat diffusion in 1D systems.
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