Lectures related to Computational electromagnetics

Validation of Computational Electromagnetics

Explores the challenges in validating computational electromagnetics, emphasizing the importance of reliability functions and techniques for verification and validation.

Finite Element Method: Global vs Local Approach

Compares the global and local approaches of the Finite Element Method.

Finite Element Method: Local Approach

Explores the local approach of the finite element method, covering nodal shape functions, solution restrictions, sizes, boundary conditions, and assembly operations.

Electromagnetics: Basics, Forces, and Applications in MEMS

Covers the basics of magnetism, magnetic substances, scaling of magnets, and applications in MEMS.

Numerics for Fluids, Structures and Electromagnetics: Projects Rules

Students in 'Numerics for Fluids, Structures and Electromagnetics' must complete projects individually or in pairs, following specific rules and evaluation criteria.

Magnetostatics: Ampere's & Gauss's Laws

Explores Ampere's law, magnetic field circulation, and Gauss's law applications.

Electromagnetic Storage Technologies

Explores electromagnetic storage technologies, actuation schemes, and motors, discussing principles, designs, and scaling considerations.

Numerics for Fluids, Structures & Electromagnetics

Covers numerics for fluids, structures, and electromagnetics, emphasizing the importance of eigenvalues and eigenfunctions.

Electromagnetic Problems: Well-Posedness and Convergence

Explores the well-posedness and convergence of electromagnetic problems, including continuity interpolation, Darcy's law, and surjectivity properties.

Lightning-induced Voltages: FDTD Dispersion

Covers lightning-induced voltages, FDTD dispersion, and surge arrester applications.

Computational Geomechanics: Week 4

Explores boundary conditions, time variation in porous media, and storage coefficients in matrices.

Electric Field of Line Charge

Explains the derivation of the electric field of an infinitely long line charge.

Finite Element Discretization: Heat Equation

Explores finite element discretization of the heat equation and its verification process.

Finite Element Method: Local Approach

Explores the local approach in the finite element method, covering nodal shape functions and assembly.

Magnetic Design Challenge

Explores a design challenge with magnetoreological elastomers for creating smart structures and soft machines, involving various design parameters and applications in mechanical engineering and robotics.

Abstract Interpretation in Stainless

Explores abstract interpretation in Stainless, demonstrating its application in program verification and discussing future directions for the project.

Frequency Domain Study: Acoustic Response Analysis

Explores the Frequency Domain study in COMSOL for analyzing acoustic responses to harmonic excitation in various fields.

Eddy Currents: Maxwell Equations and Practical Examples

Delves into eddy currents, their origins, and practical applications in braking systems and energy losses in conductors.

Theory of Images and Equivalence Principle

Explores the theory of images, equivalence principle, conductors, duality, and uniqueness in electromagnetism with practical examples.

Metropolis-Hastings Algorithm

Covers the Metropolis-Hastings and Glauber algorithms for sampling from the Boltzmann distribution in the Curie-Weiss model.