Part 1 of a Python based simulation that models Faraday’s Law. Learn how electromagnetic induction can be visualized and studied using simple programming techniques. #physics #faradayslaw #pythonphysi ...

Part 2 of modeling Faraday’s Law using Python. This tutorial explores electromagnetic induction through code and simulation to better understand changing magnetic fields and induced currents. #physics ...

Designing antennas for electrically large, metal-heavy products such as refrigerators and other smart appliances, vehicles, industrial equipment, and medical devices is harder than it looks. This ...

Reconfigurable lumped elements of resonant structures significantly impact resonant behavior. Full-wave simulations are expensive and time-consuming. Electromagnetic co-simulation provides an ...

COMSOL Multiphysics software lets you model just about anything from electromagnetic fields to structural mechanics and chemical reactions. While many of its capabilities fall outside the interest to ...

ABSTRACT: Magnetic launchers provide safer, faster, and lower-friction alternatives to traditional chemical-fuel systems by using innovative principles such as superconducting magnetic levitation, ...

We propose the wide-field electromagnetic method (WFEM) as a novel solution for real-time HF monitoring in shielded environments. Through 3D numerical simulations and field applications in an ...

Discontinuous Galerkin time-domain (DGTD) methods represent a significant evolution in the numerical simulation of electromagnetic phenomena. By decomposing the spatial domain into a series of ...