Candidates who master shortcut methods and practice a wide range of variations can solve them quickly and accurately. Regular practice not only improves speed but also reduces the chances of confusion ...

Abstract: Implicit Runge-Kutta based schemes are proposed for solving the time domain integral equations of electromagnetic theory. The proposed technique maps a Laplace-domain equation to a Ƶ-domain ...

Abstract: In this paper, we discuss a time domain finite element method for the approximate solution of Maxwell's equations. A weak formulation is derived for the electric and magnetic fields with ...

Showing how you can implement a Domain-Drive design Showing how you can implement a CQRS Presentation of the full implementation of an application This is not another proof of concept (PoC) The goal ...

We introduce the variational physics informed neural networks – a general framework to solve differential equations. For more information, please refer to the following: Kharazmi, Ehsan, Zhongqiang ...