Welcome to the MAT350 Engineering Mathematics repository! This repository is dedicated to organizing and documenting all materials, resources, and updates related to the Engineering Mathematics course ...

The course is devoted to analytical methods for partial differential equations of mathematical physics. Review of separation of variables. Laplace Equation: potential theory, eigenfunction expansions, ...

'Differential equations' describe how one quantity changes in response to a change in another. Many important examples concern how quantities change, or evolve, with time. Such differential equations ...

Methods for solving linear, ordinary, and partial differential equations of mathematical physics. Green's functions, distribution theory, integral equations, transforms, potential theory, diffusion ...

This course covers the solution of differential equations that arise from problems in engineering and science. Topics include linear equations of first and higher order, systems of linear equations, ...

In this course, you will learn about second order linear differential equations (homogeneous and nonhomogeneous), systems of ordinary differential equations, fourier series, laplace transforms and ...

In this paper, the authors demonstrate the route used for solving differential equations for the engineering applications at UAEU. Usually students at the Engineering Requirements Unit (ERU) stage of ...

Digital prototyping has become an essential tool to speed design cycles. It lets designers replace expensive hardware prototypes with virtual models to predict system behavior, providing insight into ...