In the intricate world of engineering and scientific analysis, the Finite Element Method (FEM) stands out as a powerful tool that transforms complex physical problems into manageable computational tasks. At the heart of FEM lies the concept of ‘meshing’, a critical step where the physical domain is discretized into smaller, simpler pieces known as elements. These elements, when combined, form a ‘mesh’ that represents the physical structure in a numerical form. The effectiveness of an FEM simulation largely hinges on the quality of this mesh, making it a focal point for engineers and scientists alike.
