As the laws of physics are expressed in a manner that makes their invariance
under coordinate transformations manifest, they should be written in terms of tensors.
Furthermore, tensors make manifest the characteristics and behaviors of electromagnetic
fields through inhomogeneous, anisotropic, and compressible media. Electromagnetic
fields are expressed completely in tensor form, Fαβ, which implies both electric field E
→ and magnetic field B → rather than separately in the vector fields. This study
presents the Mathematica platform that generates and transforms a second-rank
antisymmetric field-strength tensor Fαβ and whiskbroom pattern in Minkowski space. The
platforms enhance the capabilities of students and researchers in tensor analysis and
improves comprehension of the elegant features of complete structure in physics.