On the nature of the conformable derivative and its applications to physics

Abstract

The purpose of this work is to show that the Khalil and Katagampoula conformable derivatives are equivalent to the simple change of variables x → xα /α , where α is the order of the derivative operator, when applied to differential functions. Although this means no new mathematics\ is obtained by working with these derivatives, it is a second purpose of this work to argue that there is still significant value in exploring the mathematics and physical applications of these derivatives. This work considers linear differential equations, self-adjointness, Sturm-Liouville systems, and integral transforms. A third purpose of this work is to contribute to the physical interpretation when these derivatives are applied to physics and engineering. Quantum mechanics serves as the primary backdrop for this development.