On Solution of fractional kinetic equation Involving k-Struve function

TL;DR

This paper investigates solutions to fractional kinetic equations involving k-Struve functions using Laplace transform, presenting properties and methods that can be extended to related problems in mathematical physics.

Contribution

It introduces a Laplace transform-based method for solving fractional kinetic equations involving k-Struve functions, highlighting their properties and potential applications.

Findings

Derived solutions for fractional kinetic equations with k-Struve functions

Presented properties of k-Struve functions relevant to fractional equations

Method can be extended to other fractional problems in physics

Abstract

In the present research article, we investigate solutions for fractional kinetic equations, involving $\mathtt{k}$-Struve functions, some of the salient properties of which we present. The method used is Laplace transform based. the methodology and results can be adopted and extended to various related fractional problems in mathematical physics.