Abstract

This current study investigates the impacts of Joule dissipation, a chemical reaction parameter, on magnetohydrodynamic flow in the boundary layer of an incompressible fluid on Axisymmetric flow through a radially extending surface. The governing system of partial differential equations is changed to dimensionless temperature and concentration differential equations by similarities of transition within the boundary layer. A solution is numerically obtained with the help of the fourth-order Runge-Kutta integration and Shooting techniques. Graphical analysis examines how physical characteristics affect temperature, concentration, and velocity profiles. Further, Nusselt, skin friction, and Sherwood coefficients are calculated for important parameters and presented in the table.