MHD flow with heat and mass transfer over a radiating cone due to a point sink in presence of partial and solutal slips

Abstract

An analysis has been carried out to study the effects of velocity, thermal and solutal slips on a magnetohydrodynamic, steady, and incompressible laminar boundary layer flow with heat and mass transfer over a radiating cone due to a point sink. The problem has been solved by using a semi-analytical method called DTM-Padé. Graphical representations are obtained for velocity, temperature, and concentration distributions for various values of the governing parameters like suction/ injection parameter s, magnetic parameter M, velocity slip L, thermal slip δ1, concentration slip δ2, radiation parameter R, Prandtl number Pr, and Schimdt number Sc. Also, the numerical results obtained for skin-friction coefficient have been compared with the corresponding results available in the literature and a good conformity has been found in between them.