Impact of chemical reaction towards MHD heat and mass transfer of a Jeffrey fluid flow with viscous dissipation and joule heating over a porous stretching sheet

In the presence of an external magnetic field, a study of the effects of chemical reactions on heat and mass transfer in a Jeffrey fluid flow through a porous stretched sheet is done. Similarity variables may be used to translate the controlling nonlinear partial differential equations into nonlinear ordinary differential equations. The MATLAB BVP4c technique is used to generate numerical results. In a graphic representation, the impacts of different restrictions on flow velocity, temperature, and concentration are indicated. There are thus studies done on the friction factor, Nusselt and Sherwood numbers, radiation, and internal heat production or absorption based on various values of the Jeffrey, response rate, and magnetic fields as well as other system factors like as suction and porosity. The study's conclusions are widely accepted in the scientific community today.