Abstract: Science Set Journal of Physics

Abstract:
A detailed scientific examination is made to reflect the influences of viscous dissipation and thermal radiation on the boundary layer flow of an electrically conducting Newtonian fluid over a linearly shrinking surface with mass suction parameter (S > 0). Using similarity transformation, the controlling non-linear partial differential equations are shifted into non-linear ordinary differential equations, and then they have been computed numerically by means of Runge-Kutta scheme along with shooting technique on Python software. The result’s accuracy has been tested against newly conferred outcomes, and appreciable accord has been touched on obtainable parameters. The essences of remarkable parameters in velocity and temperature fields have been sketched completely. From this inquisition, it has been realized that the magnitude of velocity decreases with rising mass suction and magnetic interaction and also the temperature upsurges by Eckert number, heat source and thermal radiation parameter. The local skin friction and rate of heat transfer have been derived, computed and presented through tabular form for specified values and plots on graph. The flow of fluid over shrinking surface has a role in industries particularly to pack the product.