(FUW Trends in Science & Technology Journal, 2021) Oyem, Anselm O.; Mutuku, Winifred; Edogbanya, Helen O.; Oke, Samuel; Garbas, Babangida B.
A study on incompressible, steady magnetohydrodynamic (MHD) stagnation point flow of an electrically
conducting fluid over a flat plate with variable thermal diffusivity and Newtonian heating has been considered. The
governing partial differential equations were transformed using suitable similarity variables to couple nonlinear
differential equations. The transformed equations are solved using the Runge-Kutta fourth order scheme with the
shooting technique method. The effects of the various dimensionless flow parameters are presented in tables and
graphs in terms of velocity and temperature profiles. Numerical computations for skin friction coefficient and
Nusselt number are done. It was observed that thermal radiation parameter decreases the rate of heat transfer on the
surface but increases in skin-friction coefficient while, increase in the viscosity and thermal diffusivity variation
parameter increases both the skin-friction coefficient and rate of heat transfer. The results are in conformity with
existing results