Magnetohydrodaynamic Slip Flow Of Heat And Mass Transfer Over An Exponentially Stretching Permeable Sheet Embedded In A Porous Medium With Chemical Reaction

Abstract

In this thesis, the problem of the magneto hydrodynamic slips flow of heat and mass transfer over an exponentially stretching permeable sheet embedded in a porous medium with chemical reaction. Using a suitable similarity transformation, the governing partial differential equations are transformed in to system of none linear higher ordinary differential equations. The resulting equations are solved numerically using implicit finite difference scheme known as Keller boxmethod by implementing in math lab. The effects of flow of parameter like. Hartmann number M the permeability parameter K, Prandtl number Pr heat source Q and chemical reaction Rc are demonstrated graphically for velocity profile, temperature profile and concentration profile.