Effect of Double-Diffusive Stagnation point flow of Eyring– Powell Nanofluid on a Slender Stretching Sheet with Non-uniform heat Source Sink and Inclined Magnetic Field

In the present paper, effects of an inclined magnetic field and a non-uniform heat source sink on double diffusive convective stagnation point flow in slender stretching sheet are studied. The suitable similarity transformation is utilized for conversion nonlinear differential equations. These converted equations solved by means Differential Transformation method (DTM) with support symbolic software Mathematica. Further, appropriate parameters velocity profile, solute, nanoparticle concentration temperature profiles shown graphically some discussions. It found that decreases rise parameter. Because applying uniform normal to direction gives Lorentz force. This force has tendency slow down fluid boundary layer. Also enhance thermal profile system. But, opposite behavior can be seen solute profiles. Such results useful design structure materials, where implementation variable thickness weight stretched element boosts usage materials.