EFFECT OF ELECTRIC FIELD FLOW ON NANOFLUID OVER STRETCHABLE SURFACE
This work explores numerically the influence of the electric field on nanofluid over a stretching sheet surface. The ordinary differential equation (ODE’s) are obtained from the partial differential equations (PDE’s) employing the transformation technique. Hence the transformed model are computed with the respective conditions using Keller Box method. The functions of the different parameter values on the flow field profiles are graphically presented and analysed. The current result is in good agreement with previous research studied.