Abstract

The combined impact of activation energy and radiation on the magnetohydrodynamic flow of nanofluid near a stagnation point with the electric field and convective boundary conditions are exposed in this study. By using similarity transformations, the non-linear partial differential equations renewed into non-linear ODEs. The resultant non-linear ODEs were solved numerically by using a shooting scheme. The impact of non-dimensional parameters on temperature, velocity, solute concentration, and nanoparticle volume fraction profiles are discussed graphically. The velocity and solute concentration increased by increasing the activation energy.

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