Numerical simulation for MHD flow of Casson nanofluid by heated surface

This research intends elaborate the nanoscience and nanotechnology to rheological and thermal aspect of the nanofluids. The conventional heat transfer fluids are mostly described the reduced performing of heat transport tools and increasing the energy charges. For this reason,nanofluids have been familiar such as likely proxies to established practices of fluids due to their intensify aptitude of heat transport coefficient. Here, magnetohydrodynamic of Casson nanofluid toward a stretching sheet is addressed. Furthermore, effect of nonlinear radiated and Arrhenius activation energy with new mass flux theory are explored. The solution of the problems are obtained by using numerical procedure bvp4c technique. The graphical behavior of velocity field is decresed function of Magnetohydrodynamic. The radiation and thermophoresis parameters enhancing the temperature field. Also, the concentration performance for increasing Brownian motion and activation energy parameters.