Radiation effect on the flow of Magneto Hydrodynamic nanofluids over a stretching surface with Chemical reaction

The flow of nanofluids over a stretching surface has gotten a lot of attention because of its many uses in industry and engineering. In recent years, heat and mass transfer in magneto hydrodynamic nanofluids has become a focus of research. The steady two-dimensional Magneto hydrodynamic nanofluid flow across a stretched sheet is examined in this study under the effect of radiation and chemical reaction. The similarity transformations which are used to convert the partial differential equations into ordinary differential equations, these equations are solved by Mathematica12.0. On a visual level, the impacts of different dimensionless parameters on non-dimensional velocity, temperature and concentration profiles have been investigated. In several exceptional circumstances, the resulting numerical findings are compared to previously published results and excellent agreement is found.