Hall current and thermophoresis effects on magnetohydrodynamic mixed convective heat and mass transfer thin film flow

In this exploration the intense force of applied magnetic field and thermophoresis on a
 magnetohydro dynamic movement with dissipative effect and thermal radiation past a stretching sheet
 are analyzed. A p owerful magnet having utilization in uniformity is involved transversely to the
 stretching space in which the space is taken to have a linear movement under the constant reference
 temp erature and concentration. Thermophoresis takes place to discuss the amount of material
 accumulation variation on the space and mixed convection controls the fluid flow, heat transfer and
 concentration. Hall current yields a cross movement in a direction p erp endicular to x and y -axis
 making movement in three directions which is deeply affected by the sensitivity of fluid film size. The
 problem motion equations have b een mo deled by employing appropriate substitutions which generate
 high nonlinear coupled ordinary differential equations with relevant conditions. The solution of the
 transformed systems of equations has b een achieved by employing analytical scheme which provides
 relations for the velo cities, temp erature and concentration comp onents. The findings comparison to
 the published works in the given tables are demonstrating an excellent agreement. Graphs are
 discussed to elucidate the effects of various parameters . The exploration manifests mathematical
 formulation of the conversion of study in ( x, y ) co ordinates into the study in ( x , y, z ) co ordinates.

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