Unsteady MHD oscillatory Casson fluid flow past an inclined vertical porous plate in the presence of chemical reaction with heat absorption and Soret effects

The purpose of this paper is to perform unsteady hydrodynamic flow over an inclined plate embedded in a porous medium with Soret‐aligned magnetic field and chemical reaction. Once momentum, energy, and mass are equal, they can be combined using the diffusion equation to yield the dimensionless momentum/energy/mass model. Computations were performed to analyze the behavior of fluid velocity, temperature and concentration on the inclined vertical plate with the variation of emerging physical parameters like aligned magnetic field, Casson parameter, inclined angle, chemical reaction including soret parameter. The findings derived from skin friction, Nusselt number, and Sherwood number are included in the tables provided for different parameters. The results match with a special case of previously published work. From the present analysis, it is reported that the presence of angle of inclination, aligned magnetic field, and Casson fluid parameters sustains a retarding effect on velocity. The velocity decreases with increasing angle of inclination, aligned magnetic field parameter, and Casson fluid parameter. Comparisons with previously published work performed and the results are found to be in excellent agreement.