Rotating MHD flow of second grade fluid through porous medium between two vertical plates with chemical reaction, radiation absorption, Hall, and ion slip impacts

The present investigative paper explores the hydromagnetic liberated convective along with oscillating flow of an optically thinner second grade fluid delimited during two parallel absorbent walls under the influences of an externally applied transverse magnetic field into a permeable medium. The radiative heat flux and radiation absorption effects are taking into account for considered problem. The leading equations are solved for the velocity, temperature, and concentration fields making utilization of Laplace transformation methodology. The impacts of a mixture of relevant flow parameters on concentration, temperature, and velocity distribution, in addition to the friction factor coefficients, Nusselt number, and Sherwood number, are found and explored using graphs along with tabular format. The magnitude of the velocity field is climbs by an augment in penetrability parameter, and enhances with increase in Hall and ion slip parameters and also skin friction factor coefficients uplift by mounting in Hartmann number.