Inclined MHD Effects in Tapered Asymmetric Porous Channel with Peristalsis: Applications in Biomedicine

This paper emphasized an inclined magnetohydrodynamics (MHD) effects in tapered asymmetric porous channel with peristalsis the presence of slip boundary conditions. Here we considered two-dimensional a medium. The fundamental assumptions long wavelength and low Reynolds number are applied relevant nonlinear equations for momentum, heat, mass transfer as part mathematical modeling. subjected to conditions have been solved numerically by Mathematica software. Various essential physical characteristics velocity, temperature, concentration, heat rate captured graphically end. velocity profile is found parabolic various involved parameters. It observed that embedded parameters behave exact opposite manner when compared temperature concentration distributions. sinusoidal behavior also displayed. unique aspect this effort specifically relate Joule heating, Darcy resistance, magnetic field peristaltic flow non-Newtonian Jeffrey fluid under influence Such preferences wide range applications engineering, biology, industry. outcomes presented work proficient medical treatment cancer using MHD. MHD aids controlling blood pressure during systolic diastolic regulating stream.