Biomagnetic Flow with CoFe2O4 Magnetic Particles through an Unsteady Stretching/Shrinking Cylinder

The study of biomagnetic fluid flow and heat transfer containing magnetic particles through an unsteady stretching/shrinking cylinder was numerically investigated in this manuscript. Biomagnetic namely blood taken as base CoFe2O4 particles. Where acts electrically conducting along with magnetization/polarization. main concentration is to a time-dependent that passed two dimensional under the influence thermal radiation, source partial slip condition which has not been studied yet far best knowledge authors. This model consistent principles magnetohydrodynamic ferrohydrodynamic. equations, such momentum, energy described physically by system coupled, nonlinear differential equation appropriate boundary conditions converted into ordinary equations using suitable similarity transformations. resultant ODEs solved applying efficient numerical technique based on common finite differencing method central differencing, tridiagonal matrix manipulation iterative procedure. values assigned parameters are compatible human body conditions. numerous results concerning velocity, temperature pressure field, well skin friction rate transfer, presented for exhibiting physical significance, ferromagnetic interaction parameter, field volume fraction, curvature etc. findings velocity decreased number enhanced gradually both stretching or shrinking cases whereas, opposite behavior found coefficient. parameter also monitored occurs cases. Comparisons were made check accuracy present published literature be excellent agreement. Hopefully, proposed will control rate, hyperthermia.