Study on Impact of Magnetic Dipole and Thermal Radiation on Flow/Heat Transfer of Jeffery Fluid over Stretching Sheet with Suction/Injection

In many industries, the knowledge of boundary layer flow and transfer heat over a stretching sheet is applied. Getting desired product from these industrial processes usually problem. Hence, purpose this examination was to establish impact thermal radiation magnetic dipole on movement conveyance in Jeffery fluid surface that linear. The model equations problem are converted into coupled nonlinear ordinary differential employing similarity transformations. Chebyshev spectral collocation method utilized get solution for fluid’s velocity temperature. different parameters varied determine their influence; effects represented by tables graphs as determined prescribed temperature (PST) flux (PHF) processes. Results particular cases compared with those gotten Generic algorithm Nelder Mead method, very good agreement exists. Thermal causes an increment PST PHF processes, while reduces increases case whereas it exhibits both increase decrease case.