Abstract
The present work concentrates on two-dimensional steady incompressible mixed convection flow of a second-grade fluid past a vertical cylinder with the inclined magnetic field. The Newtonian heating with suction is incorporated into this study. Simulation is conducted via Runge-Kutta-4 with a shooting method for the transformed system of nonlinear equations. The influence of the governing parameters on the dimensionless velocity, temperature, skin friction, heat transfer rate, and finally streamlines and isotherms is incorporated. The significant outcomes of the current investigation are that increment in suction parameter uplifts temperature while it peters out the velocity field. Another important outcome of the present analysis is that velocity augments due to an increment in the second-grade parameter while it reduces the temperature. The fluid temperature is grown due to the strengthening of Biot number, magnetic parameter, and Eckert number while that peter out due to incremental mixed convection parameter. Furthermore, it is also noticed that the Nusselt number escalated with the enhancement of the second-grade parameter.