Abstract:
This study investigates the problem of Magneto hydrodynamics rotational stagnation point flow over a shrinking and stretching sheet with heat generation and absorption. To simplify the analysis, the partial differential equations governing the flow were transformed into ordinary nonlinear coupled differential equations using similarity variables. The Adomian decomposition method was employed to obtain analytical solutions. These solutions were compared with existing literature, demonstrating good agreement. The influence of various dimensionless parameters, such as Rotational parameter, Thermal Grashof number, Concentration Grashof number, Magnetic parameter, Prandtl number, Heat generation, Schmidt number, shrinking/stretching parameter, and Suction/injection parameter, were graphically presented. Additionally, the magnetic parameter was found to enhance the fluid temperature. The findings from this study contribute to a better understanding of the behavior of Magnetohydrodynamics rotational stagnation point flow over a shrinking and stretching sheet with heat generation and absorption, and may have practical implications in related engineering and industrial applications.
Comparative Analysis of Magneto HydroDynamics Rotational Stagnation on Point Flow between a Stretching and Shrinking Sheet with Heat Generation. GET MORE, ACTUARIAL SCIENCE PROJECT TOPICS AND MATERIALS
