An analysis of heat source/sink influence on MHD fluid flow past a vertically enhanced plate with radiations
This paper explores the heat source/sink influence on irregular flow across a uniformly moving stretch sheet with of magnetic field. Flow equations are tackled with Laplace transformation technique. For various physical factors, concentration, temperature, and velocity are determined numerically and explained with graphics. Tables and diagrams are used to explain shear stress, Sherwood number and Nusselt number. The temperature is demonstrated to be reduced by the radiation and heat absorption parameters. With time, concentration improves. Furthermore, when the viscosity increases, fluid velocity decreases. Complementary error and exponential functions are used to illustrate the results.