Physical characteristics of variable thermal conductivity and MHD flow across a continually stretched sheet

Abstract

The primary purpose of this paper is to investigate the flow and thermal properties of a continuously stretching sheet. To determine temperature, variable thermal conductivity is also encountered. Furthermore, the flow problem considers the convective circumstances of heat and mass transfer. By lowering the number of independent components, the governing equations are reduced into non-dimensional types, which are then numerically solved using the RKF-4 method and shooting methodology. A visualization evaluation of the entangled flow properties is done for velocity concentration and temperature distributions. It is found that the fluid concentration is discovered to be more significant in the [Formula: see text] case, followed by the [Formula: see text] and [Formula: see text] cases. Furthermore, the efficiency of the [Formula: see text] the [Formula: see text] parameter’s shifting values control field.