Abstract
Exploring the behavior of viscoelastic dielectric liquids on an inclined stretching sheet involves a comprehensive mathematical analysis. Employing a Runge-Kutta-based shooting strategy, this study delves into the system's non-linear Ordinary Differential Equations (ODEs). The research investigates how physical parameters like the Prandtl number, dielectric interaction parameter, viscoelastic parameter, Grashof number, and angle of inclination influence both velocity and temperature. Through graphical representations, the study sheds light on the impact of these factors and compares its findings with existing data. This intriguing combination of dielectric liquid behaviour under varying inclinations holds significant potential applications in Mines, Materials, and Fuels.
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