Abstract:
he study investigates the dynamics of thin film flow over an inclined plane, with a
focus on the influence of magnetic parameters and instability factors on fluid behavior.
By employing numerical solutions to the governing equations using the Runge-Kutta
method, the research explores the variations in film thickness, surface velocity,
temperature profiles, and wall shear stress under different magnetic conditions. Key
findings indicate that increasing the s parameter leads to a decrease in film viscosity
and a consistent alteration in film thickness. The results also demonstrate the significant
impact of s parameters on the thermal boundary layer, suggesting practical implications
for applications in coating technologies and microfluidic devices. Comparative analysis
with previous studies validates the consistency and reliability of the obtained result.
