Inclined Magnetic Unsteady MHD Non-Newtonian Fluid Flow between Parallel Plates

The study investigates the dynamic and magnetic characteristics of unsteady magnetohydrodynamic (MHD) non-Newtonian fluid flow between parallel plates when the fluid flow is inclined. This research explores the complex interaction between magnetic forces, non-Newtonian fluid behavior, and the inclination of the flow within confined geometries.Non-Newtonian fluids, exhibiting viscosity characteristics deviating from classical Newtonian fluids, are frequently encountered in industrial processes and biological systems. Understanding their behavior in the presence of magnetic fields, especially under unsteady flow conditions, is crucial for optimizing various engineering applications.The presence of a magnetic field, commonly known as magnetohydrodynamics, introduces an additional dimension to the study. Magnetic forces interact with the fluid flow, leading to intricate flow patterns and behaviors. When the fluid flow is inclined, it adds an extra layer of complexity, influencing the direction and velocity of the flow.As research in this area progresses, the potential for advancements in industrial processes and environmental applications becomes increasingly evident. The synthesis of magnetic forces, non-Newtonian fluid behavior, and inclined flow dynamics opens new avenues for technological breakthroughs and sustainable engineering solutions.