MHD Stagnation Point of Blasius Flow for Micropolar Hybrid Nanofluid toward a Vertical Surface with Stability Analysis

This study investigates the magnetohydrodynamics of a micropolar fluid consisting hybrid nanofluid with mixed convection effects. By using dimensionless set variables, resulting equations ordinary differential are solved numerically bvp4c solver in MATLAB. In present work, water-based alumina–copper is analytically modeled modified thermophysical properties. The reveals that highest critical value opposing flow (ϕ1 = ϕ2 2%). comparing Cu–water (ϕ1= 0%, ϕ2= 1%) as well water 0%), nanoparticle volume fraction enhances dynamic viscosity performance and surface shear stress. addition, augmentation magnetic field parameter will increase physical quantities Rex1/2 Cf, Rex Mx, Rex−1/2 Nux. result from stability inquiry discloses first solution more physically stable trustworthy. It proven could contribute to controlling system, i.e., engineering operations medical field. this theoretical research can be benchmark for experimental research.