Thermal transfer is important in industrial use applications. The inclusion of hybrid nanoparticles in different compositions has been extensively studied by researchers due to its broad applications. Flow science expressions under boundary layer theory, and then, similarity transformation was applied to convert PDEs into associated ODEs, and these converted computational equations were solved using Finite Element Procedure (FEP) in the symbolic computational package MAPLE 18.0, the applicability of The effectiveness of the FEM is achieved by processing the independent analysis of the lattice. The reliability of the FEM is given by calculating the surface drag force and the heat transfer coefficient. This methodology is very effective and can be easily implemented in MAPLE 18.0 for other highly nonlinear problems. It is noted that the thermal profile varies directly with the magnetic coefficient, And the reverse direction is recorded for the Prandtl number.
Research paper link
https://www.mdpi.com/2504-3110/5/3/119