Magnetic dipole and thermal radiation effects on hybrid base micropolar CNTs flow over a stretching sheet: Finite element method approach

The finite element method (FEM) is applied to study the impacts of prominent parameters on microrotation, velocity, and temperature know characteristics flow incompressible water-ethylene glycol base fluids (60% water + 40% ethylene glycol) with single-wall multiwall carbon nanotube nanoparticles micropolar ferromagnetic fluid due porous stretching surface. A magnetic dipole significant strength together field contributes better saturation nanoparticles. Appropriate similarity transforms are acquire ordinary differential form governing non-linear partial equations resulting discretized in prospectus FEM. detailed parametric has been carried out, results presented graphical tabular form. increment interaction parameter slows down velocity but it upsurges microrotation thermal distribution. (MWCNT) comparison (SWCNT) a greater impact profiles also compared profile. validation MATLAB code numerical scheme verified an excellent present previous ones existing literature.