A numerical approach for two-dimensional Sutterby fluid flow bounded at a stagnation point with an inclined magnetic field and thermal radiation impacts

The present study investigates the impacts of thermal radiation and inclined magnetic field on Sutterby fluid by capitalizing Cattaneo-Christov heat flux system. suitable transformations from PDE into ODE are achieved strength similarity conversion Well known numerical shooting technique is used along with integrated Runge-Kutta method fourth order. proposed results compared Lobatto 111A which strengthen convergence accuracy fluidic skin friction coefficients Nusselt number numerically exhibited in tabular form, while parameter interests terms velocity ratio parameter, power law index, Prandtl number, Deborah parameter. Here this contemporary investigation, phenomenon an using model has been discussed. resulting complex non-linear tackled nu?merically utilizing a famous obtained MATLAB built-in solver bvp4c. values coefficient reduced narrated some proficient parameters like power-law angle, Reynolds temperature profiles have discussed as well graphically. Outcomes research show that increasing enhancement seen skin-friction reduces number. Moreover, profile declines initially then moves upward channel. stability methodolgy validated through residual errors based different tolerances.