Unsteady MHD Tangent Hyperbolic Nanofluid Past a Wedge Filled with Gyrotactic Micro-Organism

In this numerical investigation, tangent hyperbolic nanofluid past a wedge-shaped surface filled with gyrotactic micro-organisms has been examined. The simulations have performed in the presence of Ohmic heating and linear thermal radiation effect. After using similarity transformation to convert modeled PDEs into ODEs, system ODEs is tackled aid shooting technique. For authenticity code, present data compared already existing results literature. impact important governing parameters on velocity, concentration, temperature, motile density distribution examined graphically. Furthermore, values drag, heat transfer rate, mass number are computed represented tabular form. Our indicate that Nusselt enhanced for growing unsteadiness velocity ratio parameters. Moreover, significant raise observed as magnetic gets bigger whereas temperature profile depressed. above proposed model, it can be concluded by micro-organism.