Flow and Heat Transfer Analysis MHD Nanofluid due to Convective Stretching Sheet

Objectives: The study of flow and heat transfer on a permeable stretching sheet Magnetohydrodynamic nanofluid under the influence convective boundary condition is presented in this article. Mathematical modeling for law conservation mass, momentum, concentration nanoparticles executed. Methods: Governing nonlinear partial differential equations are reduced into ordinary then shooting method with fourth order Adams-Moulton Method employed its solution. Findings: effects magnetic parameter (0  M 2), Thermophoresis (0:1 Nt 0:7) Lewis number (1 Le 4), Suction fw 3), Biot number(0:1 Bi Viscous dissipation(0 Ec 4) axial velocity, temperature profiles shown graphically. Numerical results were compared another numerical approach an excellent agreement was observed. solutions impacts different physical governing parameters illustrated by means graphs tables. Effects viscous dissipation also discussed. Novelty: Despite enormous importance repeated application nanofluids industry science, no attempt has been made to investigate effect linear stretch sheet. Keywords: MHD; Nanofluid; Stretching Sheet; dissipation; Shooting technique;