Abstract
The purpose of existing article is to analyze the effects of non-uniform heat source/sink and magnetic dipole in flow of ferromagnetic Maxwell liquid over a stretched sheet. Highlights of Brownian movement and thermophoresis are explored within the sight of magnetic dipole. Effects of thermal and concentration stratification are additionally considered. Apposite transformations are employed to obtain the nonlinear differential system. The procured nonlinear framework is locked in with the assistance of numerically by shooting technique. Velocity and temperature gradients are discussed and analyzed graphically.