Hydrodynamic Boundary Layer Flow of Chemically Reactive Fluid over Exponentially Stretching Vertical Surface with Transverse Magnetic Field in Unsteady Porous Medium

This article addresses the hydrodynamic boundary layer flow of a chemically reactive fluid over an exponentially stretching vertical surface with transverse magnetic field in unsteady porous medium. The problem is modelled as time depended dimensional partial differential equations which are transformed to dimensionless and solved by means approximate analytic method. results illustrated graphically numerically compared previously published shown good agreement. Physically increasing Eckert number amplifies kinetic energy fluid, novelty, under influence effective controlling kinematics Interestingly, whilst thermal thickness velocity well concentration presence strength chemical reaction have retarding effect on flow. Also, parameter permeability medium reducing skin friction relevant practice because reduced enhances efficiency system. current study useful solar collector systems materials processing.