Heat And Mass Transfer On Effects Of Rotation On Magnetohydrodynamic-Parabolic Flow Past An Accelerated Isothermal Vertical Plate With First Order Chemical Reaction

Abstract

An analytic methodology of rotation effects on parabolic unsteady flow past of an impenetrable and electrically conducting fluid past a uniformly accelerated limitless isothermal perpendicular plate with first order chemical response in the presence of magnetohydrodynamic has been investigated. The issue identified with the rotation allegorical, first order substance response, warmth and mass dispersion are being concentrated because of their application in many processes. The dimensionless partial differential equation is determined with the support of Laplace-change technique. The concentration, temperature and velocity profiles have been read for different physical criterion like magnetic field parameter, first order chemical reaction parameter, mass Grashof range, thermal Grashof range, Schmidt range, Prandtl range and time t. It is seen that the dominant velocity increment with expanding estimation of warm Grashof or mass Grashof range. It is likewise seen that the speed increment with diminishing attractive field boundary or pivot boundary. The pattern is simply switched regarding the substance response boundary.