CONVECTIVE HEAT AND MASS TRANSFER EFFECTS OF ROTATION ON PARABOLIC FLOW PAST AN ACCELERATED ISOTHERMAL VERTICAL PLATE IN THE PRESENCE OF CHEMICAL REACTION OF FIRST ORDER

A diagnostic philosophy of rotational impacts on unsteady parabolic flow past of an impenetrable and electrically leading liquid past a consistently quickened boundless isothermal perpendicular plate within sight of a first-order chemical response with the absence of magnetohydrodynamic has been accounted for in the examination. All the while, the plate temperature is raised to T¥ and concentration
level close to the plate is occupied with time. The dimensionless differential condition is resolved with the help of the Laplace-change strategy. The temperature and velocity concentration profiles have been perused for various actual boundaries, first-order chemical response boundary, mass Grashof range, warm Grashof range, Schmidt number, Prandtl number, and time t. 2-D figures have been