Abstract
The primary goal of present communication is to investigate influence of magnetic fields, chemical reactions and heat sources/sinks upon parabolic fluid flow on an isothermal plate. The flow interpreting equations have a two-part solution approach. First, using dimensionless parameters, the principal equations of flow are symmetrically converted into nonlinear dimensionless PDEs. Second, for those non-dimensional equations, the Laplace transformation approach is used to provide close form precise solutions. The outcome of dimensionless factors upon temperature, concentration and velocity with heating and cooling plate has been discussed with help of graphs. It is shown that heat absorption parameter reduces fluid temperature and velocity in case of cooling the plate. Also fluid velocity and temperature increases with time. Furthermore, increment in chemical reaction parameter reduces concentration.
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