Exact Solution of an Unsteady Buoyancy Force Effects on MHD Free Convective Boundary Layer Flow of Non-Newtonian Jeffrey Fluid

S. Rama Mohan*, B. Ramana**, N. Maheshbabu***
* Department of Mathematics, PACE Institute of Technology & Sciences (Autonomous), Ongole, Andhra Pradesh, India.
** Department of Mathematics, QIS College of Engineering & Technology (Autonomous), Ongole, Andhra Pradesh, India.
*** Department of Mathematics, Dr. S. R. K. Govt Arts College, Yanam, Puducherry, India.
Periodicity:January - April'2023

Abstract

In the study of buoyancy pressure effects on non-Newtonian Jeffrey fluid that go with the drift through unstable heat and mass change in the presence of a temperature gradient heat source and a primary chemical response inside the transferring species, the dimensionless, unstable, coupled, linear perturbation method is used to resolve equations with partial differentials. All relevant flow parameters are given in analyses and graphical displays. The effects of various flow amounts on temperature, concentration, frictional pressure, rate factor, and the cost of mass and heat transmission are quantified and discussed using graphs and tables.

Keywords

Heat Source, Thermal Radiation, Chemical Reaction, Jeffrey Fluid.

How to Cite this Article?

Mohan, S. R., Ramana, B., and Maheshbabu, N. (2023). Exact Solution of an Unsteady Buoyancy Force Effects on MHD Free Convective Boundary Layer Flow of Non-Newtonian Jeffrey Fluid. i-manager’s Journal on Physical Sciences, 2(1), 12-19.

References

[2]. Anika, N. N., & Hoque, M. M. (2013). Thermal buoyancy force effects on developed flow considering hall and ion-slip current. Annals of Pure and Applied Mathematics, 3(2), 179-188.
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