HEAT AND MASS TRANSFER ON AN UNSTEADY MHD FLOW OF JEFFERY FLUID OVER A RADIATING ALIGNED PERMEABLE MOVING PLATE EMBEDDED IN A POROUS MEDIUM WITH INFLUENCE OF THE DUFOUR EFFECT AND HEAT SOURCE/SINK
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Abstract
The objective of this manuscript is to analyze the Heat and Mass transfer effects on an unsteady MHD Jeffrey fluid flow of a viscous, incompressible electrically conducting chemical reacting fluid along an aligned permeable moving plate embedded in a uniform porous medium. The partial differential equations are reduces into nonlinear ordinary differential equations and solved by using the perturbation technique. The behavior of the velocity, temperature and concentration has been discussed with influence of the various physical parameters.
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Vijayaragavan, R. (2019). HEAT AND MASS TRANSFER ON AN UNSTEADY MHD FLOW OF JEFFERY FLUID OVER A RADIATING ALIGNED PERMEABLE MOVING PLATE EMBEDDED IN A POROUS MEDIUM WITH INFLUENCE OF THE DUFOUR EFFECT AND HEAT SOURCE/SINK. Journal of Global Research in Mathematical Archives(JGRMA), 6(3), 05–23. Retrieved from https://jgrma.com/index.php/jgrma/article/view/529
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Research Paper
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