Steady MHD flow of a Visco-Elastic fluid Through Horizontal Channel Bounded by Horizontal Plates in Porous Medium in Presence of Transverse Magnetic field

AUTHOR AND
AFFILIATION

HEMENDRA SARMA
Department of Mathematics, Rangia College, Rangia-781354, Assam (India)

E-mail: hemensarma.nlb@gmail.com

KEYWORDS:

Visco-elastic, MHD, stretching sheet, stretching Reynolds number, Hartmann number, permeable parameter, skin-friction.

Issue Date:

August 2015

Pages:

ISSN:

2319-8044 (Online) – 2231-346X (Print)

Source:

Vol.27 – No.2

PDF

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DOI:

jusps-A

ABSTRACT:

The steady laminar flow of an electrically conducting viscoelastic fluid through horizontal channel, bounded by two horizontal plates, lower being a stretching sheet and the upper being permeable plate bounded by porous medium in presence of transverse magnetic field, has been discussed analytically. The expressions for skin-friction coefficient at both the surfaces have been derived and discussed numerically, their values being presented through table.

Copy the following to cite this Article:

HEMENDRA SARMA, “Steady MHD flow of a Visco-Elastic fluid Through Horizontal Channel Bounded by Horizontal Plates in Porous Medium in Presence of Transverse Magnetic field”, Journal of Ultra Scientist of Physical Sciences, Volume 27, Issue 2, Page Number , 2016


Copy the following to cite this URL:

HEMENDRA SARMA, “Steady MHD flow of a Visco-Elastic fluid Through Horizontal Channel Bounded by Horizontal Plates in Porous Medium in Presence of Transverse Magnetic field”, Journal of Ultra Scientist of Physical Sciences, Volume 27, Issue 2, Page Number , 2016

Available from: http://www.ultrascientist.org/paper/337/


The steady laminar flow of an electrically conducting viscoelastic fluid through horizontal channel, bounded by two horizontal plates, lower being a stretching sheet and the upper being permeable plate bounded by porous medium in presence of transverse magnetic field, has been discussed analytically. The expressions for skin-friction coefficient at both the surfaces have been derived and discussed numerically, their values being presented through table.