Hall Effect and Temperature Distribution on Unsteady Micropolar Fluid Flow in a Moving Walls

Authors

  • Mekonnen Shiferaw Ayano Department of Mathematics, University of Swaziland, Swaziland
  • Negussie Tadege Demeke Mechanical Engineering Department, Arba Minch university, Ethiopia

Keywords:

unsteady, micropolar fluid, Hall effect, migenatohydrodynamic.

Abstract

Unsteady incompressible electrically conducting

References

R.S. Nanda and H.K. Mohanty(1970).

J.T. Yen , (1963).

S. D. Nigam and S.N. Singh(1960).

R. A. Alpher(1961).

H. A. Attia(2006).

S. D.Nigam and S. N. Singh (1960). Heat transfer by laminar flow between parallel platesunder the action of transverse magnetic field, Q. J. Mech. Appl. Math., pp.13, 85.

I.A. Hassanien and M.A. Mansour(1990).

M. E. Erdogan and C.E. Imrak(2005).

M. E. Erdogan and C.E. Imrak(2007).

P.R.Gupta and K.L. Arora(1974).

H. A. Attia(2009).,

H. A. Attia (2005)., Unsteady Couette-Poiseulle flow with temperature dependent physicalproperties in the presence of a uniform magnetic field, Malays. J. Sci. Part B}, 24(2).

S.Muondwe, M. Emmah, J. Njoroge, M. Wafula (2014) .

A.C.Eringen(1966).

T. Ariman, M.A. and Turk, N.D.(1974).

Downloads

Published

2015-12-10

How to Cite

Ayano, M. S., & Demeke, N. T. (2015). Hall Effect and Temperature Distribution on Unsteady Micropolar Fluid Flow in a Moving Walls. International Journal of Sciences: Basic and Applied Research (IJSBAR), 24(7), 60–75. Retrieved from https://gssrr.org/index.php/JournalOfBasicAndApplied/article/view/4937

Issue

Vol. 24 No. 7 (2015)

Section

Articles

License

Authors who submit papers with this journal agree to the following terms