Lie group analysis of hydromagnetic flow and heat transfer of a power-law fluid over stretching surface with temperature-dependent viscosity and thermal conductivity
2016 ◽
Vol 27
(12)
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pp. 1650150
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The symmetry group of MHD boundary layer flow and heat transfer of a non-Newtonian power-law fluid over a stretching surface under the effects of variable fluid properties is investigated. The similarity equations with the corresponding boundary conditions are solved numerically by using a shooting method with the fourth order Runge–Kutta integration scheme. Comparisons of the numerical method with the existing results in the literature are made and obtained an excellent agreement. It is observed that the heat transfer rate diminishes with an increase in magnetic parameter and variable thermal conductivity parameter. Further, the opposite influence is found with an increase in variable viscosity parameter.
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2009 ◽
Vol 44
(1)
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pp. 1-12
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2009 ◽
Vol 52
(11-12)
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pp. 2902-2913
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2014 ◽
Vol 19
(2)
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pp. 259-273
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2008 ◽
Vol 35
(5)
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pp. 417-433
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Keyword(s):
Keyword(s):
2010 ◽
Vol 53
(5-6)
◽
pp. 879-888
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