"Study of Rayleigh-Bénard Magneto Convection in a Micropolar Fluid with Maxwell-Cattaneo Law"
written by Subbarama Pranesh, Rojipura V. Kiran,
published by Applied Mathematics, Vol.1 No.6, 2010
has been cited by the following article(s):
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[3] Second Law Analysis of Magneto-Micropolar Fluid Flow Between Parallel Porous Plates
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[7] Effects of Temperature Modulation and Internal Heat Generation on the onset of Rayleigh-Bénard convection in a Micropolar Fluid
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[9] LINEAR AND NON-LINEAR ANALYSES OF ELECTROTHERMO CONVECTION IN A MICROPOLAR FLUID
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[11] Global weak solutions to a model of micropolar fluids with Maxwell–Cattaneo heat transfer law
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[12] Gradient on Rayleigh–Bénard–Marangoni–Magnetoconvection in a Micropolar Fluid with Maxwell–Cattaneo Law
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[13] Rayleigh-Bénard Chandrasekhar Convection in An Electrically Conducting Fluid using Maxwell-Cattaneo Law with Temperature Modulation of the Boundaries
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[14] Global Weak Solutions to Magnetic Fluid Flows with Nonlinear Maxwell–Cattaneo Heat Transfer Law
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[15] Solutions to a ferrofluid flow with heat transfer
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[16] Effects of controller and non-uniform temperature profile on the onset of Rayleigh-Bénard-Marangoni electro convection in a micropolar fluid
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[17] Global weak solutions to magnetic fluid flows with nonlinear Maxwell-Cattaneo heat transfer law
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[18] Effects of controller and nonuniform temperature profile on the onset of Rayleigh-Bénard-Marangoni electroconvection in a micropolar fluid
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[19] Effects of controller and nonuniform temperature profile on the onset of Rayleigh-Benard-Marangoni electroconvection in a micropolar fluid
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[20] THE STUDY OF EFFECT OF SUCTION-INJECTION-COMBINATION ON THE ONSET OF RAYLEIGH-BÉNARD-MAGNETOCONVECTION IN A MICROPOLAR FLUID USING MAXWELL-CATTANEO LAW
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[21] The effect of imposed time-periodic boundary temperature and electric filed on the onset of Rayleigh-Bénard convection in a micropolar fluid
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[22] Energy growth of disturbances in a non-Fourier fluid
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[23] Uniform Solution on the Combined Effect of Magnetic Field and Internal Heat Generation on Rayleigh–Bénard Convection in Micropolar Fluid
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[24] The Effect Of Imposed Time-Periodic Boundary Temperature And Electric Field On The Onset Of Rayleigh-Bénard Convection In A Micropolar Fluid
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[25] Uniform Solution on the Combined Effect of Magnetic Field and Internal Heat Generation on Rayleigh–Be “nard Convection in Micropolar Fluid
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[26] The Onset of Ferromagnetic Convection in a Micropolar Ferromagnetic Fluid Layer Heated from Below
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[27] Uniform solution on the combined effect of magnetic field and internal heat generation on Rayleigh–Benard convection in micropolar fluid
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[28] RAYLEIGH-BЀNARD CONVECTION IN A SECOND-ORDER FLUID WITH MAXWELL-CATTANEO LAW
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[29] RAYLEIGH-B?NARD CONVECTION IN A SECOND-ORDER FLUID WITH MAXWELL-CATTANEO LAW
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[30] Effect of Non-Uniform Temperature Gradient on the Onset of Rayleigh–Bénard–Magnetoconvection in Micropolar Fluid with Maxwell–Cattaneo Law
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[31] Effect of Non-Uniform Temperature Gradient on the Onset of Rayleigh-Bénard Electro Convection in a Micropolar Fluid
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[32] Effect of Non-Uniform Basic Concentration Gradient on the Onset of Double-Diffusive Convection in Micropolar Fluid
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