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Laminar shear in a ferrofluid: Stability studies
A. Mukherjee
,
A. Vaidya
, P. Yecko
Mathematics
Research output
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Article
›
peer-review
1
Scopus citations
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Keyphrases
Magnetic Field
100%
Spatially Variable
100%
Ferrofluid
100%
Stability Study
100%
Planar Couette Flow
100%
Laminar Shear
100%
Flow Direction
50%
Viscosity
50%
Angular Momentum
50%
Numerical Calculation
50%
Linear Momentum
50%
External Field
50%
Zero Value
50%
Plane Symmetry
50%
Inflow Boundary
50%
Couette
50%
Periodic Boundary Conditions
50%
Spatial Gradient
50%
COMSOL
50%
Coupled Equations
50%
Outflow Boundary
50%
Steady Solution
50%
Dissipative Effects
50%
Momentum Equation
50%
Linear Stability Analysis
50%
Channel Flow
50%
Instability Criterion
50%
Magnetic Fluid Flow
50%
Mid-plane
50%
Varying Magnetic Field
50%
Coupled System
50%
Engineering
Couette Flow
100%
Magnetic Field
100%
Fluid Flow
50%
Angular Momentum
50%
Fluid Viscosity
50%
Numerical Calculation
50%
Applied Magnetic Field
50%
External Field
50%
Channel Flow
50%
Linear Momentum
50%
Linear Stability Analysis
50%
Momentum Equation
50%
Coupled Equation
50%
Symmetry Plane
50%
Coupled System
50%
Flow Direction
50%
Steady Solution
50%
Periodic Boundary
50%
Boundary Condition
50%
Physics
Magnetic Field
100%
Ferrofluid
100%
Couette Flow
66%
Angular Momentum
33%
Fluid Flow
33%
Channel Flow
33%
Periodic Boundary Condition
33%
Magnetic Fluid
33%