FerrohydrodynamicsThe behavior and dynamics of magnetic fluids receive a coherent, comprehensive treatment in this high-level study. One of the best classical introductions to the subject, the text covers most aspects of particle interaction, from magnetic repulsion to quasi-stable equilibriums and ferrohydrodynamic instabilities. Suitable for graduate students and researchers in physics, engineering, and applied mathematics. |
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analysis angular momentum applied field applied magnetic field behavior Bernoulli equation body force boundary condition carrier coefficient colloidal component constant continuity equation Coulomb’s law defined definition denotes derived developed differential dipole direction dispersion divergence theorem dyadic energy equation of motion equilibrium expression ferrofluid ferrohydrodynamics ferromagnetic FHD Bernoulli field H first fixed flat flow flow field fluidized beds flux force density fraction function given gives gradient gravity heat influence instability integral interface layer linear magnetic field magnetic fluid magnetic force magnetic liquid magnetic particles magnetically stabilized magnetite magnetostatic magnitude material Maxwell stress tensor nonmagnetic normal oriented permeability perturbation phase polar pole pressure problem relationship represents result right side Rosensweig rotation satisfied saturation magnetization shear Shliomis shown in Figure solids solution solvent stress tensor superparamagnetism surface tangential temperature term theorem theory thermal uniform unit vector viscosity volume wave number yield stress zero