Osmophoresis of a spherical vesicle in a circular cylindrical pore

The electrophoretic motion of a dielectric sphere along the centerline of a long circular cylindrical pore is studied theoretically. The imposed electric field is constant and parallel to the nonconductingpore wall, and the particle and wall surfaces are assumed uniformly charged. Electrical double

Previous theoretical analyses of electrostatic interactions for proteins in porous media have assumed that the protein (and pore) surface maintains either constant charge or constant potential during the interaction; however, the actual surface charge is determined by the extent of the surface ioniz

The complete three-dimensional interaction between a spherical shock wave and a submerged #uid-"lled elastic circular cylindrical shell is considered. A hybrid analytical}numerical solving procedure is established. An exact analytical solution in the form of double Fourier series with time-depending

Pulsed-field-gradient (PFG) NMR observations of spatial where E(q, D) is the echo amplitude relative to the amplitude at q Å 0 as a function of the magnitude of the wave restrictions to diffusion have great potential for aiding spatial structure determination in a wide variety of porous media. vecto