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Transport phenomena
TLDR
Pressure Changes with Elevation, Archimedes’ Law, and Buoyancy: Definitions and Fundamental Equations. Expand
THEORY OF TRANSPORT ACROSS A MEMBRANE MODEL.
TLDR
The authors have developed a molecular theory of transport applicable at least for certain idealized systems and attempted to develop adequate expressions for diffusion in these three regions under steady state conditions in the absence of any chemical reactions or temperature gradient. Expand
Regulation and control mechanisms in biological systems
Thermodynamics features of homeostatic systems aspects of systems behaviour in stationary states biochemical control mechanisms mathematical aspects some control mechanism models nonlinearExpand
ON THE PERMEABILITY OF ELECTROLYTES THROUGH BIOLOGICAL MEMBRANES.
TLDR
The permeability and reflection coefficients of transport of a simple electrolyte across a biological membrane is rigorously derived using electroneutrality, vanishing net electric current density and equation of conservation. Expand
Influence of complex formation on drug transport.
TLDR
It is shown that compounding a drug with substances of lower diffusion coefficients, with which the drug will form a complex, leads to enhancement of the flux of the drug; compounding with substances with similar diffusion coefficients results in a reduction of the transport rate of unassociated drug (flux). Expand
Reaction rate profiles in membrane systems.
TLDR
It is shown that under the approximation of neglect of nonlinear terms, inclusion of coupling of fluxes does not alter the general structure of differential equation for reaction rate. Expand
Statistical theory of transport of electrolytes across a charged membrane.
TLDR
Mobile ion-localized ion interaction pertuzbations are obtained in the spirit of Debye-Huckel formalism and the influence of localized charges on the direction of flux of a specific kind of ion is demonstrated. Expand
Statistical mechanical theory of electrolyte diffusion inside a charged membrane.
TLDR
It is demonstrated that the ratio of diffusion coefficients of unlike ions should equal the ratios of their respective velocities under conditions of vanishing net electric current. Expand
On the criteria of active transport.
TLDR
The considerations are shown to be consistent with the proposed explanation of active transport, which was based on consideration of intercorrelation of fluxes, changes in iso-thermal perturbations of pair interactions, and the effects of localized charges on the magnitude and direction of flux of a specified kind of ion. Expand
Hydrodynamic analog model for pharmacokinetics I: model and its usefulness.
TLDR
A novel hydrodynamic model for drug distribution, when the drug is administered intravenously in physiological systems, is presented and presents fresh insights into pharmacokinetic problems. Expand
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