Hydrodynamic properties of rigid macromolecules composed of ellipsoidal and cylindrical subunits

## Abstract A general formalism, which includes translation–rotation coupling, is proposed for calculating translational and rotational transport properties, as well as intrinsic viscosities, of rigid macromolecules with an arbitrary shape. This formalism is based on Brenner's theory of translation

Hydrodynamic properties (intrinsic viscosity [t/], translational diffusion D and sedimentation So) of samples and fractions of hydroxypropylcellulose (HPC) have been investigated in a number of solvents. The relationships between [q], D and S O and the degree of polymerization of HPC in dimethylacet

The water flow across porous, semipermeable membranes associated with osmosis and filtration under a variety of conditions is analysed and compared to macromolecular diffusion across free-liquid boundaries, diffusion and sedimentation in the ultracentrifuge, and tracer diffusion of water. This study

The fluorescence anisotropy of a general rigid body is formally the sum of five exponentials. We show that, to a high degree of approximation, there are relationships between the five time constants. As we define the time constants here, T I 2 75, ~2 z 73, and ~1 -l + 3 ~4 -l = 4 T 2 -l . In practi