Biophysical Chemistry

10.

Hydrodynamics and Transport

10.1.

Diffusion Processes

10.1.1.

10.1.1.1.

Concentration Gradients

10.1.1.2.

Diffusion Coefficients

10.1.1.3.

Time-Dependent Diffusion

10.1.2.

Stokes-Einstein Relation

10.1.2.1.

Hydrodynamic Radius

10.1.2.2.

Viscosity Effects

10.1.2.3.

Temperature Dependence

10.1.3.

Rotational Diffusion

10.1.3.1.

Anisotropic Motion

10.1.3.2.

Correlation Times

10.1.3.3.

10.2.

Sedimentation Analysis

10.2.1.

Analytical Ultracentrifugation

10.2.1.1.

Instrumentation

10.2.1.2.

Optical Systems

10.2.1.3.

10.2.2.

Sedimentation Velocity

10.2.2.1.

Boundary Analysis

10.2.2.2.

Sedimentation Coefficients

10.2.2.3.

Size Distribution Analysis

10.2.3.

Sedimentation Equilibrium

10.2.3.1.

Molecular Weight Determination

10.2.3.2.

Self-Association Studies

10.2.3.3.

Thermodynamic Analysis

10.3.

Electrophoretic Methods

10.3.1.

Electrophoretic Mobility

10.3.1.1.

Charge-to-Mass Ratios

10.3.1.2.

10.3.1.3.

10.3.2.

Gel Electrophoresis

10.3.2.1.

Polyacrylamide Gels

10.3.2.2.

10.3.2.3.

Denaturing Conditions

10.3.3.

Capillary Electrophoresis

10.3.3.1.

High-Resolution Separations

10.3.3.2.

Electroosmotic Flow

10.3.3.3.

Detection Methods

10.4.

10.4.1.

Viscosity Measurements

10.4.1.1.

Capillary Viscometers

10.4.1.2.

Rotational Viscometers

10.4.1.3.

Falling Ball Methods

10.4.2.

Intrinsic Viscosity

10.4.2.1.

Molecular Shape Information

10.4.2.2.

Mark-Houwink Relations

10.4.2.3.

Polymer Conformation

Previous

9. Structural Determination Methods

Go to top

Next

11. Molecular Interactions and Binding