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Chemistry
Applied and Interdisciplinary Chemistry
Biophysical Chemistry
1. Introduction to Biophysical Chemistry
2. Biological Molecules as Physical Systems
3. Water and the Biological Environment
4. Fundamental Physical Forces
5. Thermodynamics of Biological Systems
6. Chemical Kinetics and Dynamics
7. Macromolecular Structure
8. Spectroscopic Methods
9. Structural Determination Methods
10. Hydrodynamics and Transport
11. Molecular Interactions and Binding
12. Statistical Mechanics Applications
Hydrodynamics and Transport
Diffusion Processes
Fick's Laws
Concentration Gradients
Diffusion Coefficients
Time-Dependent Diffusion
Stokes-Einstein Relation
Hydrodynamic Radius
Viscosity Effects
Temperature Dependence
Rotational Diffusion
Anisotropic Motion
Correlation Times
NMR Relaxation
Sedimentation Analysis
Analytical Ultracentrifugation
Instrumentation
Optical Systems
Data Analysis
Sedimentation Velocity
Boundary Analysis
Sedimentation Coefficients
Size Distribution Analysis
Sedimentation Equilibrium
Molecular Weight Determination
Self-Association Studies
Thermodynamic Analysis
Electrophoretic Methods
Electrophoretic Mobility
Charge-to-Mass Ratios
Buffer Effects
pH Dependence
Gel Electrophoresis
Polyacrylamide Gels
Agarose Gels
Denaturing Conditions
Capillary Electrophoresis
High-Resolution Separations
Electroosmotic Flow
Detection Methods
Viscometry
Viscosity Measurements
Capillary Viscometers
Rotational Viscometers
Falling Ball Methods
Intrinsic Viscosity
Molecular Shape Information
Mark-Houwink Relations
Polymer Conformation
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9. Structural Determination Methods
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11. Molecular Interactions and Binding