| Cell Growth / Chapter 1: |
| Exponential Growth or Decay / 1.1: |
| Determination of Growth or Decay Rates / 1.2: |
| The Method of Least Squares / 1.3: |
| Nutrient Uptake by a Cell / 1.4: |
| Inhomogeneous Differential Equations / 1.5: |
| Growth of a Microbial Colony / 1.6: |
| Growth in a Chemostat / 1.7: |
| Interacting Populations: Predator-Prey System / 1.8: |
| Mutation and Reversion in Bacterial Growth / 1.9: |
| Problems |
| Enzyme Kinetics / Chapter 2: |
| The Michaelis-Menten Theory / 2.1: |
| Early Time Behavior of Enzymatic Reactions / 2.2: |
| Enzyme-Substrate-Inhibitor System / 2.3: |
| Cooperative Properties of Enzymes / 2.4: |
| The Cooperative Dimer / 2.5: |
| Allosteric Enzymes / 2.6: |
| Other Allosteric Theories / 2.7: |
| Hemoglobin / 2.8: |
| Graph Theory and Steady-State Enzyme Kinetics / 2.9: |
| Enzyme-Substrate-Modifier System / 2.10: |
| Enzyme-Substrate-Activator System / 2.11: |
| Aspartate Transcarbamylase / 2.12: |
| Tracers in Physiological Systems / Chapter 3: |
| Compartment Systems / 3.1: |
| The One-Compartment System / 3.2: |
| Indicator-Dilution Theory / 3.3: |
| Continuous Infusion / 3.4: |
| The Two-Compartment System / 3.5: |
| Leaky Compartments and Closed Systems / 3.6: |
| The Method of Exponential Peeling / 3.7: |
| Creatinine Clearance: A Two-Compartment System / 3.8: |
| The "Soaking Out" Experiment / 3.9: |
| The Three-Compartment Catenary System / 3.10: |
| The n-Compartment System / 3.11: |
| Biological Fluid Dynamics / Chapter 4: |
| The Equations of Motion of a Viscous Fluid / 4.1: |
| Poiseuille's Law / 4.2: |
| Properties of Blood / 4.3: |
| The Steady Flow of Blood Through a Vessel / 4.4: |
| The Pulse Wave / 4.5: |
| The Swimming of Microorganisms / 4.6: |
| Diffusion in Biology / Chapter 5: |
| Fick's Laws of Diffusion / 5.1: |
| The Fick Principle / 5.2: |
| The Unit One-Dimensional Source Solution / 5.3: |
| The Diffusion Constant / 5.4: |
| Olfactory Communication in Animals / 5.5: |
| Membrane Transport / 5.6: |
| Diffusion Through a Slab / 5.7: |
| Convective Transport: Ionic Flow in an Axon / 5.8: |
| The Gaussian Function / 5.9: |
| Ultracentrifugation / 5.10: |
| The Sedimentation Velocity Method / 5.11: |
| An Approximate Solution to the Lamm Equation / 5.12: |
| Sedimentation Equilibrium / 5.13: |
| Transcapillary Exchange / 5.14: |
| Cell Growth / Chapter 1: |
| Exponential Growth or Decay / 1.1: |
| Determination of Growth or Decay Rates / 1.2: |
| The Method of Least Squares / 1.3: |
| Nutrient Uptake by a Cell / 1.4: |
| Inhomogeneous Differential Equations / 1.5: |
