- Lecture 1: Introduction to mathematical models in biology
- Lecture 2: Case study: Modeling structural adaptation of blood vessels
- Lecture 3: Functions of more than one variable; partial derivatives
- Lecture 4: Diffusive transport in one dimension
- Lecture 5: Membrane transport
- Lecture 6: Nernst potential, membrane potential
- Lecture 7: Nerve impulse propagation – Part I
- Lecture 8: Nerve impulse propagation – Part II
- Lecture 9: Diffusion in 3D, gradient, divergence, Laplace operators
- Lecture 10: Oxygen transport
- Lecture 11: Fluids, pressure, viscosity
- Lecture 12: Fluid flow (continued)
- Lecture 13: Harmonic oscillator, complex numbers, the inner ear
- Lecture 14: Compartmental models, pharmacokinetics
- Lecture 15: Population dynamics
- Lecture 16: Infectious diseases