Teaching

As you might expect, the major focus of my teaching is to introduce biologists to the joys and benefits of mathematical and computational approaches to studying biological problems.

BIOS 311 Computer Simulation in Biology

BIOS 418/518 Methods in Computational Neuroscience

Cable equation derivation Winter 2007 (Cable_eq_derivation.pdf)

SS cable equation solutions Winter 2007 (SS_Cable_eq_solns.pdf)

Solutions with branching 2007 (Solutions_with_branching.pdf)

Transient solutions, equivalent cyl, passive 2007 (Transient_Solutions.pdf)

Compartmental models, parameters for models 2007 (Compartmental_Models.pdf)

Hodgkin-Huxley equations part 1 2007 (Hodgkin-Huxley-equations-part_1.pdf)

Hodgkin-Huxley part 2 2007 (Hodgkin-Huxley-part_2.pdf)

V-D conductances 1 2007 (voltage_dependent_conductances_1.pdf)

V-D conductances 2 2007 (voltage_dependent_conductances_2.pdf)

Synapse Models 1 2007 (Synapse_Models_1.pdf)

Synapse Models 2 2007 (Synapse_Models_2.pdf)

Building networks 2007 (Building_networks.pdf)

Calcium-dependent-conductances 2007 (Calcium-dependent-conductances.pdf)

Dendritic spines 2007 (Dendritic_spines.pdf)

CPGs 2007 (Central_Pattern_Generators.pdf)

Stochastic modeling 2007 (Stochastic_Models.pdf)

Team teaching in:

BIOS 414/514 Molecular and Cellular Neurobiology

Cable properties lectures Fall 2006 (Cablelecture.pdf)

Resting potential lecture Fall 2006 (Restingpotential.pdf)

Action potential lecture Fall 2006 (Actionpotential.pdf)

Voltage clamp and Other currents lecture Fall 2006 (VC_and_OC.pdf)

Chemical Neurotransmission lectures Fall 2006 (Synapselecture.pdf)

Mathematical Modeling lectures Fall 2006 (MATH_lecture.pdf)

Information Processing lectures Fall 2006 (IP_lecture.pdf)

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