Course Information

Fall 2008

Previous Courses

In the past at UMaine I've taught MAT 232 (Intro to Principles of Statistical Inference), MAT 262 (Linear Algebra), MAT 401 (Capstone course), MAT 451 (Differential Equations and Dynamical Systems), MAT 487 (Numerical Analysis), and various independent-study MAT 400 (Topics in Mathematics) courses. Here is a schedule of previous courses I've taught:

Summer 2008

I was an instructor/mentor at the Mathematical and Theoretical Biology Institute. Here is my MTBI 2008 web page for those participating (and here is a link to the official MTBI page for those who aren't familiar with it).

Spring 2008

MAT262, Linear Algebra
MAT451, Differential Equations and Dynamical Systems

Fall 2007

MAT262, Linear Algebra (2 sections)
MAT400, Advanced Linear Algebra
- Here is a list of errata I found in the textbook, Applied Linear Algebra by Olver and Shakiban (Pearson / Prentice Hall, 2006). The authors have now included these errors in their own list (with acknowledgment), but I'll leave my document here for historical purposes (let's say as documentation of service to the profession).

Summer 2007

I was an instructor/mentor at the Mathematical and Theoretical Biology Institute. Many of the notes are available for those who participated.

Spring 2007

MAT 400, Topics in Math: Modeling and Simulation, mainly population and epidemiological modeling (including spatial stochastic models in discrete and continuous time), and writing simulations in Matlab and R.
MAT262 (Linear Algebra).

Fall 2006

MAT262, Linear Algebra (2 sections)

Summer 2006

Many of my notes for MTBI are available for those who participated.

Spring 2006

MAT262, Linear Algebra

Fall 2005

MAT262, Linear Algebra (2 sections)

Spring 2005

MAT401, Capstone Course in Mathematics. Different people teach this course differently. The way I teach it, it's a course in mathematical modeling and simulation. The course covered basic modeling using difference equations and differential equations; basic population ecology models, and spatial population models and epidemiological models; finding equilibria and doing linearized stability analysis of difference and differential equations; stochastic processes (Poisson processes), and the connections between probability, simulations, and differential equations; computational statistics. We spent half the class time in the computer lab, using Matlab.

Fall 2004

MAT262, Linear Algebra (2 sections)
MAT400, Topics in Math: Epidemiological Models
MAT487, Numerical Analysis
- Here is a list of errata I found in the textbook, Numerical Methods Using Matlab, 4th edition by Mathews and Fink (Pearson / Prentice Hall, 2004). After I sent this list to the authors, they seem to have included many items from it into their own list of errata, although unfortunately without any acknowledgment.

Spring 2004

MAT262, Linear Algebra
MAT400, Topics in Mathematics: Complex Adaptive Systems
MAT401, Capstone Course in Mathematics

Fall 2003

MAT232, Principles of Statistical Inference
MAT262, Linear Algebra
MAT400, Topics in Mathematics: Spatial Population Models

Spring 2003

MAT232, Principles of Statistical Inference (2 sections)
MAT400, Topics in Mathematics: Cellular Automata Modeling

Fall 2002

MAT262, Linear Algebra

Earlier

I taught BTRY101 and BTRY102, a sequence called "Intro to Biometry" at Cornell during Fall 2000 through Spring 2002. Here is some information about those two courses (mainly of historical interest now).