MATH 405 Section # 55456 and Math 411 Section #55469 - SPRING 1996 MODELS IN BIOLOGY Time: 9:05 - 9:55 Monday, Wednesday and Friday Place: Ayres Hall 324 Instructor: Lou Gross, Professor of Mathematics and Ecology Office: 208 Ayres Hall. Office Hours: Monday and Wednesday 11-1 and by appointment, or whenever door is open. Phone: 974-4295 E-mail: gross@math.utk.edu This course will provide an overview of mathematical modeling with emphasis on the biological sciences. The aim is to show how mathematical and analytical tools may be used to explore and explain a wide variety of biological phenomena that are not easily understood with verbal reasoning alone. We will begin by discussing the various purposes for which one might construct a mathematical model, and proceed with a description of the modeling process. This will be followed by an introduction to several mathematical areas which have been found to be extremely useful in biological modeling, in particular difference equations, and ordinary and partial differential equations. Applications of these mathematical techniques will be illustrated in a host of biological fields including molecular, cellular, physiological, ecological, genetical, and agricultural ones. The course is oriented towards biological sciences students who may not have a strong mathematical background as well as mathematics students with little prior biological experience. Prerequisites are a year of calculus (e.g. Math 141-142, 151-152, or the equivalent) as well as some exposure to biology at the 300-level for biology students and at least two years of mathematics for the mathematics students. Math 405 is available for graduate credit, and one of the course objectives is to provide enough insight into biological modeling that participants without a strong math background will be able to read with understanding theoretical papers appearing in the current literature in their respective biological fields of study. Note: Math 405 does not satisfy math requirements for either undergraduate or graduate students majoring in mathematics, so students needing this should register for Math 411. The text for the course is: Mathematical Models in Biology by Leah Edelstein-Keshet. Course grading: The grade will be based on 3 components: (a) Participants will be expected to regularly work problems from the text. These may be worked on within a study group, as long as the instructor is notified, and each individual writes their own results; (b) Each participant will work on an individual project in an area of particular interest to themselves. The results will be presented both orally to the class at the end of the term, as well as in a report written in a style appropriate to a technical journal. The report should be approximately 15-20 double-spaced pages in length, not counting references or figures; and (c) Each participant will take part in a class project, the topic for which will be chosen by the class. The weighting of these components of the grade are: (a) 30%, (b) 50%, (c) 20%. Course Outline: For approximately the first week, lectures will give an overview of the modeling process and a review of biological areas in which mathematical models have been applied. The tentative schedule (which may be modified depending upon particular interests of the participants) will include the following sections from the text: Chapter 1, sections 1-7,9,10 Chapter 2, sections 1-10 Chapter 3, sections 1-4,6 Chapter 4, sections 1-11 Chapter 5, sections 1-10 Chapter 6, sections 1-5 Chapter 7, sections 1-3 Chapter 8, sections 1-5 Chapters 9 and 10 as time allows