Math 28 - Winter 2012
Dartmouth College
home
general information
homework
office hours
professor
course
description |
textbook |
scheduled lectures |
exams |
grades |
homework policy |
honor principle |
disabilities |
religious observances |
Course Description: |
---|
Math 28 is a course in combinatorial mathematics. Combinatorics is a branch of mathematics
that studies sets (usually finite) of objects that satisfy some properties. In particular,
it is concerned with "counting" the objects in a set (enumerative combinatorics), with
determining when an object with a required list of properties exist, with constructing and
analyzing objects meeting certain properties (as in combinatorial designs and matroid theory),
with finding "largest", "smallest", or "optimal" objects (extremal combinatorics and combinatorial
optimization), and with finding algebraic structures these objects may have (algebraic combinatorics).
This year the course is being taught as a "guided discovery" course.
This means that the primary text for the course is a book of problems with just
enough prose so that the problems will make sense. It is available at the Wheelock Books in
the form of course notes. By working these problems, students will discover
for themselves the main theorems of combinatorial mathematics (and their
proofs) and examples of how these theorems are used. Students are encouraged
to work in groups on the problems. Students are expected to work as many
of the problems as they can and submit them. Certain problems will be designated
each week in advance as "mandatory" problems. These problems will be graded
and returned to the student.
Class time will be devoted largely to a discussion of the problems and the broad themes in combinatorial mathematics that the problems illustrate. This discussion will be split between whole class discussion, including possible student presentations of their ideas, and small group discussions.
"Mathematics is not for spectators; in order to gain in understanding, confidence, and enthusiasm one has to participate." M.A. Armstrong