# Difference between revisions of "Math 622: Matrix Theory 2"

(→Minimal learning outcomes) |
m (moved Math 622 to Math 622: Matrix Theory 2) |
||

(5 intermediate revisions by 2 users not shown) | |||

Line 17: | Line 17: | ||

=== Prerequisites === | === Prerequisites === | ||

+ | |||

+ | Permission of instructor | ||

=== Minimal learning outcomes === | === Minimal learning outcomes === | ||

Line 23: | Line 25: | ||

</div> | </div> | ||

− | As a course directed toward research in combinatorial matrix theory | + | As a course directed toward research in combinatorial matrix theory. Topics are picked according to the developing interests of the research community and of faculty and student researchers. The emphasis in this course will be to develop some facility in a current research topic. Topics covered in past courses include the Colin de Verdiere parameter, the minimum rank problem for graphs, and Ramanujan graphs. |

− | + | Students should learn the foundational theorems in the fields being covered. Students should learn to find and read research papers in those fields. Students should learn to solve challenging problems, develop proofs of theorems on their own, and present those proofs clearly and coherently with appropriate illustrative examples. | |

− | + | === Textbooks === | |

− | + | Typically the course material will come from recent research papers. | |

=== Additional topics === | === Additional topics === |

## Latest revision as of 16:43, 3 April 2013

## Contents

## Catalog Information

### Title

Matrix Theory 2.

### Credit Hours

3

### Prerequisite

### Description

Research topics in combinatorial matrix theory.

## Desired Learning Outcomes

### Prerequisites

Permission of instructor

### Minimal learning outcomes

As a course directed toward research in combinatorial matrix theory. Topics are picked according to the developing interests of the research community and of faculty and student researchers. The emphasis in this course will be to develop some facility in a current research topic. Topics covered in past courses include the Colin de Verdiere parameter, the minimum rank problem for graphs, and Ramanujan graphs.

Students should learn the foundational theorems in the fields being covered. Students should learn to find and read research papers in those fields. Students should learn to solve challenging problems, develop proofs of theorems on their own, and present those proofs clearly and coherently with appropriate illustrative examples.

### Textbooks

Typically the course material will come from recent research papers.