# A Guide to Advanced Linear Algebra

### By Steven H. Weintraub

Catalog Code: DOL-44
Print ISBN: 978-0-88385-351-1
Electronic ISBN: 978-0-88385-967-4
255 pp., Hardbound, 2011
List Price: $40.95 Member Price:$33.95
Series: Dolciani Mathematical Expositions

Knowledge of linear algebra, which occupies a central place in modern mathematics, is essential for anyone studying such subjects as Galois theory, function spaces, homology, cohomology—or any other area of mathematics. Written for advanced students, Steven Weintraub’s A Guide to Advanced Linear Algebra is about vector spaces and linear transformations. Taking a theoretical approach to his topics, Weintraub offers proofs of all results. Except for briefly mentioning Hilbert matrices, the author does not treat computational issues.

Preface
1. Vector spaces and linear transformations
2. Coordinates
3. Determinants
4. The structure of linear transformations I
5. The structure of linear transformations II
6. Bilinear sesquilinear, and quadratic forms
7. Real and complex product spaces
8. Matrix groups as Lie groups
A. Polynomials
B. Modules over principal ideal domains
Bibliography
Index

### Excerpt: Preface (p. VIII)

We regard linear algebra as part of algebra, and that guides our approach. But we have followed a middle ground. One of the principal goals of this book is to derive canonical forms for linear transformations on finite dimensional vector spaces, i.e., rational and Jordan canonical forms. The quickest and perhaps most enlightening approach is to derive them as corollaries of the basic structure theorems for modules over a principal ideal domain (PID). Doing so would require a good deal of background, which would limit the utility of this book. Thus our main line of approach does not use these, though we indicate this approach in an appendix. Instead we adopt a more direct argument.