But this is only slightly more than half of this book's contents! The last part of the volume is devoted to various "topics" such as Hilbert spaces, tensor products (including a treatment of the determinant as an antisymmetric n-linear form), affine geometry, QR and singular value decompositions, and the umbral calculus ("the first time that this subject has appeared in a true textbook").
The development of the subject is elegant, positively Bourbakian. The proofs are neat, whereas the examples are sparse and would have to be supplemented by the instructor. The exercise sets are good, with occasional hints given for the solution of trickier problems. Appropriate undergraduate prerequisite texts would seem to be Jacobson's Basic Algebra I and the classic text (still in print) of Hoffman and Kunze.
A graduate student with a typical undergraduate linear algebra course behind him or her may experience some culture shock in migrating to the text under review. There are few illustrations, no discussions of history, and no applications other than to other areas of mathematics. The book doesn't hint at the utility of the theory in modern scientific and engineering disciplines. It represents linear algebra qua algebra and does so comprehensively.
Henry Ricardo (firstname.lastname@example.org) is Professor of Mathematics at Medgar Evers College of The City University of New York and Secretary of the Metropolitan NY Section of the MAA. His book A Modern Introduction to Differential Equations was published by Houghton Mifflin in January, 2002; and he is currently writing a linear algebra text.