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Affine Differential Geometry: Geometry of Affine Immersions
Contributor(s): Nomizu, Katsumi (Author), Katsumi, Nomizu (Author), Takeshi, Sasaki (Author)
ISBN: 0521441773     ISBN-13: 9780521441773
Publisher: Cambridge University Press
OUR PRICE:   $134.90  
Product Type: Hardcover
Published: January 1995
Qty:
Annotation: This is a self-contained and systematic account of affine differential geometry from a contemporary viewpoint, not only covering the classical theory, but also introducing the modern developments that have happened over the last decade. In order both to cover as much as possible and to keep the text of a reasonable size, the authors have concentrated on the significant features of the subject and their relationship and application to such areas as Riemannian, Euclidean, Lorentzian and projective differential geometry. In so doing, they also provide a modern introduction to the last. Some of the important geometric surfaces considered are illustrated by computer graphics, making this a physically and mathematically attractive book for all researchers in differential geometry, and for mathematical physicists seeking a quick entry into the subject.
Additional Information
BISAC Categories:
- Mathematics | Geometry - Differential
- Mathematics | Topology - General
Dewey: 516.36
LCCN: 93046712
Series: Cambridge Tracts in Mathematics (Hardcover)
Physical Information: 0.84" H x 6.22" W x 9.26" (1.1 lbs) 280 pages
 
Descriptions, Reviews, Etc.
Publisher Description:
Affine differential geometry has undergone a period of revival and rapid progress in the past decade. This book is a self-contained and systematic account of affine differential geometry from a contemporary view. It covers not only the classical theory, but also introduces the modern developments of the past decade. The authors have concentrated on the significant features of the subject and their relationship and application to such areas as Riemannian, Euclidean, Lorentzian and projective differential geometry. In so doing, they also provide a modern introduction to the latter. Some of the important geometric surfaces considered are illustrated by computer graphics.