Overview

An ideal text for undergraduate courses in projective geometry, this volume begins on familiar ground. It starts by employing the leading methods of projective geometry as an extension of high school-level studies of geometry and algebra, and proceeds to more advanced topics with an axiomatic approach.An introductory chapter leads to discussions of projective geometry's axiomatic foundations: establishing coordinates in a plane; relations between the basic theorems; higher-dimensional space; and conics. Additional topics include coordinate systems and linear transformations; an abstract consideration of coordinate systems; an analytical treatment of conic sections; coordinates on a conic; pairs of conics; quadric surfaces; and the Jordan canonical form. Numerous figures illuminate the text.

Full Product Details

Author:   Abraham Seidenberg
Publisher:   Dover Publications Inc.
Imprint:   Dover Publications Inc.
Dimensions:   Width: 14.00cm , Height: 1.40cm , Length: 21.60cm
Weight:   0.263kg
ISBN:  

9780486446189

ISBN 10:   0486446182
Pages:   240
Publication Date:   04 January 2006
Audience:   General/trade ,  General
Format:   Paperback
Publisher's Status:   Active
Availability:   To order  
Stock availability from the supplier is unknown. We will order it for you and ship this item to you once it is received by us.

Table of Contents

I. Projective Geometry as an Extension of High School Geometry 1. Two approaches to projective geometry 2. An initial question 3. Projective invariants 4. Vanishing points 5. Vanishing lines 6. Some projective noninvariants 7. Betweenness 8. Division of a segment in a ratio 9. Desargues' Theorem 10. Perspectivity; projectivity 11. Harmonic tetrads; fourth harmonic 12. Further theorems on harmonic tetrads 13. The cross-ratio 14. Fundamental Theorem of Projective Geometry 15. Further remarks on the cross-ratio 16. Construction of the projective plane 17. Previous results in the constructed plane 18. Analytic construction of the projective plane 19. Elements of linear equations II. The Axiomatic Foundation 1. Unproved propositions and undefined terms 2. Requirements on the axioms and undefined terms 3. Undefined terms and axioms for a projective plane 4. Initial development of the system; the Principle of Duality 5. Consistency of the axioms 6. Other models 7. Independence of the axioms 8. Isomorphism 9. Further axioms 10. Consequences of Desargues' Theorem 11. Free planes III. Establishing Coordinates in a Plane 1. Definition of a field 2. Consistency of the field axioms 3. The analytic model 4. Geometric description of the operations plus and times 5. Setting up coordinates in the projective plane 6. The noncommutative case IV. Relations between the Basic Theorems V. Axiomatic Introduction of Higher-Dimensional Space 1. Higher-dimensional, especially 3-dimensional projective space 2. Desarguesian planes and higher-dimensional space VI. Conics 1. Study of the conic on the basis of high school geometry 2. The conic, axiomatically treated 3. The polar 4. The polar, axiomatically treated 5. Polarities VII. Higher-Dimensional Spaces Resumed 1. Theory of dependence 2. Application of the dependency theory to geometry 3. Hyperplanes 4. The dual space 5. The analytic case VIII. Coordinate Systems and Linear Transformations 1. Coordinate systems 2. Determinants 3. Coordinate systems resumed 4. Coordinate changes, alias linear transformations 5. A generalization from n = 2 to n = 1 6. Linear transformations on a line and from one line to another 7. Cross-ratio 8. Coordinate systems and linear transformations in higher-dimensional spaces 9. Coordinates in affine space IX. Coordinate Systems Abstractly Considered 1. Definition of a coordinate system 2. Definition of a geometric object 3. Algebraic curves 4. A short cut to PNK 5. A result for the field of real numbers X. Conic Sections Analytically Treated 1. Derivation of equation of conic 2. Uniqueness of the equation 3. Projective equivalence of conics 4. Poles and polars 5. Polarities and conics Appendix to Chapter X A1. Factorization of linear transformation into polarities XI. Coordinates on a conic 1. Coordinates on a conic 2. Projectivities on a conic XII. Pairs of Conics 1. Pencils of conics 2. Intersection multiplicities XIII. Quadric Surfaces 1. Projectivities between pencils of planes 2. Reguli and quadric surfaces 3. Quadric surfaces over the complex field 4. Some properties of the sphere XIV. The Jordan Canonical Form Bibliographical Note Index

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