Differential Topology / by Morris W. Hirsch.

Format:

Book

Author/Creator:

Hirsch, Morris W., 1933- author.

Contributor:

SpringerLink (Online service)

Alumni and Friends Memorial Book Fund.

Series:

Graduate texts in mathematics 2197-5612 ; 33.

Graduate Texts in Mathematics, 2197-5612 ; 33

Language:

English

Subjects (All):

Manifolds (Mathematics).

Manifolds and Cell Complexes.

Local Subjects:

Manifolds and Cell Complexes.

Physical Description:

1 online resource (X, 222 pages).

Edition:

First edition 1976.

Contained In:

Springer Nature eBook

Place of Publication:

New York, NY : Springer New York : Imprint: Springer, 1976.

System Details:

text file PDF

Summary:

This book presents some of the basic topological ideas used in studying differentiable manifolds and maps. Mathematical prerequisites have been kept to a minimum; the standard course in analysis and general topology is adequate preparation. An appendix briefly summarizes some of the back- ground material. In order to emphasize the geometrical and intuitive aspects of differen- tial topology, I have avoided the use of algebraic topology, except in a few isolated places that can easily be skipped. For the same reason I make no use of differential forms or tensors. In my view, advanced algebraic techniques like homology theory are better understood after one has seen several examples of how the raw material of geometry and analysis is distilled down to numerical invariants, such as those developed in this book: the degree of a map, the Euler number of a vector bundle, the genus of a surface, the cobordism class of a manifold, and so forth. With these as motivating examples, the use of homology and homotopy theory in topology should seem quite natural. There are hundreds of exercises, ranging in difficulty from the routine to the unsolved. While these provide examples and further developments of the theory, they are only rarely relied on in the proofs of theorems.

Contents:

1 : Manifolds and Maps

0. Submanifolds of ?n+k

1. Differential Structures

2. Differentiable Maps and the Tangent Bundle

3. Embeddings and Immersions

4. Manifolds with Boundary

5. A Convention

2 : Function Spaces

1. The Weak and Strong Topologies on Cr(M, N)

2. Approximations

3. Approximations on ?-Manifolds and Manifold Pairs

4. Jets and the Baire Property

5. Analytic Approximations

3 : Transversality

1. The Morse-Sard Theorem

2. Transversality

4 : Vector Bundles and Tubular Neighborhoods

1. Vector Bundles

2. Constructions with Vector Bundles

3. The Classification of Vector Bundles

4. Oriented Vector Bundles

5. Tubular Neighborhoods

6. Collars and Tubular Neighborhoods of Neat Submanifolds

7. Analytic Differential Structures

5 : Degrees, Intersection Numbers, and the Euler Characteristic

1. Degrees of Maps

2. Intersection Numbers and the Euler Characteristic

3. Historical Remarks

6 : Morse Theory

1. Morse Functions

2. Differential Equations and Regular Level Surfaces

3. Passing Critical Levels and Attaching Cells

4. CW-Complexes

7 : Cobordism

1. Cobordism and Transversality

2. The Thorn Homomorphism

8 : Isotopy

1. Extending Isotopies

2. Gluing Manifolds Together

3. Isotopies of Disks

9 : Surfaces

1. Models of Surfaces

2. Characterization of the Disk

3. The Classification of Compact Surfaces.

Local Notes:

Acquired for the Penn Libraries with assistance from the Alumni and Friends Memorial Book Fund.

Other Format:

Printed edition:

ISBN:

9781468494495

Access Restriction:

Restricted for use by site license.