an:03555096
Zbl 0356.57001
Hirsch, Morris W.
Differential topology
EN
Graduate Texts in Mathematics. 33. New York - Heidelberg - Berlin: Springer-Verlag. x, 221 p. DM 36.20; \$ 14.80 (1976).
00381985
1976
b
57-01 57Rxx 34C40 54Cxx 55M25 55R25 58A05 58E05 57N05
There has long been a need for an introductory text on differential topology, and the reviewer must be one of many who have contemplated writing such a book. The appearance of a book by such an appropriate author as Morris Hirsch promises to fill this gap. The philosophy, well expressed in the introduction, emphasizing the origins and applications of smooth manifolds, augurs well, as does the list of contents which proceeds through the commonly agreed key ideas of the subject.
I am afraid that after this I was somewhat disappointed. The author's breezy style, while making the descriptive passages more readable, has been unfortunately extended to a breezy attitude to matters of exposition and proof, which does not. The inexperienced graduate student will have trouble already on page 9, where the ``informal discussion of the familiar space \(S^n\)'' uses the terminology \(C^r\) (meaning \(r\) times continuously differentiable) with no reference at all; nor will he find any help on this point in the following pages. A similar piece of clumsiness is that the advertised convention that all manifolds are paracompact is spoilt by the fact that the construction of partitions of unity makes no reference to this convention, the crucial step being covered by the unjustified assertion ``there is a locally finite atlas \(V_\alpha\) such that \(\overline{V}_\alpha\) refines \(U\)''. On these two points, the student would be better advised to read the text (in the same series) by \textit{M. Golubitsky} and \textit{V. Guillemin} on ``Stable mappings and their singularities.'' [New York etc.: Springer-Verlag (1973; Zbl 0294.58004)] whose first two chapters present a well written though concise introduction to several of the topics covered by Hirsch.
Although there are other infelicities of the same kind, these two are perhaps the worst. Another difficulty is that the order of chapters tends to place the harder sections (e.g. function spaces) at the beginning, and the more easily understood geometrical sections (isotopy, surfaces) at the end. The reviewer would prefer to see the integration of vector fields -- certainly a key idea historically -- introduced early and used as a unifying concept through tubular neighbourhoods, isotopy lemmas and Morse theory (which might then be extended as far as the \(h\)-cobordism theorem: the present book discusses the homological and mentions homotopical results, but stops short of handle decompositions).
Another opportunity missed occurs with structure functors (p. 52): these are used only to compare \(C^r\) with \(C^s\) structures, and density of immersions in the stable range. If this level of abstraction is to be used at all, it would be little extra effort to deduce proofs of tubular and collar neighbourhood theorems, and not much more to obtain Smale-Hirsch immersion theory and Gromov's extension thereof.
But these are blemishes on an otherwise good introductory book. After the two introductory chapters, we are taken reasonably thoroughly through transversality, vector bundles and tubular neighbourhoods, degrees and the Euler characteristic, Morse theory, cobordism and isotopy; and the book closes by applying these basic ideas to classify compact surfaces up to diffeomorphism (unfortunately there is a slip in the statement of the final result: one needs the surfaces to be both orientable or both nonorientable).
It is an attractive book to read, though the absence of precision will irritate some; and in some ways goes further than one might expect (a nice proof of Sard's theorem, and non-trivial discussion of the real analytic case).
A large number of exercises are included: these tend to give extensions of results in the text, relatively few are straightforward calculations. I did not notice any misprints.
C. T. C. Wall (Liverpool)
Zbl 0294.58004