The mean curvature of a surface is an extrinsic parameter measuring how the surface is curved in the three-dimensional space. A surface whose mean curvature is zero at each point is a minimal surface, and it is known that such surfaces are models for soap film. There is a rich and well-known theory of minimal surfaces. A surface whose mean curvature is constant but nonzero is obtained when we try to minimize the area of a closed surface without changing the volume it encloses. An easy example of a surface of constant mean curvature is the sphere. A nontrivial example is provided by the constant curvature torus, whose discovery in 1984 gave a powerful incentive for studying such surfaces.Later, many examples of constant mean curvature surfaces were discovered using various methods of analysis, differential geometry, and differential equations. It is now becoming clear that there is a rich theory of surfaces of constant mean curvature. In this book, the author presents numerous examples of constant mean curvature surfaces and techniques for studying them. Many finely rendered figures illustrate the results and allow the reader to visualize and better understand these beautiful objects. The book is suitable for advanced undergraduates, graduate students, and research mathematicians interested in analysis and differential geometry.
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978-0-8218-3479-4 (9780821834794)
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Schweitzer Klassifikation
Other titles in this series Preliminaries from the theory of surfaces Mean curvature Rotational surfaces Helicoidal surfaces Stability Tori The balancing formula The Gauss map Intricate constant mean curvature surfaces Supplement Programs for the figures Postscript Bibliography List of sources for the figures Index.
