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Description for Tubes
Hardback. Offers an understanding of Weyl's formula for the volume of a tube, its roots and its implications. This work includes historical notes and Mathematica drawings. Series: Progress in Mathematics. Num Pages: 280 pages, biography. BIC Classification: PBMP. Category: (P) Professional & Vocational. Dimension: 234 x 156 x 17. Weight in Grams: 597.
In July 1998, I received an e-mail from Alfred Gray, telling me: " . . . I am in Bilbao and working on the second edition of Tubes . . . Tentatively, the new features of the book are: 1. Footnotes containing biographical information and portraits 2. A new chapter on mean-value theorems 3. A new appendix on plotting tubes " That September he spent a week in Valencia, participating in a workshop on Differential Geometry and its Applications. Here he gave me a copy of the last version of Tubes. It could be considered a final version. There was ... Read more
In July 1998, I received an e-mail from Alfred Gray, telling me: " . . . I am in Bilbao and working on the second edition of Tubes . . . Tentatively, the new features of the book are: 1. Footnotes containing biographical information and portraits 2. A new chapter on mean-value theorems 3. A new appendix on plotting tubes " That September he spent a week in Valencia, participating in a workshop on Differential Geometry and its Applications. Here he gave me a copy of the last version of Tubes. It could be considered a final version. There was ... Read more
Product Details
Format
Hardback
Publication date
2003
Publisher
Birkhauser Verlag AG Switzerland
Number of pages
280
Condition
New
Series
Progress in Mathematics
Number of Pages
280
Place of Publication
Basel, Switzerland
ISBN
9783764369071
SKU
V9783764369071
Shipping Time
Usually ships in 15 to 20 working days
Ref
99-15
Reviews for Tubes
"The new book by Alfred Gray will do much to make Weyl's tube formula more accessible to modern readers. The first five chapters give a careful and thorough discussion of each step in the derivation and its application to the Gauss–Bonnet formula. Gray's pace is quite leisurely, and a gradualte student who has completed a basic differential geometry course will ... Read more