Overview
- Authors:
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P. L. Antonelli
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Department of Mathematics, University of Alberta, Edmonton, Canada
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R. S. Ingarden
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Institute of Physics, N. Copernicus University, ToruĊ, Poland
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M. Matsumoto
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Institute of Physics, University of Kyoto, Kyoto, Japan
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Table of contents (6 chapters)
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- P. L. Antonelli, R. S. Ingarden, M. Matsumoto
Pages 1-31
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- P. L. Antonelli, R. S. Ingarden, M. Matsumoto
Pages 32-57
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- P. L. Antonelli, R. S. Ingarden, M. Matsumoto
Pages 58-96
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- P. L. Antonelli, R. S. Ingarden, M. Matsumoto
Pages 97-132
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- P. L. Antonelli, R. S. Ingarden, M. Matsumoto
Pages 133-200
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- P. L. Antonelli, R. S. Ingarden, M. Matsumoto
Pages 201-284
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Back Matter
Pages 285-311
About this book
The present book has been written by two mathematicians and one physicist: a pure mathematician specializing in Finsler geometry (Makoto Matsumoto), one working in mathematical biology (Peter Antonelli), and a mathematical physicist specializing in information thermodynamics (Roman Ingarden). The main purpose of this book is to present the principles and methods of sprays (path spaces) and Finsler spaces together with examples of applications to physical and life sciences. It is our aim to write an introductory book on Finsler geometry and its applications at a fairly advanced level. It is intended especially for graduate students in pure mathemat ics, science and applied mathematics, but should be also of interest to those pure "Finslerists" who would like to see their subject applied. After more than 70 years of relatively slow development Finsler geometry is now a modern subject with a large body of theorems and techniques and has math ematical content comparable to any field of modern differential geometry. The time has come to say this in full voice, against those who have thought Finsler geometry, because of its computational complexity, is only of marginal interest and with prac tically no interesting applications. Contrary to these outdated fossilized opinions, we believe "the world is Finslerian" in a true sense and we will try to show this in our application in thermodynamics, optics, ecology, evolution and developmental biology. On the other hand, while the complexity of the subject has not disappeared, the modern bundle theoretic approach has increased greatly its understandability.
Authors and Affiliations
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Department of Mathematics, University of Alberta, Edmonton, Canada
P. L. Antonelli
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Institute of Physics, N. Copernicus University, ToruĊ, Poland
R. S. Ingarden
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Institute of Physics, University of Kyoto, Kyoto, Japan
M. Matsumoto