Closed curves in \(E^ 2\) and \(S^ 2\) whose total squared curvatures are almost minimal (Q1357633)
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scientific article; zbMATH DE number 1019777
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | Closed curves in \(E^ 2\) and \(S^ 2\) whose total squared curvatures are almost minimal |
scientific article; zbMATH DE number 1019777 |
Statements
Closed curves in \(E^ 2\) and \(S^ 2\) whose total squared curvatures are almost minimal (English)
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10 June 1997
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Let \(\varepsilon\) be positive and let \(\gamma\) be a closed plane curve of length \(L\) with rotation number \(n\neq 0\) and curvature \(k\). The author proves that if \[ \int_\gamma k^2 ds<{(2\pi n)^2 \over L}+ {2\pi^2n^2 \varepsilon^2 \over L^3}, \] then \(\gamma\) lies between two concentric circles of radii \(r\) and \(R\) with \(|R-r|< \varepsilon\). A similar result is proved for closed curves in the 2-dimensional unit sphere.
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almost minimal total squared curvature
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Euclidean plane
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2-sphere
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