arXiv:1711.01787 Abstract | arXiv Analytics

arXiv:1711.01787 [math.FA]Abstract References Reviews Resources

Extremal Banach-Mazur distance between a symmetric convex body and an arbitrary convex body on the plane

Published 2017-11-06Version 1

We prove that if $K, L \subset \mathbb{R}^2$ are convex bodies such that $L$ is symmetric and the Banach-Mazur distance between $K$ and $L$ is equal to $2$, then $K$ is the triangle.

Comments: 18 pages, 13 figures

Categories: math.FA, math.MG

Subjects: 52A40, 52A10, 52A27

Keywords: arbitrary convex body, symmetric convex body, extremal banach-mazur distance

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arXiv:1711.01787 [math.FA]Abstract References Reviews Resources

Extremal Banach-Mazur distance between a symmetric convex body and an arbitrary convex body on the plane

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arXiv:1711.01787 [math.FA]AbstractReferencesReviewsResources

Extremal Banach-Mazur distance between a symmetric convex body and an arbitrary convex body on the plane

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arXiv:1711.01787 [math.FA]Abstract References Reviews Resources