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Equi-distant

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of a set $M$ in a metric space $R$

The boundary of the tubular neighbourhood of $M$ in $R$ consisting of the balls of the same radius $d$ with centres in $M$. If $M$ is a differentiable submanifold $M^k$ in a Riemannian space $V^n$, then the equi-distant of $M$ is given (in a more restricted sense) by the set of end-points of the segments of equal length measured from $M^k$ on the geodesics perpendicular to $M^k$ at the corresponding points. If $V^n$ is complete, then the equi-distant is the image under the exponential mapping of the vectors of constant length $d$ in the normal bundle of $M^k$ in $V^n$. If $V^n$ is not complete, then the equi-distant exists only for sufficiently small values of $d$.

Examples of equi-distants. 1) An equi-distant in the Lobachevskii plane (a hypercycle) is the orthogonal trajectory of the pencil of straight lines perpendicular to some straight line (to a basic line, or basis). The equi-distant consists of two branches situated on different sides from the basis line and concave towards the basis. The curvature of the equi-distant is constant. 2) An equi-distant in the Lobachevskii space is a surface of constant positive exterior curvature.

How to Cite This Entry:
Equi-distant. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Equi-distant&oldid=31688
This article was adapted from an original article by D.D. Sokolov (originator), which appeared in Encyclopedia of Mathematics - ISBN 1402006098. See original article