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Let $P$ be a set of $n$ points in the plane that determines at most $n/5$ distinct distances. We show that no line can contain more than $O(n^{43/52}{\rm polylog}(n))$ points of $P$. We also show a similar result for rectangular distances,…

Combinatorics · Mathematics 2016-07-14 Orit E. Raz , Oliver Roche-Newton , Micha Sharir

In studying properties of simple drawings of the complete graph in the sphere, two natural questions arose for us: can an edge have multiple segments on the boundary of the same face? and is each face the intersection of sides of 3-cycles?…

Combinatorics · Mathematics 2020-05-15 R. Bruce Richter , Matthew Sullivan

Let $P$ be a finite point set in the plane. A \emph{$c$-ordinary triangle} in $P$ is a subset of $P$ consisting of three non-collinear points such that each of the three lines determined by the three points contains at most $c$ points of…

We prove that if a family of compact connected sets in the plane has the property that every three members of it are intersected by a line, then there are three lines intersecting all the sets in the family. This answers a question of…

Combinatorics · Mathematics 2021-08-03 Daniel McGinnis , Shira Zerbib

A {\em simple drawing} $D(G)$ of a graph $G$ is one where each pair of edges share at most one point: either a common endpoint or a proper crossing. An edge $e$ in the complement of $G$ can be {\em inserted} into $D(G)$ if there exists a…

Computational Geometry · Computer Science 2022-01-17 Alan Arroyo , Fabian Klute , Irene Parada , Raimund Seidel , Birgit Vogtenhuber , Tilo Wiedera

Let $P$ be a set of $m$ points and $L$ a set of $n$ lines in $\mathbb R^4$, such that the points of $P$ lie on an algebraic three-dimensional surface of degree $D$ that does not contain hyperplane or quadric components, and no 2-flat…

Combinatorics · Mathematics 2016-09-29 Micha Sharir , Noam Solomon

In 1935, Erd\H{o}s and Szekeres proved that every set of $n$ points in general position in the plane contains the vertices of a convex polygon of $\frac{1}{2}\log_2(n)$ vertices. In 1961, they constructed, for every positive integer $t$, a…

Combinatorics · Mathematics 2019-10-21 Frank Duque , Ruy Fabila-Monroy , Carlos Hidalgo-Toscano

Let $\mathbb V$ be an arbitrary linear space and $f:\mathbb V \times \ldots \times \mathbb V \to \mathbb V$ an $n$-linear map. It is proved that, for each choice of a basis ${\mathcal B}$ of $\mathbb V$, the $n$-linear map $f$ induces a…

Rings and Algebras · Mathematics 2020-04-03 Antonio Jesús Calderón , Ivan Kaygorodov , Paulo Saraiva

Let P be a set of n > 2 points in general position in the plane and let G be a geometric graph with vertex set P. If the number of empty triangles uvw in P for which the subgraph of G induced by {u,v,w} is not connected is at most n-3, then…

Combinatorics · Mathematics 2015-11-05 Eduardo Rivera-Campo , Virginia Urrutia-Galicia

We prove that a simple knot in the lens space $L(p,q)$ fibers if and only if its order in homology does not divide any remainder occurring in the Euclidean algorithm applied to the pair $(p,q)$. One corollary is that if $p=m^2$ is a perfect…

Geometric Topology · Mathematics 2021-06-17 Joshua Evan Greene , John Luecke

Let S be a set of distinct points in general position in the Euclidean plane. A plane Hamiltonian path on S is a crossing-free geometric path such that every point of S is a vertex of the path. It is known that, if S is sufficiently large,…

Computational Geometry · Computer Science 2025-12-02 Todor Antić , Aleksa Džuklevski , Jiří Fiala , Jan Kratochvíl , Giuseppe Liotta , Morteza Saghafian , Maria Saumell , Johannes Zink

A drawing of a graph is said to be a {\em straight-line drawing} if the vertices of $G$ are represented by distinct points in the plane and every edge is represented by a straight-line segment connecting the corresponding pair of vertices…

Combinatorics · Mathematics 2012-03-08 V S Padmini Mukkamala

It is conjectured that if a finite set of points in the plane contains many collinear triples then there is some structure in the set. We are going to show that under some combinatorial conditions such pointsets contain special…

Combinatorics · Mathematics 2023-07-25 Jozsef Solymosi

We extend (and somewhat simplify) the algebraic proof technique of Guth and Katz \cite{GK}, to obtain several sharp bounds on the number of incidences between lines and points in three dimensions. Specifically, we show: (i) The maximum…

Computational Geometry · Computer Science 2009-05-12 György Elekes , Haim Kaplan , Micha Sharir

We prove a complete classification theorem for loose Legendrian knots in an oriented 3-manifold, generalizing results of Dymara and Ding-Geiges. Our approach is to classify knots in a $3$-manifold $M$ that are transverse to a nowhere-zero…

Geometric Topology · Mathematics 2019-07-24 Patricia Cahn , Vladimir Chernov

The Sylvester-Gallai theorem states that for a finite set of points in the plane, if every line determined by any two of these points also contains a third, then the set is necessarily made of collinear points. In this paper, we first…

Combinatorics · Mathematics 2025-12-17 Imre Barany , Julia Q. Du , Dan Schwarz , Liping Yuan , Tudor Zamfirescu

We prove tight upper bounds for the number of vertices of a simple polygon that is the union or the intersection of two simple polygons with given numbers of convex and concave vertices. The similar question on graphs of the lower (or…

Combinatorics · Mathematics 2013-11-27 Pavel Kozhevnikov

We investigate rigidity-type problems on the real line and the circle in the non-generic setting. Specifically, we consider the problem of uniquely determining the positions of $n$ distinct points $V = {v_1, \ldots, v_n}$ given a set of…

Metric Geometry · Mathematics 2024-01-30 Itai Benjamini , Elad Tzalik

Say that a subset S of the plane is a "circle-center set" if S is not a subset of a line, and whenever we choose three noncollinear points from S, the center of the unique circle through those three points is also an element of S. A problem…

Metric Geometry · Mathematics 2007-05-23 Greg Martin

The triangle-degree of a vertex v of a simple graph G is the number of triangles in G that contain v. A simple graph is triangle-distinct if all its vertices have distinct triangle-degrees. Berikkyzy et al. [Discrete Math. 347 (2024)…