Open Problem Garden

2-accessibility of primes ★★

Author(s): Landman; Robertson

Question Is the set of prime numbers 2-accessible?

Keywords: monochromatic diffsequences; primes

Posted by vjungic
updated July 9th, 2008

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Graph Theory » Infinite Graphs

Unfriendly partitions ★★★

Author(s): Cowan; Emerson

If $G$ is a graph, we say that a partition of $V(G)$ is unfriendly if every vertex has at least as many neighbors in the other classes as in its own.

Problem Does every countably infinite graph have an unfriendly partition into two sets?

Keywords: coloring; infinite graph; partition

Posted by mdevos
updated October 22nd, 2007

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Graph Theory » Coloring » Homomorphisms

Circular choosability of planar graphs ★

Author(s): Mohar

Let $G = (V, E)$ be a graph. If $p$ and $q$ are two integers, a $(p,q)$ -colouring of $G$ is a function $c$ from $V$ to $\{0,\dots,p-1\}$ such that $q \le |c(u)-c(v)| \le p-q$ for each edge $uv\in E$ . Given a list assignment $L$ of $G$ , i.e.~a mapping that assigns to every vertex $v$ a set of non-negative integers, an $L$ -colouring of $G$ is a mapping $c : V \to N$ such that $c(v)\in L(v)$ for every $v\in V$ . A list assignment $L$ is a $t$ - $(p,q)$ -list-assignment if $L(v) \subseteq \{0,\dots,p-1\}$ and $|L(v)| \ge tq$ for each vertex $v \in V$ . Given such a list assignment $L$ , the graph G is $(p,q)$ - $L$ -colourable if there exists a $(p,q)$ - $L$ -colouring $c$ , i.e. $c$ is both a $(p,q)$ -colouring and an $L$ -colouring. For any real number $t \ge 1$ , the graph $G$ is $t$ - $(p,q)$ -choosable if it is $(p,q)$ - $L$ -colourable for every $t$ - $(p,q)$ -list-assignment $L$ . Last, $G$ is circularly $t$ -choosable if it is $t$ - $(p,q)$ -choosable for any $p$ , $q$ . The circular choosability (or circular list chromatic number or circular choice number) of G is $cch(G) := \inf\{t \ge 1 : G \text{ is circularly $t$-choosable}\}.$

Problem What is the best upper bound on circular choosability for planar graphs?

Keywords: choosability; circular colouring; planar graphs

Posted by rosskang
updated August 23rd, 2012

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Earth-Moon Problem ★★

Author(s): Ringel

Problem What is the maximum number of colours needed to colour countries such that no two countries sharing a common border have the same colour in the case where each country consists of one region on earth and one region on the moon ?

Keywords:

Posted by fhavet
updated March 6th, 2013

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Combinatorics » Ramsey Theory

The large sets conjecture ★★★

Author(s): Brown; Graham; Landman

Conjecture If $A$ is 2-large, then $A$ is large.

Keywords: 2-large sets; large sets

Posted by vjungic
updated June 10th, 2007

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Number Theory » Combinatorial N.T.

Covering systems with big moduli ★★

Author(s): Erdos; Selfridge

Problem Does for every integer $N$ exist a covering system with all moduli distinct and at least equal to~ $N$ ?

Keywords: covering system

Posted by Robert Samal
updated August 4th, 2007

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Graph Theory » Algebraic G.T.

57-regular Moore graph? ★★★

Author(s): Hoffman; Singleton

Question Does there exist a 57-regular graph with diameter 2 and girth 5?

Keywords: cage; Moore graph

Posted by mdevos
updated March 18th, 2007

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Graph Theory

Switching reconstruction of digraphs ★★

Author(s): Bondy; Mercier

Question Are there any switching-nonreconstructible digraphs on twelve or more vertices?

Keywords:

Posted by fhavet
updated March 7th, 2013

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Graph Theory » Coloring » Edge coloring

A generalization of Vizing's Theorem? ★★

Author(s): Rosenfeld

Conjecture Let $H$ be a simple $d$ -uniform hypergraph, and assume that every set of $d-1$ points is contained in at most $r$ edges. Then there exists an $r+d-1$ -edge-coloring so that any two edges which share $d-1$ vertices have distinct colors.

Keywords: edge-coloring; hypergraph; Vizing

Posted by mdevos
updated June 23rd, 2009

1 comment

Diophantine quintuple conjecture ★★

Author(s):

Definition A set of m positive integers $\{a_1, a_2, \dots, a_m\}$ is called a Diophantine $m$ -tuple if $a_i\cdot a_j + 1$ is a perfect square for all $1 \leq i < j \leq m$ .

Conjecture (1) Diophantine quintuple does not exist.

It would follow from the following stronger conjecture [Da]:

Conjecture (2) If $\{a, b, c, d\}$ is a Diophantine quadruple and $d > \max \{a, b, c\}$ , then $d = a + b + c + 2bc + 2\sqrt{(ab+1)(ac+1)(bc+1)}.$

Keywords:

Posted by maxal
updated November 22nd, 2008

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Number Theory » Computational N.T.

Perfect cuboid ★★

Author(s):

Conjecture Does a perfect cuboid exist?

Keywords:

Posted by tsihonglau
updated January 27th, 2012

7 comments

Graph Theory

Arc-disjoint strongly connected spanning subdigraphs ★★

Author(s): Bang-Jensen; Yeo

Conjecture There exists an ineteger $k$ so that every $k$ -arc-connected digraph contains a pair of arc-disjoint strongly connected spanning subdigraphs?

Keywords:

Posted by fhavet
updated March 2nd, 2013

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Even vs. odd latin squares ★★★

Author(s): Alon; Tarsi

A latin square is even if the product of the signs of all of the row and column permutations is 1 and is odd otherwise.

Conjecture For every positive even integer $n$ , the number of even latin squares of order $n$ and the number of odd latin squares of order $n$ are different.

Keywords: latin square

Posted by mdevos
updated October 7th, 2007

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Transversal achievement game on a square grid ★★

Author(s): Erickson

Problem Two players alternately write O's (first player) and X's (second player) in the unoccupied cells of an $n \times n$ grid. The first player (if any) to occupy a set of $n$ cells having no two cells in the same row or column is the winner. What is the outcome of the game given optimal play?

Keywords: game

Posted by Martin Erickson
updated February 13th, 2013

2 comments

Number Theory » Additive N.T.

Are there an infinite number of lucky primes? ★

Author(s): Lazarus: Gardiner: Metropolis; Ulam

Conjecture If every second positive integer except 2 is remaining, then every third remaining integer except 3, then every fourth remaining integer etc. , an infinite number of the remaining integers are prime.

Keywords: lucky; prime; seive

Posted by cubola zaruka
updated March 24th, 2010

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Coloring and immersion ★★★

Author(s): Abu-Khzam; Langston

Conjecture For every positive integer $t$ , every (loopless) graph $G$ with $\chi(G) \ge t$ immerses $K_t$ .

Keywords: coloring; complete graph; immersion

Posted by mdevos
updated September 4th, 2007

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Graph Theory

Beneš Conjecture (graph-theoretic form) ★★★

Author(s): Beneš

Problem ( $\dag$ ) Find a sufficient condition for a straight $\ell$ -stage graph to be rearrangeable. In particular, what about a straight uniform graph?

Conjecture ( $\diamond$ ) Let $L$ be a simple regular ordered $2$ -stage graph. Suppose that the graph $L^m$ is externally connected, for some $m\ge1$ . Then the graph $L^{2m}$ is rearrangeable.

Keywords:

Posted by Vadim Lioubimov
updated April 17th, 2010

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Twin prime conjecture ★★★★

Author(s):

Conjecture There exist infinitely many positive integers $n$ so that both $n$ and $n+2$ are prime.

Keywords: prime; twin prime

Posted by kaushiks.nitt
updated November 22nd, 2011

5 comments

Group Theory

Inverse Galois Problem ★★★★

Author(s): Hilbert

Conjecture Every finite group is the Galois group of some finite algebraic extension of $\mathbb Q$ .

Keywords:

Posted by tchow
updated October 13th, 2008

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Geometry

A conjecture on iterated circumcentres ★★

Author(s): Goddyn

Conjecture Let $p_1,p_2,p_3,\ldots$ be a sequence of points in ${\mathbb R}^d$ with the property that for every $i \ge d+2$ , the points $p_{i-1}, p_{i-2}, \ldots p_{i-d-1}$ are distinct, lie on a unique sphere, and further, $p_i$ is the center of this sphere. If this sequence is periodic, must its period be $2d+4$ ?

Keywords: periodic; plane geometry; sequence

Posted by mdevos
updated June 8th, 2007

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Graph Theory » Extremal G.T.

The Erdös-Hajnal Conjecture ★★★

Author(s): Erdos; Hajnal

Conjecture For every fixed graph $H$ , there exists a constant $\delta(H)$ , so that every graph $G$ without an induced subgraph isomorphic to $H$ contains either a clique or an independent set of size $|V(G)|^{\delta(H)}$ .

Keywords: induced subgraph

Posted by mdevos
updated March 18th, 2007

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Combinatorics » Matrices

A nowhere-zero point in a linear mapping ★★★

Author(s): Jaeger

Conjecture If ${\mathbb F}$ is a finite field with at least 4 elements and $A$ is an invertible $n \times n$ matrix with entries in ${\mathbb F}$ , then there are column vectors $x,y \in {\mathbb F}^n$ which have no coordinates equal to zero such that $Ax=y$ .

Keywords: invertible; nowhere-zero flow

Posted by mdevos
updated March 8th, 2007

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Graph Theory » Basic G.T. » Cycles

The circular embedding conjecture ★★★

Author(s): Haggard

Conjecture Every 2-connected graph may be embedded in a surface so that the boundary of each face is a cycle.

Keywords: cover; cycle

Posted by mdevos
updated March 7th, 2007

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Coloring the Odd Distance Graph ★★★

Author(s): Rosenfeld

The Odd Distance Graph, denoted ${\mathcal O}$ , is the graph with vertex set ${\mathbb R}^2$ and two points adjacent if the distance between them is an odd integer.

Question Is $\chi({\mathcal O}) = \infty$ ?

Keywords: coloring; geometric graph; odd distance

Posted by mdevos
updated March 19th, 2012

8 comments

3-accessibility of Fibonacci numbers ★★

Author(s): Landman; Robertson

Question Is the set of Fibonacci numbers 3-accessible?

Keywords: Fibonacci numbers; monochromatic diffsequences

Posted by vjungic
updated August 24th, 2008

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Primitive pythagorean n-tuple tree ★★

Author(s):

Conjecture Find linear transformation construction of primitive pythagorean n-tuple tree!

Keywords:

Posted by tsihonglau
updated April 24th, 2011

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Mixing Circular Colourings ★

Author(s): Brewster; Noel

Question Is $\mathfrak{M}_c(G)$ always rational?

Keywords: discrete homotopy; graph colourings; mixing

Posted by Jon Noel
updated September 22nd, 2012

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Graph Theory » Extremal G.T.

What is the smallest number of disjoint spanning trees made a graph Hamiltonian ★★

Author(s): Goldengorin

We are given a complete simple undirected weighted graph $G_1=(V,E)$ and its first arbitrary shortest spanning tree $T_1=(V,E_1)$ . We define the next graph $G_2=(V,E\setminus E_1)$ and find on $G_2$ the second arbitrary shortest spanning tree $T_2=(V,E_2)$ . We continue similarly by finding $T_3=(V,E_3)$ on $G_3=(V,E\setminus \cup_{i=1}^{2}E_i)$ , etc. Let k be the smallest number of disjoint shortest spanning trees as defined above and let $T^{k}=(V,\cup_{i=1}^{k}E_i)$ be the graph obtained as union of all $k$ disjoint trees.

Question 1. What is the smallest number of disjoint spanning trees creates a graph $T^{k}$ containing a Hamiltonian path.

Question 2. What is the smallest number of disjoint spanning trees creates a graph $T^{k}$ containing a shortest Hamiltonian path?

Questions 3 and 4. Replace in questions 1 and 2 a shortest spanning tree by a 1-tree. What is the smallest number of disjoint 1-trees creates a Hamiltonian graph? What is the smallest number of disjoint 1-trees creates a graph containing a shortest Hamiltonian cycle?

Keywords: 1-trees; cycle; Hamitonian path; spanning trees

Posted by boris
updated September 10th, 2007

1 comment

Graph Theory » Coloring

Three-chromatic (0,2)-graphs ★★

Author(s): Payan

Question Are there any (0,2)-graphs with chromatic number exactly three?

Keywords:

Posted by Gordon Royle
updated February 6th, 2013

1 comment

Topology

Rank vs. Genus ★★★

Author(s): Johnson

Question Is there a hyperbolic 3-manifold whose fundamental group rank is strictly less than its Heegaard genus? How much can the two differ by?

Keywords:

Posted by Jesse Johnson
updated July 13th, 2008

1 comment

Topology

S(S(f)) = S(f) for reloids ★★

Author(s): Porton

Question $S(S(f)) = S(f)$ for every endo-reloid $f$ ?

Keywords: reloid

Posted by porton
updated May 8th, 2008

1 comment

A discrete iteration related to Pierce expansions ★★

Author(s): Shallit

Conjecture Let $a > b > 0$ be integers. Set $b_1 = b$ and $b_{i+1} = {a \bmod {b_i}}$ for $i \geq 0$ . Eventually we have $b_{n+1} = 0$ ; put $P(a,b) = n$ .

Example: $P(35, 22) = 7$ , since $b_1 = 22$ , $b_2 = 13$ , $b_3 = 9$ , $b_4 = 8$ , $b_5 = 3$ , $b_6 = 2$ , $b_7 = 1$ , $b_8 = 0$ .

Prove or disprove: $P(a,b) = O((\log a)^2)$ .

Keywords: Pierce expansions

Posted by shallit
updated June 11th, 2008

1 comment

Geometry » Polytopes

Cube-Simplex conjecture ★★★

Author(s): Kalai

Conjecture For every positive integer $k$ , there exists an integer $d$ so that every polytope of dimension $\ge d$ has a $k$ -dimensional face which is either a simplex or is combinatorially isomorphic to a $k$ -dimensional cube.

Keywords: cube; facet; polytope; simplex

Posted by mdevos
updated May 9th, 2008

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Topology

Closing Lemma for Diffeomorphism (Dynamical Systems) ★★★★

Author(s): Charles Pugh

Conjecture Let $f\in Diff^{r}(M)$ and $p\in\omega_{f}$ . Then for any neighborhood $V_{f}\subset Diff^{r}(M)$ there is $g\in V_{f}$ such that $p$ is periodic point of $g$

There is an analogous conjecture for flows ( $C^{r}$ vector fields . In the case of diffeos this was proved by Charles Pugh for $r = 1$ . In the case of Flows this has been solved by Sushei Hayahshy for $r = 1$ . But in the two cases the problem is wide open for $r > 1$

Keywords: Dynamics , Pertubation

Posted by Jailton Viana
updated April 24th, 2013

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Graph Theory » Coloring » Edge coloring

Packing T-joins ★★

Author(s): DeVos

Conjecture There exists a fixed constant $c$ (probably $c=1$ suffices) so that every graft with minimum $T$ -cut size at least $k$ contains a $T$ -join packing of size at least $(2/3)k-c$ .

Keywords: packing; T-join

Posted by mdevos
updated March 7th, 2007

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Graph Theory » Topological G.T. » Crossing numbers

Drawing disconnected graphs on surfaces ★★

Author(s): DeVos; Mohar; Samal

Conjecture Let $G$ be the disjoint union of the graphs $G_1$ and $G_2$ and let $\Sigma$ be a surface. Is it true that every optimal drawing of $G$ on $\Sigma$ has the property that $G_1$ and $G_2$ are disjoint?

Keywords: crossing number; surface

Posted by mdevos
updated September 30th, 2007

1 comment

Geometry

Erdös-Szekeres conjecture ★★★

Author(s): Erdos; Szekeres

Conjecture Every set of $2^{n-2} + 1$ points in the plane in general position contains a subset of $n$ points which form a convex $n$ -gon.

Keywords: combinatorial geometry; Convex Polygons; ramsey theory

Posted by mdevos
updated April 14th, 2009

1 comment

Graph Theory » Directed Graphs

The Two Color Conjecture ★★

Author(s): Neumann-Lara

Conjecture If $G$ is an orientation of a simple planar graph, then there is a partition of $V(G)$ into $\{X_1,X_2\}$ so that the graph induced by $X_i$ is acyclic for $i=1,2$ .

Keywords: acyclic; digraph; planar

Posted by mdevos
updated May 31st, 2007

1 comment

Graph Theory » Directed Graphs

Seymour's Second Neighbourhood Conjecture ★★★

Author(s): Seymour

Conjecture Any oriented graph has a vertex whose outdegree is at most its second outdegree.

Keywords: Caccetta-Häggkvist; neighbourhood; second; Seymour

Posted by nkorppi
updated March 18th, 2011

5 comments

Graph Theory » Basic G.T. » Minors

Seagull problem ★★★

Author(s): Seymour

Conjecture Every $n$ vertex graph with no independent set of size $3$ has a complete graph on $\ge \frac{n}{2}$ vertices as a minor.

Keywords: coloring; complete graph; minor

Posted by mdevos
updated January 6th, 2008

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Weighted colouring of hexagonal graphs. ★★

Author(s): McDiarmid; Reed

Conjecture There is an absolute constant $c$ such that for every hexagonal graph $G$ and vertex weighting $p:V(G)\rightarrow \mathbb{N}$ , $\chi(G,p) \leq \frac{9}{8}\omega(G,p) + c$

Keywords:

Posted by fhavet
updated March 13th, 2013

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