Open Problem Garden

Graphs with a forbidden induced tree are chi-bounded ★★★

Author(s): Gyarfas

Say that a family ${\mathcal F}$ of graphs is $\chi$ -bounded if there exists a function $f: {\mathbb N} \rightarrow {\mathbb N}$ so that every $G \in {\mathcal F}$ satisfies $\chi(G) \le f (\omega(G))$ .

Conjecture For every fixed tree $T$ , the family of graphs with no induced subgraph isomorphic to $T$ is $\chi$ -bounded.

Keywords: chi-bounded; coloring; excluded subgraph; tree

Posted by mdevos
updated May 16th, 2009

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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 » Topological G.T. » Crossing numbers

The Crossing Number of the Complete Bipartite Graph ★★★

Author(s): Turan

The crossing number $cr(G)$ of $G$ is the minimum number of crossings in all drawings of $G$ in the plane.

Conjecture $\displaystyle cr(K_{m,n}) = \floor{\frac m2} \floor{\frac {m-1}2} \floor{\frac n2} \floor{\frac {n-1}2}$

Keywords: complete bipartite graph; crossing number

Posted by Robert Samal
updated May 11th, 2007

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Combinatorics

Roller Coaster permutations ★★★

Author(s): Ahmed; Snevily

Let $S_n$ denote the set of all permutations of $[n]=\set{1,2,\ldots,n}$ . Let $i(\pi)$ and $d(\pi)$ denote respectively the number of increasing and the number of decreasing sequences of contiguous numbers in $\pi$ . Let $X(\pi)$ denote the set of subsequences of $\pi$ with length at least three. Let $t(\pi)$ denote $\sum_{\tau\in X(\pi)}(i(\tau)+d(\tau))$ .

A permutation $\pi\in S_n$ is called a Roller Coaster permutation if $t(\pi)=\max_{\tau\in S_n}t(\tau)$ . Let $RC(n)$ be the set of all Roller Coaster permutations in $S_n$ .

Conjecture For $n\geq 3$ ,

$n=2k$

$|RC(n)|=4$

$n=2k+1$

$|RC(n)|=2^j$

$j\leq k+1$

Conjecture (Odd Sum conjecture) Given $\pi\in RC(n)$ ,

$n=2k+1$

$\pi_j+\pi_{n-j+1}$

$1\leq j\leq k$

$n=2k$

$\pi_j + \pi_{n-j+1} = 2k+1$

$1\leq j\leq k$

Keywords:

Posted by Tanbir Ahmed
updated October 14th, 2013

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A conjecture about direct product of funcoids ★★

Author(s): Porton

Conjecture Let $f_1$ and $f_2$ are monovalued, entirely defined funcoids with $\operatorname{Src}f_1=\operatorname{Src}f_2=A$ . Then there exists a pointfree funcoid $f_1 \times^{\left( D \right)} f_2$ such that (for every filter $x$ on $A$ ) $\left\langle f_1 \times^{\left( D \right)} f_2 \right\rangle x = \bigcup \left\{ \langle f_1\rangle X \times^{\mathsf{FCD}} \langle f_2\rangle X \hspace{1em} | \hspace{1em} X \in \mathrm{atoms}^{\mathfrak{A}} x \right\}.$ (The join operation is taken on the lattice of filters with reversed order.)

A positive solution of this problem may open a way to prove that some funcoids-related categories are cartesian closed.

Keywords: category theory; general topology

Posted by porton
updated July 26th, 2012

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Graph Theory » Basic G.T.

Asymptotic Distribution of Form of Polyhedra ★★

Author(s): Rüdinger

Problem Consider the set of all topologically inequivalent polyhedra with $k$ edges. Define a form parameter for a polyhedron as $\beta:= v/(k+2)$ where $v$ is the number of vertices. What is the distribution of $\beta$ for $k \to \infty$ ?

Keywords: polyhedral graphs, distribution

Posted by andreasruedinger
updated May 9th, 2009

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Covering powers of cycles with equivalence subgraphs ★

Author(s):

Conjecture Given $k$ and $n$ , the graph $C_{n}^k$ has equivalence covering number $\Omega(k)$ .

Keywords:

Posted by Andrew King
updated July 7th, 2011

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Obstacle number of planar graphs ★

Author(s): Alpert; Koch; Laison

Does there exist a planar graph with obstacle number greater than 1? Is there some $k$ such that every planar graph has obstacle number at most $k$ ?

Keywords: graph drawing; obstacle number; planar graph; visibility graph

Posted by Andrew King
updated November 23rd, 2011

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Combinatorics » Matrices

Rota's basis conjecture ★★★

Author(s): Rota

Conjecture Let $V$ be a vector space of dimension $n$ and let $B_1,\ldots,B_n \subseteq V$ be bases. Then there exist $n$ disjoint transversals of $B_1,\ldots,B_n$ each of which is a base.

Keywords: base; latin square; linear algebra; matroid; transversal

Posted by mdevos
updated October 11th, 2013

2 comments

Reed's omega, delta, and chi conjecture ★★★

Author(s): Reed

For a graph $G$ , we define $\Delta(G)$ to be the maximum degree, $\omega(G)$ to be the size of the largest clique subgraph, and $\chi(G)$ to be the chromatic number of $G$ .

Conjecture $\chi(G) \le \ceil{\frac{1}{2}(\Delta(G)+1) + \frac{1}{2}\omega(G)}$ for every graph $G$ .

Keywords: coloring

Posted by mdevos
updated September 24th, 2007

2 comments

Graph Theory » Topological G.T. » Coloring

Degenerate colorings of planar graphs ★★★

Author(s): Borodin

A graph $G$ is $k$ -degenerate if every subgraph of $G$ has a vertex of degree $\le k$ .

Conjecture Every simple planar graph has a 5-coloring so that for $1 \le k \le 4$ , the union of any $k$ color classes induces a $(k-1)$ -degenerate graph.

Keywords: coloring; degenerate; planar

Posted by mdevos
updated May 21st, 2008

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Infinite distributivity of meet over join for a principal funcoid ★★

Author(s): Porton

Conjecture $f \sqcap \bigsqcup S = \bigsqcup \langle f \sqcap \rangle^{\ast} S$ for principal funcoid $f$ and a set $S$ of funcoids of appropriate sources and destinations.

Keywords: distributivity; principal funcoid

Posted by porton
updated July 27th, 2016

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Star chromatic index of cubic graphs ★★

Author(s): Dvorak; Mohar; Samal

The star chromatic index $\chi_s'(G)$ of a graph $G$ is the minimum number of colors needed to properly color the edges of the graph so that no path or cycle of length four is bi-colored.

Question Is it true that for every (sub)cubic graph $G$ , we have $\chi_s'(G) \le 6$ ?

Keywords: edge coloring; star coloring

Posted by Robert Samal
updated November 16th, 2010

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Number Theory

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

Number Theory

Erdős–Straus conjecture ★★

Author(s): Erdos; Straus

Conjecture

For all $n > 2$ , there exist positive integers $x$ , $y$ , $z$ such that $1/x + 1/y + 1/z = 4/n$ .

Keywords: Egyptian fraction

Posted by ACW
updated July 14th, 2014

4 comments

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

Graph Theory » Directed Graphs

The Bermond-Thomassen Conjecture ★★

Author(s): Bermond; Thomassen

Conjecture For every positive integer $k$ , every digraph with minimum out-degree at least $2k-1$ contains $k$ disjoint cycles.

Keywords: cycles

Posted by JS
updated October 1st, 2007

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Graph Theory » Basic G.T. » Cycles

Barnette's Conjecture ★★★

Author(s): Barnette

Conjecture Every 3-connected cubic planar bipartite graph is Hamiltonian.

Keywords: bipartite; cubic; hamiltonian

Posted by Robert Samal
updated August 9th, 2011

1 comment

Melnikov's valency-variety problem ★

Author(s): Melnikov

Problem The valency-variety $w(G)$ of a graph $G$ is the number of different degrees in $G$ . Is the chromatic number of any graph $G$ with at least two vertices greater than $\ceil{ \frac{\floor{w(G)/2}}{|V(G)| - w(G)} } ~ ?$

Keywords:

Posted by asp
updated March 3rd, 2013

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Number Theory » Analytic N.T.

Distribution and upper bound of mimic numbers ★★

Author(s): Bhattacharyya

Problem

Let the notation $a|b$ denote '' $a$ divides $b$ ''. The mimic function in number theory is defined as follows [1].

Definition For any positive integer $\mathcal{N} = \sum_{i=0}^{n}\mathcal{X}_{i}\mathcal{M}^{i}$ divisible by $\mathcal{D}$ , the mimic function, $f(\mathcal{D} | \mathcal{N})$ , is given by,

$f(\mathcal{D} | \mathcal{N}) = \sum_{i=0}^{n}\mathcal{X}_{i}(\mathcal{M}-\mathcal{D})^{i}$

By using this definition of mimic function, the mimic number of any non-prime integer is defined as follows [1].

Definition The number $m$ is defined to be the mimic number of any positive integer $\mathcal{N} = \sum_{i=0}^{n}\mathcal{X}_{i}\mathcal{M}^{i}$ , with respect to $\mathcal{D}$ , for the minimum value of which $f^{m}(\mathcal{D} | \mathcal{N}) = \mathcal{D}$ .

Given these two definitions and a positive integer $\mathcal{D}$ , find the distribution of mimic numbers of those numbers divisible by $\mathcal{D}$ .

Again, find whether there is an upper bound of mimic numbers for a set of numbers divisible by any fixed positive integer $\mathcal{D}$ .

Keywords: Divisibility; mimic function; mimic number

Posted by facility_cttb@i...
updated June 20th, 2009

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Number Theory » Additive N.T.

Goldbach conjecture ★★★★

Author(s): Goldbach

Conjecture Every even integer greater than 2 is the sum of two primes.

Keywords: additive basis; prime

Posted by Benschop
updated June 14th, 2013

3 comments

Approximation ratio for k-outerplanar graphs ★★

Author(s): Bentz

Conjecture Is the approximation ratio for the Maximum Edge Disjoint Paths (MaxEDP) or the Maximum Integer Multiflow problem (MaxIMF) bounded by a constant in $k$ -outerplanar graphs or tree-width graphs?

Keywords: approximation algorithms; planar graph; polynomial algorithm

Posted by jcmeyer
updated April 18th, 2010

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Number Theory » Combinatorial N.T.

The 3n+1 conjecture ★★★

Author(s): Collatz

Conjecture Let $f(n) = 3n+1$ if $n$ is odd and $\frac{n}{2}$ if $n$ is even. Let $f(1) = 1$ . Assume we start with some number $n$ and repeatedly take the $f$ of the current number. Prove that no matter what the initial number is we eventually reach $1$ .

Keywords: integer sequence

Posted by dododododo
updated July 11th, 2014

4 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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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

Oriented chromatic number of planar graphs ★★

Author(s):

An oriented colouring of an oriented graph is assignment $c$ of colours to the vertices such that no two arcs receive ordered pairs of colours $(c_1,c_2)$ and $(c_2,c_1)$ . It is equivalent to a homomorphism of the digraph onto some tournament of order $k$ .

Problem What is the maximal possible oriented chromatic number of an oriented planar graph?

Keywords: oriented coloring; oriented graph; planar graph

Posted by Robert Samal
updated August 4th, 2007

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Which outer reloids are equal to inner ones ★★

Author(s): Porton

Warning: This formulation is vague (not exact).

Question Characterize the set $\{f\in\mathsf{FCD} \mid (\mathsf{RLD})_{\mathrm{in}} f=(\mathsf{RLD})_{\mathrm{out}} f\}$ . In other words, simplify this formula.

The problem seems rather difficult.

Keywords:

Posted by porton
updated December 1st, 2016

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List chromatic number and maximum degree of bipartite graphs ★★

Author(s): Alon

Conjecture There is a constant $c$ such that the list chromatic number of any bipartite graph $G$ of maximum degree $\Delta$ is at most $c \log \Delta$ .

Keywords:

Posted by fhavet
updated March 12th, 2013

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Graph Theory » Basic G.T. » Matchings

The intersection of two perfect matchings ★★

Author(s): Macajova; Skoviera

Conjecture Every bridgeless cubic graph has two perfect matchings $M_1$ , $M_2$ so that $M_1 \cap M_2$ does not contain an odd edge-cut.

Keywords: cubic; nowhere-zero flow; perfect matching

Posted by mdevos
updated August 30th, 2007

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Graph Theory » Coloring » Labeling

Good Edge Labelings ★★

Author(s): Araújo; Cohen; Giroire; Havet

Question What is the maximum edge density of a graph which has a good edge labeling?

We say that a graph is good-edge-labeling critical, if it has no good edge labeling, but every proper subgraph has a good edge labeling.

Conjecture For every $c<4$ , there is only a finite number of good-edge-labeling critical graphs with average degree less than $c$ .

Keywords: good edge labeling, edge labeling

Posted by DOT
updated February 16th, 2013

1 comment

Algebra

trace inequality ★★

Author(s):

Let $A,B$ be positive semidefinite, by Jensen's inequality, it is easy to see $[tr(A^s+B^s)]^{\frac{1}{s}}\leq [tr(A^r+B^r)]^{\frac{1}{r}}$ , whenever $s>r>0$ .

What about the $tr(A^s+B^s)^{\frac{1}{s}}\leq tr(A^r+B^r)^{\frac{1}{r}}$ , is it still valid?

Keywords:

Posted by Miwa Lin
updated December 20th, 2010

3 comments

Analysis

Inequality for square summable complex series ★★

Author(s): Retkes

Conjecture For all $\alpha=(\alpha_1,\alpha_2,\ldots)\in l_2(\cal{C})$ the following inequality holds $\sum_{n\geq 1}|\alpha_n|^2\geq \frac{6}{\pi^2}\sum_{k\geq0}\bigg| \sum_{l\geq0}\frac{1}{l+1}\alpha_{2^k(2l+1)}\bigg|^2$

Keywords: Inequality

Posted by tigris35711
updated October 29th, 2014

2 comments

Graph Theory » Basic G.T. » Matchings

Random stable roommates ★★

Author(s): Mertens

Conjecture The probability that a random instance of the stable roommates problem on $n \in 2{\mathbb N}$ people admits a solution is $\Theta( n ^{-1/4} )$ .

Keywords: stable marriage; stable roommates

Posted by mdevos
updated February 26th, 2008

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Graph Theory » Basic G.T. » Paths

Decomposing a connected graph into paths. ★★★

Author(s): Gallai

Conjecture Every simple connected graph on $n$ vertices can be decomposed into at most $\frac{1}{2}(n+1)$ paths.

Keywords:

Posted by fhavet
updated March 4th, 2013

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Group Theory

Which lattices occur as intervals in subgroup lattices of finite groups? ★★★★

Author(s):

Conjecture

There exists a finite lattice that is not an interval in the subgroup lattice of a finite group.

Keywords: congruence lattice; finite groups

Posted by williamdemeo
updated February 22nd, 2011

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Circular coloring triangle-free subcubic planar graphs ★★

Author(s): Ghebleh; Zhu

Problem Does every triangle-free planar graph of maximum degree three have circular chromatic number at most $\frac{20}{7}$ ?

Keywords: circular coloring; planar graph; triangle free

Posted by mdevos
updated June 20th, 2007

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Graph Theory » Coloring » Labeling

Graceful Tree Conjecture ★★★

Author(s):

Conjecture All trees are graceful

Keywords: combinatorics; graceful labeling

Posted by kintali
updated September 29th, 2014

12 comments

Combinatorics » Designs

Combinatorial covering designs ★

Author(s): Gordon; Mills; Rödl; Schönheim

A $(v, k, t)$ covering design, or covering, is a family of $k$ -subsets, called blocks, chosen from a $v$ -set, such that each $t$ -subset is contained in at least one of the blocks. The number of blocks is the covering’s size, and the minimum size of such a covering is denoted by $C(v, k, t)$ .

Problem Find a closed form, recurrence, or better bounds for $C(v,k,t)$ . Find a procedure for constructing minimal coverings.

Keywords: recreational mathematics

Posted by Pseudonym
updated April 11th, 2008

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Graph Theory » Basic G.T. » Minors

Forcing a $K_6$-minor ★★

Author(s): Barát ; Joret; Wood

Conjecture Every graph with minimum degree at least 7 contains a $K_6$ -minor.

Conjecture Every 7-connected graph contains a $K_6$ -minor.

Keywords: connectivity; graph minors

Posted by David Wood
updated January 16th, 2012

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Number Theory » Combinatorial N.T.

Sets with distinct subset sums ★★★

Author(s): Erdos

Say that a set $S \subseteq {\mathbb Z}$ has distinct subset sums if distinct subsets of $S$ have distinct sums.

Conjecture There exists a fixed constant $c$ so that $|S| \le \log_2(n) + c$ whenever $S \subseteq \{1,2,\ldots,n\}$ has distinct subset sums.

Keywords: subset sum

Posted by mdevos
updated April 7th, 2011

1 comment

Graph Theory » Infinite Graphs

Infinite uniquely hamiltonian graphs ★★

Author(s): Mohar

Problem Are there any uniquely hamiltonian locally finite 1-ended graphs which are regular of degree $r > 2$ ?

Keywords: hamiltonian; infinite graph; uniquely hamiltonian

Posted by Robert Samal
updated July 24th, 2007

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Number Theory » Analytic N.T.

Are all Mersenne Numbers with prime exponent square-free? ★★★

Author(s):

Conjecture Are all Mersenne Numbers with prime exponent ${2^p-1}$ Square free?

Keywords: Mersenne number

Posted by kurtulmehtap
updated February 4th, 2015

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