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Algebra

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updated August 19th, 2024

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Graph Theory » Algebraic G.T.

Half-integral flow polynomial values ★★

Author(s): Mohar

Let $\Phi(G,x)$ be the flow polynomial of a graph $G$ . So for every positive integer $k$ , the value $\Phi(G,k)$ equals the number of nowhere-zero $k$ -flows in $G$ .

Conjecture $\Phi(G,5.5) > 0$ for every 2-edge-connected graph $G$ .

Keywords: nowhere-zero flow

Posted by mohar
updated May 31st, 2007

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Graph Theory » Directed Graphs

Subdivision of a transitive tournament in digraphs with large outdegree. ★★

Author(s): Mader

Conjecture For all $k$ there is an integer $f(k)$ such that every digraph of minimum outdegree at least $f(k)$ contains a subdivision of a transitive tournament of order $k$ .

Keywords:

Posted by fhavet
updated March 4th, 2013

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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

Graph Theory » Coloring » Vertex coloring

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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Theoretical Comp. Sci.

Sums of independent random variables with unbounded variance ★★

Author(s): Feige

Conjecture If $X_1, \dotsc, X_n \geq 0$ are independent random variables with $\mathbb{E}[X_i] \leq \mu$ , then $\mathrm{Pr} \left( \sum X_i - \mathbb{E} \left[ \sum X_i \right ] < \delta \mu \right) \geq \min \left ( (1 + \delta)^{-1} \delta, e^{-1} \right).$

Keywords: Inequality; Probability Theory; randomness in TCS

Posted by cwenner
updated April 2nd, 2009

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Graph Theory » Coloring » Nowhere-zero flows

The three 4-flows conjecture ★★

Author(s): DeVos

Conjecture For every graph $G$ with no bridge, there exist three disjoint sets $A_1,A_2,A_3 \subseteq E(G)$ with $A_1 \cup A_2 \cup A_3 = E(G)$ so that $G \setminus A_i$ has a nowhere-zero 4-flow for $1 \le i \le 3$ .

Keywords: nowhere-zero flow

Posted by mdevos
updated March 7th, 2007

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Graph Theory » Directed Graphs

Oriented trees in n-chromatic digraphs ★★★

Author(s): Burr

Conjecture Every digraph with chromatic number at least $2k-2$ contains every oriented tree of order $k$ as a subdigraph.

Keywords:

Posted by fhavet
updated February 25th, 2013

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Algebra

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Algebra

Solution to the Lonely Runner Conjecture ★★

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Solution to the Lonely Runner Conjecture

Keywords:

Posted by tigris35711
updated August 19th, 2024

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Graph Theory » Coloring » Homomorphisms

Algorithm for graph homomorphisms ★★

Author(s): Fomin; Heggernes; Kratsch

Question

Is there an algorithm that decides, for input graphs $G$ and $H$ , whether there exists a homomorphism from $G$ to $H$ in time $O(c^{|V(G)|+|V(H)|})$ for some constant $c$ ?

Keywords: algorithm; Exponential-time algorithm; homomorphism

Posted by jfoniok
updated July 8th, 2010

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Combinatorics

Shuffle-Exchange Conjecture ★★★

Author(s): Beneš; Folklore; Stone

Given integers $k,n\ge2$ , let $d(k,n)$ be the smallest integer $d\ge2$ such that the symmetric group $\frak S$ on the set of all words of length $n$ over a $k$ -letter alphabet can be generated as $\frak S = (\sigma \frak G)^d:=\sigma\frak G \sigma\frak G \dots \sigma\frak G$ ( $d$ times), where $\sigma\in \frak S$ is the shuffle permutation defined by $\sigma(x_1 x_2 \dots x_{n}) = x_2 \dots x_{n} x_1$ , and $\frak G$ is the exchange group consisting of all permutations in $\frak S$ preserving the first $n-1$ letters in the words.

Problem (SE) Evaluate $d(k,n)$ .

Conjecture (SE) $d(k,n)=2n-1$ , for all $k,n\ge2$ .

Keywords:

Posted by Vadim Lioubimov
updated November 27th, 2009

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Algebra

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Algebra

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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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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

Algebra

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Algebra

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Algebra

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Posted by tigris35711
updated August 19th, 2024

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Graph Theory » Coloring » Vertex coloring

Hedetniemi's Conjecture ★★★

Author(s): Hedetniemi

Conjecture If $G,H$ are simple finite graphs, then $\chi(G \times H) = \min \{ \chi(G), \chi(H) \}$ .

Here $G \times H$ is the tensor product (also called the direct or categorical product) of $G$ and $H$ .

Keywords: categorical product; coloring; homomorphism; tensor product

Posted by mdevos
updated March 1st, 2020

5 comments

Algebra

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Posted by tigris35711
updated August 19th, 2024

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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

Geometry

Convex 'Fair' Partitions Of Convex Polygons ★★

Author(s): Nandakumar; Ramana

Basic Question: Given any positive integer n, can any convex polygon be partitioned into n convex pieces so that all pieces have the same area and same perimeter?

Definitions: Define a Fair Partition of a polygon as a partition of it into a finite number of pieces so that every piece has both the same area and the same perimeter. Further, if all the resulting pieces are convex, call it a Convex Fair Partition.

Questions: 1. (Rephrasing the above 'basic' question) Given any positive integer n, can any convex polygon be convex fair partitioned into n pieces?

2. If the answer to the above is "Not always'', how does one decide the possibility of such a partition for a given convex polygon and a given n? And if fair convex partition is allowed by a specific convex polygon for a give n, how does one find the optimal convex fair partition that minimizes the total length of the cut segments?

3. Finally, what could one say about higher dimensional analogs of this question?

Conjecture: The authors tend to believe that the answer to the above 'basic' question is "yes". In other words they guess: Every convex polygon allows a convex fair partition into n pieces for any n

Keywords: Convex Polygons; Partitioning

Posted by Nandakumar
updated December 12th, 2007

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Graph Theory » Probabilistic G.T.

Chromatic number of random lifts of complete graphs ★★

Author(s): Amit

Question Is the chromatic number of a random lift of $K_5$ concentrated on a single value?

Keywords: random lifts, coloring

Posted by DOT
updated September 3rd, 2012

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Topology

The 4x5 chessboard complex is the complement of a link, which link? ★★

Author(s): David Eppstein

Problem Ian Agol and Matthias Goerner observed that the 4x5 chessboard complex is the complement of many distinct links in the 3-sphere. Their observation is non-constructive, as it uses the resolution of the Poincare Conjecture. Find specific links that have the 4x5 chessboard complex as their complement.

Keywords: knot theory, links, chessboard complex

Posted by rybu
updated September 4th, 2010

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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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Algebra

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Graph Theory » Coloring » Vertex coloring

Partial List Coloring ★★★

Author(s): Iradmusa

Let $G$ be a simple graph, and for every list assignment $\mathcal{L}$ let $\lambda_{\mathcal{L}}$ be the maximum number of vertices of $G$ which are colorable with respect to $\mathcal{L}$ . Define $\lambda_t = \min{ \lambda_{\mathcal{L}} }$ , where the minimum is taken over all list assignments $\mathcal{L}$ with $|\mathcal{L}| = t$ for all $v \in V(G)$ .

Conjecture [2] Let $G$ be a graph with list chromatic number $\chi_\ell$ and $1\leq r\leq s\leq \chi_\ell$ . Then $\frac{\lambda_r}{r}\geq\frac{\lambda_s}{s}.$

Keywords: list assignment; list coloring

Posted by Iradmusa
updated May 12th, 2008

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Graph Theory » Topological G.T.

Domination in plane triangulations ★★

Author(s): Matheson; Tarjan

Conjecture Every sufficiently large plane triangulation $G$ has a dominating set of size $\le \frac{1}{4} |V(G)|$ .

Keywords: coloring; domination; multigrid; planar graph; triangulation

Posted by mdevos
updated May 4th, 2009

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Topology

Every metamonovalued funcoid is monovalued ★★

Author(s): Porton

Conjecture Every metamonovalued funcoid is monovalued.

The reverse is almost trivial: Every monovalued funcoid is metamonovalued.

Keywords: monovalued

Posted by porton
updated September 17th, 2013

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Graph Theory

Lovász Path Removal Conjecture ★★

Author(s): Lovasz

Conjecture There is an integer-valued function $f(k)$ such that if $G$ is any $f(k)$ -connected graph and $x$ and $y$ are any two vertices of $G$ , then there exists an induced path $P$ with ends $x$ and $y$ such that $G-V(P)$ is $k$ -connected.

Keywords:

Posted by fhavet
updated March 4th, 2013

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Algebra

Shuffle-Exchange Conjecture ★★

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Shuffle-Exchange Conjecture

Keywords:

Posted by tigris35711
updated August 19th, 2024

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Algebra

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Algebra

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Algebra

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Graph Theory

Minimal graphs with a prescribed number of spanning trees ★★

Author(s): Azarija; Skrekovski

Conjecture Let $n \geq 3$ be an integer and let $\alpha(n)$ denote the least integer $k$ such that there exists a simple graph on $k$ vertices having precisely $n$ spanning trees. Then $\alpha(n) = o(\log{n}).$

Keywords: number of spanning trees, asymptotics

Posted by azi
updated April 22nd, 2012

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Algebra

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Algebra

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Algebra

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Algebra

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Graph Theory » Coloring » Nowhere-zero flows

Real roots of the flow polynomial ★★

Author(s): Welsh

Conjecture All real roots of nonzero flow polynomials are at most 4.

Keywords: flow polynomial; nowhere-zero flow

Posted by mdevos
updated December 17th, 2010

2 comments

Graph Theory » Basic G.T. » Minors

Highly connected graphs with no K_n minor ★★★

Author(s): Thomas

Problem Is it true for all $n \ge 0$ , that every sufficiently large $n$ -connected graph without a $K_n$ minor has a set of $n-5$ vertices whose deletion results in a planar graph?

Keywords: connectivity; minor

Posted by mdevos
updated March 10th, 2007

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Graph Theory » Basic G.T. » Cycles

Cycle double cover conjecture ★★★★

Author(s): Seymour; Szekeres

Conjecture For every graph with no bridge, there is a list of cycles so that every edge is contained in exactly two.

Keywords: cover; cycle

Posted by mdevos
updated February 7th, 2012

3 comments

Graph Theory » Basic G.T. » Cycles

4-connected graphs are not uniquely hamiltonian ★★

Author(s): Fleischner

Conjecture Every $4$ -connected graph with a Hamilton cycle has a second Hamilton cycle.

Keywords:

Posted by fhavet
updated March 11th, 2013

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Topology

Smooth 4-dimensional Schoenflies problem ★★★★

Author(s): Alexander

Problem Let $M$ be a $3$ -dimensional smooth submanifold of $S^4$ , $M$ diffeomorphic to $S^3$ . By the Jordan-Brouwer separation theorem, $M$ separates $S^4$ into the union of two compact connected $4$ -manifolds which share $M$ as a common boundary. The Schoenflies problem asks, are these $4$ -manifolds diffeomorphic to $D^4$ ? ie: is $M$ unknotted?

Keywords: 4-dimensional; Schoenflies; sphere

Posted by rybu
updated November 6th, 2009

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Geometry

Convex uniform 5-polytopes ★★

Author(s):

Problem Enumerate all convex uniform 5-polytopes.

Keywords:

Posted by ACW
updated May 24th, 2012

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Algebra

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Graph Theory

Chromatic number of $\frac{3}{3}$-power of graph ★★

Author(s):

Let $G$ be a graph and $m,n\in \mathbb{N}$ . The graph $G^{\frac{m}{n}}$ is defined to be the $m$ -power of the $n$ -subdivision of $G$ . In other words, $G^{\frac{m}{n}}=(G^{\frac{1}{n}})^m$ .