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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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Logic » Finite Model Theory

Finite entailment of Positive Horn logic ★★

Author(s): Martin

Question Positive Horn logic (pH) is the fragment of FO involving exactly $\exists, \forall, \wedge, =$ . Does the fragment $pH \wedge \neg pH$ have the finite model property?

Keywords: entailment; finite satisfiability; horn logic

Posted by LucSegoufin
updated September 21st, 2012

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Graph Theory » Hypergraphs

Simultaneous partition of hypergraphs ★★

Author(s): Kühn; Osthus

Problem Let $H_1$ and $H_2$ be two $r$ -uniform hypergraph on the same vertex set $V$ . Does there always exist a partition of $V$ into $r$ classes $V_1, \dots , V_r$ such that for both $i=1,2$ , at least $r!m_i/r^r -o(m_i)$ hyperedges of $H_i$ meet each of the classes $V_1, \dots , V_r$ ?

Keywords:

Posted by fhavet
updated March 6th, 2013

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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

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.

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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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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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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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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Graph Theory » Coloring » Vertex coloring

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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Number Theory » Analytic N.T.

Are all Fermat Numbers square-free? ★★★

Author(s):

Conjecture Are all Fermat Numbers $F_n = 2^{2^{n } } + 1$ Square-Free?

Keywords:

Posted by kurtulmehtap
updated August 21st, 2013

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Number Theory » Combinatorial N.T.

Olson's Conjecture ★★

Author(s): Olson

Conjecture If $a_1,a_2,\ldots,a_{2n-1}$ is a sequence of elements from a multiplicative group of order $n$ , then there exist $1 \le j_1 < j_2 \ldots < j_n \le 2n-1$ so that $\prod_{i=1}^n a_{j_i} = 1$ .

Keywords: zero sum

Posted by mdevos
updated March 10th, 2007

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Graph Theory » Coloring

Total Colouring Conjecture ★★★

Author(s): Behzad

Conjecture A total coloring of a graph $G = (V,E)$ is an assignment of colors to the vertices and the edges of $G$ such that every pair of adjacent vertices, every pair of adjacent edges and every vertex and incident edge pair, receive different colors. The total chromatic number of a graph $G$ , $\chi''(G)$ , equals the minimum number of colors needed in a total coloring of $G$ . It is an old conjecture of Behzad that for every graph $G$ , the total chromatic number equals the maximum degree of a vertex in $G$ , $\Delta(G)$ plus one or two. In other words, $\chi''(G)=\Delta(G)+1\ \ or \ \ \Delta(G)+2.$

Keywords: Total coloring

Posted by Iradmusa
updated June 4th, 2008

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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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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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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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Theoretical Comp. Sci. » Complexity

One-way functions exist ★★★★

Author(s):

Conjecture One-way functions exist.

Keywords: one way function

Posted by porton
updated October 12th, 2014

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A diagram about funcoids and reloids ★★

Author(s): Porton

Define for posets with order $\sqsubseteq$ :

$\Phi_{\ast} f = \lambda b \in \mathfrak{B}: \bigcup \{ x \in \mathfrak{A} \mid f x \sqsubseteq b \}$ ;
$\Phi^{\ast} f = \lambda b \in \mathfrak{A}: \bigcap \{ x \in \mathfrak{B} \mid f x \sqsupseteq b \}$ .

Note that the above is a generalization of monotone Galois connections (with $\max$ and $\min$ replaced with suprema and infima).

Then we have the following diagram:

What is at the node "other" in the diagram is unknown.

Conjecture "Other" is $\lambda f\in\mathsf{FCD}: \top$ .

Question What repeated applying of $\Phi_{\ast}$ and $\Phi^{\ast}$ to "other" leads to? Particularly, does repeated applying $\Phi_{\ast}$ and/or $\Phi^{\ast}$ to the node "other" lead to finite or infinite sets?

Keywords: Galois connections

Posted by porton
updated November 29th, 2016

2 comments | 2 attachments

Exact colorings of graphs ★★

Author(s): Erickson

Conjecture For $c \geq m \geq 1$ , let $P(c,m)$ be the statement that given any exact $c$ -coloring of the edges of a complete countably infinite graph (that is, a coloring with $c$ colors all of which must be used at least once), there exists an exactly $m$ -colored countably infinite complete subgraph. Then $P(c,m)$ is true if and only if $m=1$ , $m=2$ , or $c=m$ .

Keywords: graph coloring; ramsey theory

Posted by Martin Erickson
updated June 29th, 2010

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Graph Theory » Directed Graphs

Directed path of length twice the minimum outdegree ★★★

Author(s): Thomassé

Conjecture Every oriented graph with minimum outdegree $k$ contains a directed path of length $2k$ .

Keywords:

Posted by fhavet
updated February 28th, 2013

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Graph Theory » Topological G.T.

Every 4-connected toroidal graph has a Hamilton cycle ★★

Author(s): Grunbaum; Nash-Williams

Conjecture Every 4-connected toroidal graph has a Hamilton cycle.

Keywords:

Posted by fhavet
updated March 7th, 2013

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Combinatorics » Matroid Theory

Bases of many weights ★★★

Author(s): Schrijver; Seymour

Let $G$ be an (additive) abelian group, and for every $S \subseteq G$ let ${\mathit stab}(S) = \{ g \in G : g + S = S \}$ .

Conjecture Let $M$ be a matroid on $E$ , let $w : E \rightarrow G$ be a map, put $S = \{ \sum_{b \in B} w(b) : B \mbox{ is a base} \}$ and $H = {\mathit stab}(S)$ . Then $|S| \ge |H| \left( 1 - rk(M) + \sum_{Q \in G/H} rk(w^{-1}(Q)) \right).$

Keywords: matroid; sumset; zero sum

Posted by mdevos
updated June 10th, 2007

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Number Theory » Additive N.T.

The Erdos-Turan conjecture on additive bases ★★★★

Author(s): Erdos; Turan

Let $B \subseteq {\mathbb N}$ . The representation function $r_B : {\mathbb N} \rightarrow {\mathbb N}$ for $B$ is given by the rule $r_B(k) = \#\{ (i,j) \in B \times B : i + j = k \}$ . We call $B$ an additive basis if $r_B$ is never $0$ .

Conjecture If $B$ is an additive basis, then $r_B$ is unbounded.

Keywords: additive basis; representation function

Posted by mdevos
updated June 8th, 2007

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Slice-ribbon problem ★★★★

Author(s): Fox

Conjecture Given a knot in $S^3$ which is slice, is it a ribbon knot?

Keywords: cobordism; knot; ribbon; slice

Posted by rybu
updated November 7th, 2009

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Graph Theory » Basic G.T. » Cycles

Jones' conjecture ★★

Author(s): Kloks; Lee; Liu

For a graph $G$ , let $cp(G)$ denote the cardinality of a maximum cycle packing (collection of vertex disjoint cycles) and let $cc(G)$ denote the cardinality of a minimum feedback vertex set (set of vertices $X$ so that $G-X$ is acyclic).

Conjecture For every planar graph $G$ , $cc(G)\leq 2cp(G)$ .

Keywords: cycle packing; feedback vertex set; planar graph

Posted by cmlee
updated December 5th, 2019

Inequality of the means ★★★

Author(s):

Question Is is possible to pack $n^n$ rectangular $n$ -dimensional boxes each of which has side lengths $a_1,a_2,\ldots,a_n$ inside an $n$ -dimensional cube with side length $a_1 + a_2 + \ldots a_n$ ?

Keywords: arithmetic mean; geometric mean; Inequality; packing

Posted by mdevos
updated April 6th, 2009

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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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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

Graph Theory » Coloring » Vertex coloring

Cycles in Graphs of Large Chromatic Number ★★

Author(s): Brewster; McGuinness; Moore; Noel

Conjecture If $\chi(G)>k$ , then $G$ contains at least $\frac{(k+1)(k-1)!}{2}$ cycles of length $0\bmod k$ .

Keywords: chromatic number; cycles

Posted by Jon Noel
updated September 20th, 2015

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Saturation in the Hypercube ★★

Author(s): Morrison; Noel; Scott

Question What is the saturation number of cycles of length $2\ell$ in the $d$ -dimensional hypercube?

Keywords: cycles; hypercube; minimum saturation; saturation

Posted by Jon Noel
updated September 20th, 2015

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Graph Theory » Coloring » Nowhere-zero flows

3-flow conjecture ★★★

Author(s): Tutte

Conjecture Every 4-edge-connected graph has a nowhere-zero 3-flow.

Keywords: nowhere-zero flow

Posted by mdevos
updated April 12th, 2011

Dividing up the unrestricted partitions ★★

Author(s): David S.; Newman

Begin with the generating function for unrestricted partitions:

(1+x+x^2+...)(1+x^2+x^4+...)(1+x^3+x^6+...)...

Now change some of the plus signs to minus signs. The resulting series will have coefficients congruent, mod 2, to the coefficients of the generating series for unrestricted partitions. I conjecture that the signs may be chosen such that all the coefficients of the series are either 1, -1, or zero.

Keywords: congruence properties; partition

Posted by DavidSNewman
updated May 18th, 2010

Graph Theory » Algebraic G.T.

Ramsey properties of Cayley graphs ★★★

Author(s): Alon

Conjecture There exists a fixed constant $c$ so that every abelian group $G$ has a subset $S \subseteq G$ with $-S = S$ so that the Cayley graph ${\mathit Cayley}(G,S)$ has no clique or independent set of size $> c \log |G|$ .

Keywords: Cayley graph; Ramsey number

Posted by mdevos
updated June 10th, 2007

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Alexa's Conjecture on Primality ★★

Author(s): Alexa

Definition Let $r_i$ be the unique integer (with respect to a fixed $p\in\mathbb{N}$ ) such that

$(2i+1)^{p-1} \equiv r_i \pmod p ~~\text{ and } ~ 0 \le r_i < p.$

Conjecture A natural number $p \ge 8$ is a prime iff $\displaystyle \sum_{i=1}^{\left \lfloor \frac{\sqrt[3]p}{2} \right \rfloor} r_i = \left \lfloor \frac{\sqrt[3]p}{2} \right \rfloor$

Keywords: primality

Posted by princeps
updated June 14th, 2013

Combinatorics » Matroid Theory

Aharoni-Berger conjecture ★★★

Author(s): Aharoni; Berger

Conjecture If $M_1,\ldots,M_k$ are matroids on $E$ and $\sum_{i=1}^k rk_{M_i}(X_i) \ge \ell (k-1)$ for every partition $\{X_1,\ldots,X_k\}$ of $E$ , then there exists $X \subseteq E$ with $|X| = \ell$ which is independent in every $M_i$ .

Keywords: independent set; matroid; partition

Posted by mdevos
updated June 11th, 2007

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Graph Theory » Infinite Graphs

Seymour's self-minor conjecture ★★★

Author(s): Seymour

Conjecture Every infinite graph is a proper minor of itself.

Keywords: infinite graph; minor

Posted by mdevos
updated April 15th, 2010

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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Smooth 4-dimensional Poincare conjecture ★★★★

Author(s): Poincare; Smale; Stallings

Conjecture If a $4$ -manifold has the homotopy type of the $4$ -sphere $S^4$ , is it diffeomorphic to $S^4$ ?

Keywords: 4-manifold; poincare; sphere

Posted by rybu
updated November 6th, 2009

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Convex Equipartitions with Extreme Perimeter ★★

Author(s): Nandakumar

To divide a given 2D convex region C into a specified number n of convex pieces all of equal area (perimeters could be different) such that the total perimeter of pieces is (1) maximized (2) minimized.

Remark: It appears maximizing the total perimeter is the easier problem.

Keywords: convex equipartition

Posted by Nandakumar
updated October 22nd, 2015

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Graph Theory » Basic G.T.

Almost all non-Hamiltonian 3-regular graphs are 1-connected ★★

Author(s): Haythorpe

Conjecture Denote by $NH(n)$ the number of non-Hamiltonian 3-regular graphs of size $2n$ , and similarly denote by $NHB(n)$ the number of non-Hamiltonian 3-regular 1-connected graphs of size $2n$ .

Is it true that $\lim\limits_{n \rightarrow \infty} \displaystyle\frac{NHB(n)}{NH(n)} = 1$ ?

Keywords: Hamiltonian, Bridge, 3-regular, 1-connected

Posted by mhaythorpe
updated August 23rd, 2013

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Big Line or Big Clique in Planar Point Sets ★★

Author(s): Kara; Por; Wood

Let $S$ be a set of points in the plane. Two points $v$ and $w$ in $S$ are visible with respect to $S$ if the line segment between $v$ and $w$ contains no other point in $S$ .

Conjecture For all integers $k,\ell\geq2$ there is an integer $n$ such that every set of at least $n$ points in the plane contains at least $\ell$ collinear points or $k$ pairwise visible points.

Keywords: Discrete Geometry; Geometric Ramsey Theory

Posted by David Wood
updated September 25th, 2012

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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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

Graph Theory » Topological G.T. » Drawings

Universal point sets for planar graphs ★★★

Author(s): Mohar

We say that a set $P \subseteq {\mathbb R}^2$ is $n$ -universal if every $n$ vertex planar graph can be drawn in the plane so that each vertex maps to a distinct point in $P$ , and all edges are (non-intersecting) straight line segments.

Question Does there exist an $n$ -universal set of size $O(n)$ ?

Keywords: geometric graph; planar graph; universal set

Posted by mdevos
updated May 22nd, 2007

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Graph Theory » Extremal G.T.

Odd-cycle transversal in triangle-free graphs ★★

Author(s): Erdos; Faudree; Pach; Spencer

Conjecture If $G$ is a simple triangle-free graph, then there is a set of at most $n^2/25$ edges whose deletion destroys every odd cycle.

Keywords:

Posted by fhavet
updated March 6th, 2013

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Sum of prime and semiprime conjecture ★★

Author(s): Geoffrey Marnell

Conjecture Every even number greater than $10$ can be represented as the sum of an odd prime number and an odd semiprime .

Keywords: prime; semiprime

Posted by princeps
updated July 31st, 2016

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

Kneser–Poulsen conjecture ★★★

Author(s): Kneser; Poulsen

Conjecture If a finite set of unit balls in $\mathbb{R}^n$ is rearranged so that the distance between each pair of centers does not decrease, then the volume of the union of the balls does not decrease.

Keywords: pushing disks

Posted by tchow
updated September 25th, 2008

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Graph Theory » Basic G.T. » Cycles

Faithful cycle covers ★★★

Author(s): Seymour

Conjecture If $G = (V,E)$ is a graph, $p : E \rightarrow {\mathbb Z}$ is admissable, and $p(e)$ is even for every $e \in E(G)$ , then $(G,p)$ has a faithful cover.

Keywords: cover; cycle

Posted by mdevos
updated March 7th, 2007

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Graph Theory » Basic G.T. » Paths

Partition of a cubic 3-connected graphs into paths of length 2. ★★

Author(s): Kelmans

Problem Does every $3$ -connected cubic graph on $3k$ vertices admit a partition into $k$ paths of length $2$ ?

Keywords:

Posted by fhavet
updated March 4th, 2013

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