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Algebra

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Posted by tigris35711
updated August 19th, 2024

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Combinatorics

The Double Cap Conjecture ★★

Author(s): Kalai

Conjecture The largest measure of a Lebesgue measurable subset of the unit sphere of $\mathbb{R}^n$ containing no pair of orthogonal vectors is attained by two open caps of geodesic radius $\pi/4$ around the north and south poles.

Keywords: combinatorial geometry; independent set; orthogonality; projective plane; sphere

Posted by Jon Noel
updated September 15th, 2015

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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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Number Theory » Analytic N.T.

Are there only finite Fermat Primes? ★★★

Author(s):

Conjecture A Fermat prime is a Fermat number $F_n = 2^{2^n } + 1$ that is prime. The only known Fermat primes are F_0 =3,F_1=5,F_2=17,F_3 =257 ,F_4=65537 It is unknown if other fermat primes exist.

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Posted by kurtulmehtap
updated August 21st, 2013

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Algebra

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Posted by tigris35711
updated August 19th, 2024

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Number Theory » Analytic N.T.

Lindelöf hypothesis ★★

Author(s): Lindelöf

Conjecture For any $\epsilon>0$ $\zeta\left(\frac12 + it\right) \mbox{ is }\mathcal{O}(t^\epsilon).$

Since $\epsilon$ can be replaced by a smaller value, we can also write the conjecture as, for any positive $\epsilon$ , $\zeta\left(\frac12 + it\right) \mbox{ is }o(t^\varepsilon).$

Keywords: Riemann Hypothesis; zeta

Posted by porton
updated September 20th, 2010

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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

Colouring the square of a planar graph ★★

Author(s): Wegner

Conjecture Let $G$ be a planar graph of maximum degree $\Delta$ . The chromatic number of its square is

$7$

$\Delta =3$

$\Delta+5$

$4\leq\Delta\leq 7$

$\left\lfloor\frac32\,\Delta\right\rfloor+1$

$\Delta\ge8$

Keywords:

Posted by fhavet
updated March 13th, 2013

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Algebra

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Posted by tigris35711
updated August 19th, 2024

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Geometry

Edge-Colouring Geometric Complete Graphs ★★

Author(s): Hurtado

Question What is the minimum number of colours such that every complete geometric graph on $n$ vertices has an edge colouring such that:

\item[Variant A] crossing edges get distinct colours, \item[Variant B] disjoint edges get distinct colours, \item[Variant C] non-disjoint edges get distinct colours, \item[Variant D] non-crossing edges get distinct colours.

Keywords: geometric complete graph, colouring

Posted by David Wood
updated October 19th, 2009

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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 » 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

Topology

Upgrading a completary multifuncoid ★★

Author(s): Porton

Let $\mho$ be a set, $\mathfrak{F}$ be the set of filters on $\mho$ ordered reverse to set-theoretic inclusion, $\mathfrak{P}$ be the set of principal filters on $\mho$ , let $n$ be an index set. Consider the filtrator $\left( \mathfrak{F}^n ; \mathfrak{P}^n \right)$ .

Conjecture If $f$ is a completary multifuncoid of the form $\mathfrak{P}^n$ , then $E^{\ast} f$ is a completary multifuncoid of the form $\mathfrak{F}^n$ .

See below for definition of all concepts and symbols used to in this conjecture.

Refer to this Web site for the theory which I now attempt to generalize.

Keywords:

Posted by porton
updated February 4th, 2012

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Graph Theory » Topological G.T. » Crossing numbers

Crossing sequences ★★

Author(s): Archdeacon; Bonnington; Siran

Conjecture Let $(a_0,a_1,a_2,\ldots,0)$ be a sequence of nonnegative integers which strictly decreases until $0$ .

Then there exists a graph that be drawn on a surface with orientable (nonorientable, resp.) genus $i$ with $a_i$ crossings, but not with less crossings.

Keywords: crossing number; crossing sequence

Posted by Robert Samal
updated July 30th, 2008

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Algebra

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Posted by tigris35711
updated August 19th, 2024

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Graph Theory » Algebraic G.T.

Hamiltonian paths and cycles in vertex transitive graphs ★★★

Author(s): Lovasz

Problem Does every connected vertex-transitive graph have a Hamiltonian path?

Keywords: cycle; hamiltonian; path; vertex-transitive

Posted by mdevos
updated March 18th, 2007

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Graph Theory

Signing a graph to have small magnitude eigenvalues ★★

Author(s): Bilu; Linial

Conjecture If $A$ is the adjacency matrix of a $d$ -regular graph, then there is a symmetric signing of $A$ (i.e. replace some $+1$ entries by $-1$ ) so that the resulting matrix has all eigenvalues of magnitude at most $2 \sqrt{d-1}$ .

Keywords: eigenvalue; expander; Ramanujan graph; signed graph; signing

Posted by mdevos
updated March 24th, 2013

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Geometry

Convex uniform 5-polytopes ★★

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Problem Enumerate all convex uniform 5-polytopes.

Keywords:

Posted by ACW
updated May 24th, 2012

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Graph Theory » Coloring » Nowhere-zero flows

A homomorphism problem for flows ★★

Author(s): DeVos

Conjecture Let $M,M'$ be abelian groups and let $B \subseteq M$ and $B' \subseteq M'$ satisfy $B=-B$ and $B' = -B'$ . If there is a homomorphism from $Cayley(M,B)$ to $Cayley(M',B')$ , then every graph with a B-flow has a B'-flow.

Keywords: homomorphism; nowhere-zero flow; tension

Posted by mdevos
updated March 7th, 2007

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Combinatorics » Ramsey Theory

Diagonal Ramsey numbers ★★★★

Author(s): Erdos

Let $R(k,k)$ denote the $k^{th}$ diagonal Ramsey number.

Conjecture $\lim_{k \rightarrow \infty} R(k,k) ^{\frac{1}{k}}$ exists.

Problem Determine the limit in the above conjecture (assuming it exists).

Keywords: Ramsey number

Posted by mdevos
updated September 13th, 2010

2 comments

Number Theory

Giuga's Conjecture on Primality ★★

Author(s): Giuseppe Giuga

Conjecture $p$ is a prime iff $~\displaystyle \sum_{i=1}^{p-1} i^{p-1} \equiv -1 \pmod p$

Keywords: primality

Posted by princeps
updated March 27th, 2012

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Geometry

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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Algebra

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Posted by tigris35711
updated August 19th, 2024

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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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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

Algebra

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Algebra

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updated August 19th, 2024

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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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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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Algebra

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updated August 19th, 2024

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Number Theory » Computational N.T.

Wall-Sun-Sun primes and Fibonacci divisibility ★★

Author(s):

Conjecture For any prime $p$ , there exists a Fibonacci number divisible by $p$ exactly once.

Equivalently:

Conjecture For any prime $p>5$ , $p^2$ does not divide $F_{p-\left(\frac p5\right)}$ where $\left(\frac mn\right)$ is the Legendre symbol.

Keywords: Fibonacci; prime

Posted by adudzik
updated June 14th, 2008

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Algebra

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Algebra

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Algebra

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Posted by tigris35711
updated August 13th, 2024

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Graph Theory » Directed Graphs

Long directed cycles in diregular digraphs ★★★

Author(s): Jackson

Conjecture Every strong oriented graph in which each vertex has indegree and outdegree at least $d$ contains a directed cycle of length at least $2d+1$ .

Keywords:

Posted by fhavet
updated March 1st, 2013

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Graph Theory » Coloring » Vertex coloring

Bounding the on-line choice number in terms of the choice number ★★

Author(s): Zhu

Question Are there graphs for which $\text{ch}^{\text{OL}}-\text{ch}$ is arbitrarily large?

Keywords: choosability; list coloring; on-line choosability

Posted by Jon Noel
updated April 11th, 2013

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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

Algebra

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Algebra

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Graph Theory » Coloring » Edge coloring

Seymour's r-graph conjecture ★★★

Author(s): Seymour

An $r$ -graph is an $r$ -regular graph $G$ with the property that $|\delta(X)| \ge r$ for every $X \subseteq V(G)$ with odd size.

Conjecture $\chi'(G) \le r+1$ for every $r$ -graph $G$ .

Keywords: edge-coloring; r-graph

Posted by mdevos
updated October 3rd, 2008

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Algebra

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Graph Theory » Extremal G.T.

Extremal problem on the number of tree endomorphism ★★

Author(s): Zhicong Lin

Conjecture An endomorphism of a graph is a mapping on the vertex set of the graph which preserves edges. Among all the $n$ vertices' trees, the star with $n$ vertices has the most endomorphisms, while the path with $n$ vertices has the least endomorphisms.

Keywords:

Posted by shudeshijie
updated November 25th, 2020

3 comments

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).