Difference between revisions of "Talk:Graph (graph theory)"

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{{WotW|week=December 6-12|prevweek=[[William Lowell Putnam Mathematical Competition]]<br />[[Diophantine equation]]|curweek=[[Graph (graph theory)]]<br />[[Carl Friedrich Gauss]]|nextweek=[[Euclidean algorithm]]<br />[[Euclid]]}}
 
 
 
Things that need to be added to this article:
 
Things that need to be added to this article:
 
* <s>A proper definition of a graph.  ("Formally, a graph <math>G</math> is a pair, <math>G = (V, E)</math>, of a set <math>V</math> of vertices together with a subset <math>E</math> of pairs of members of <math>V</math>.")</s> '''Done'''
 
* <s>A proper definition of a graph.  ("Formally, a graph <math>G</math> is a pair, <math>G = (V, E)</math>, of a set <math>V</math> of vertices together with a subset <math>E</math> of pairs of members of <math>V</math>.")</s> '''Done'''
* Directed graphs, multigraphs, loopless graphs, simple graphs, and the distinctions between these.
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* [[Directed graph]]s, [[multigraph]]s, <s>loopless graphs, simple graphs, and the distinctions between these.</s>
* "Path," "tree," "forest," "circuit" or "cycle," "Hamiltonian path" (and circuit and cycle), etc.
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* <s>"Path," "tree," "forest," "circuit" or "cycle,"</s> "Hamiltonian path" (and circuit and cycle), etc.
 
* To distinguish between a formal graph (a pair of two sets) and a geometric realization of a graph.
 
* To distinguish between a formal graph (a pair of two sets) and a geometric realization of a graph.
 
* Most of these words deserve their own page and so should be linked to.
 
* Most of these words deserve their own page and so should be linked to.
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:The words that deserve their own page will be created eventually. For now, I'll just focus on integrating them into the article. I already defined path and cycle... I'll put a definition for tree in there, but I'm afraid that I don't know what some of the terms mean. [[User:Temperal|Temperal]]<span style="color:red"><small><sup>[[User Talk:Temperal|xy]]</sup></small></span> 13:09, 4 January 2008 (EST)
 
:The words that deserve their own page will be created eventually. For now, I'll just focus on integrating them into the article. I already defined path and cycle... I'll put a definition for tree in there, but I'm afraid that I don't know what some of the terms mean. [[User:Temperal|Temperal]]<span style="color:red"><small><sup>[[User Talk:Temperal|xy]]</sup></small></span> 13:09, 4 January 2008 (EST)
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:: Thanks.  I'll continue to make some of the satellite pages and add to this one.  --[[User:JBL|JBL]] 12:04, 11 January 2008 (EST)
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{{WotW|week=January 3-9|prevweek=[[William Lowell Putnam Mathematical Competition]]<br />[[Diophantine equation]]|curweek=[[Graph (graph theory)]]<br />[[Carl Friedrich Gauss]]|nextweek=[[Euclidean algorithm]]<br />[[Euclid]]}}

Latest revision as of 19:46, 28 March 2008

Things that need to be added to this article:

  • A proper definition of a graph. ("Formally, a graph $G$ is a pair, $G = (V, E)$, of a set $V$ of vertices together with a subset $E$ of pairs of members of $V$.") Done
  • Directed graphs, multigraphs, loopless graphs, simple graphs, and the distinctions between these.
  • "Path," "tree," "forest," "circuit" or "cycle," "Hamiltonian path" (and circuit and cycle), etc.
  • To distinguish between a formal graph (a pair of two sets) and a geometric realization of a graph.
  • Most of these words deserve their own page and so should be linked to.

I would have started doing this, but the first two points together are difficult to integrate into a single intro section. Help would be appreciated. --JBL 10:20, 4 January 2008 (EST)

The words that deserve their own page will be created eventually. For now, I'll just focus on integrating them into the article. I already defined path and cycle... I'll put a definition for tree in there, but I'm afraid that I don't know what some of the terms mean. Temperalxy 13:09, 4 January 2008 (EST)
Thanks. I'll continue to make some of the satellite pages and add to this one. --JBL 12:04, 11 January 2008 (EST)


AoPSWiki Words of the Week for January 3-9
Previous week
William Lowell Putnam Mathematical Competition
Diophantine equation
Current week
Graph (graph theory)
Carl Friedrich Gauss
Next week
Euclidean algorithm
Euclid