Search the Archive
  Home
  Welcome to
  Station Information
  Mathematical and
  Natural Sciences

  Astronomy
  Biology
  Chemistry
  Computer science
  Earth science
  Ecology
  Health science
  Mathematics
  Physics
  Statistics
  Applied Arts
  and Sciences

  Agriculture
  Architecture
  Business
  Communication
  Education
  Engineering
  Family and
  consumer science
  Government
  Law
  Library and information
  science
  Medicine
  Politics
  Public affairs
  Software engineering
  Technology
  Transport
  Social Sciences
  and Philosophy

  Archaeology
  Economics
  Geography
  History
  History of science
  and technology
  Language
  Linguistics
  Mythology
  Philosophy
  Political science
  Psychology
  Sociology
  Culture and
  Fine Arts

  Classics
  Cooking
  Dance
  Entertainment
  Film
  Games
  Gardening
  Handicraft
  Hobbies
  Holidays
  Internet
  Literature
  Music
  Opera
  Painting
  Poetry
  Radio
  Recreation
  Religion
  Sculpture
  Sports
  Television
  Theater
  Tourism
  Visual arts and design

Graph theory


  

Graph theory is the branch of mathematics that examines the properties of graphs.
A graph with 6 vertices and 7 edges.

Informally, a graph is a set of objects called vertices or nodes connected by links called edges or arcs. Typically, a graph is depicted as a set of dots (i.e., vertices) connected by lines (i.e., edges).

For more and formal definitions, see Glossary of graph theory and Graph (mathematics).

Depending on the applications, edges may or may not have a direction; edges joining a vertex to itself may or may not be allowed, and vertices and/or edges may be assigned weights, i.e. numbers. If the edges have a direction associated with them (indicated by an arrow in the graphical representation) we have a directed graph, or digraph.

Structures that can be represented as graphs are ubiquitous, and many problems of practical interest can be formulated as questions about certain graphs. For example, the link structure of Wikipedia could be represented by a directed graph: the vertices are the articles in Wikipedia, and there's a directed edge from article A to article B if and only if A contains a link to B. Directed graphs are also used to represent finite state machines. The development of algorithms to handle graphs is therefore of major interest in computer science.

Table of contents
1 History
2 Graph problems
3 Important algorithms
4 Generalizations
5 Related areas of mathematics
6 See also

History

Leonhard Euler's paper on Seven Bridges of Königsberg is considered to be the first result in graph theory. It is also regarded as one of the first topological results in geometry; that is, it does not depend on any measurements. This illustrates the deep connection between graph theory and topology.

Graph problems

Important algorithms

Generalizations

In a hypergraph an edge can connect more than two vertices.

An undirected graph can be seen as a simplicial complex consisting of 1-simplices (the edges) and 0-simplices (the vertices). As such, complexes are generalizations of graphs since they allow for higher-dimensional simplices.

Every graph gives rise to a matroid, but in general the graph cannot be recovered from its matroid, so matroids are not truly generalizations of graphs.

In model theory, a graph is just a structure. But in that case, there is no limitations on the number of edges: it can be any cardinal number.

Related areas of mathematics

See also




Site Partners

Easy Encyclopedia
Small Business Forum
Free Web Templates
Free Mortgage Quote

  This content from wikipedia is licensed under the GNU Free Documentation License