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graph (Definition)

A graph $ G$ is an ordered pair of disjoint sets $ (V, E)$ such that $ E$ is a subset of the set $ V^{(2)}$ of unordered pairs of $ V$. $ V$ and $ E$ are always assumed to be finite, unless explicitly stated otherwise. The set $ V$ is the set of vertices (sometimes called nodes) and $ E$ is the set of edges. If $ G$ is a graph, then $ V = V(G)$ is the vertex set of $ G$, and $ E = E(G)$ is the edge set. Typically, $ V(G)$ is defined to be nonempty. If $ x$ is a vertex of $ G$, we sometimes write $ x \in G$ instead of $ x \in V(G)$.

An edge $ \{x, y\}$ (with $ x\neq y$) is said to join the vertices $ x$ and $ y$ and is denoted by $ xy$. One says that the edges $ xy$ and $ yx$ are equivalent; the vertices $ x$ and $ y$ are the endvertices of this edge. If $ xy \in E(G)$, then $ x$ and $ y$ are adjacent, or neighboring, vertices of $ G$, and the vertices $ x$ and $ y$ are incident with the edge $ xy$. Two edges are adjacent if they have at least one common endvertex. Also, $ x \sim y$ means that the vertex $ x$ is adjacent to the vertex $ y$.

Notice that this definition allows pairs of the form $ \{x,x\}$, which would correspond to a node joining to itself. Some authors explicitly disallow this in their definition of a graph.

\includegraphics{grapha.eps}                  \includegraphics{graphb.eps}                  \includegraphics{graphc.eps}
Some graphs.

Note: Some authors include multigraphs in their definition of a graph. In this notation, the above definition corresponds to that of a simple graph. A graph is then simple if there is at most one edge joining each pair of nodes.

Adapted with permission of the author from Modern Graph Theory by Béla Bollobás, published by Springer-Verlag New York, Inc., 1998.



"graph" is owned by mathcam. [ full author list (3) | owner history (2) ]
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See Also: loop, neighborhood (of a vertex), Euler's polyhedron theorem, digraph, tree, spanning tree, connected graph, cycle, graph theory, graph topology, subgraph, simple path, Euler path, diameter, distance (in a graph), graph homomorphism, pseudograph, multigraph, order (of a graph), directed graph, size (of a graph), topic entry on the algebraic foundations of mathematics

Also defines:  edge, vertex, endvertex, adjacent, incident, join, vertices, simple graph
Keywords:  multigraph, digraph, pseudograph, tree

Attachments:
loop (Definition) by drini
infinite graph (Definition) by sjm1979
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Cross-references: simple, multigraphs, equivalent, nodes, finite, subset, disjoint, ordered pair
There are 238 references to this entry.

This is version 30 of graph, born on 2001-11-12, modified 2007-10-16.
Object id is 777, canonical name is Graph.
Accessed 56481 times total.

Classification:
AMS MSC05C99 (Combinatorics :: Graph theory :: Miscellaneous)
Pending Errata and Addenda
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