Cycle graph:C5: Difference between revisions

This article defines a particular undirected graph, i.e., the definition here determines the graph uniquely up to graph isomorphism.
View a complete list of particular undirected graphs

Definition

This undirected graph is defined in the following equivalent ways:

1. It is the cycle graph on 5 vertices, i.e., the graph ${\displaystyle C_{5}}$
2. It is the Paley graph ${\displaystyle P_{5}}$ corresponding to the field of 5 elements
3. It is the unique (up to graph isomorphism) self-complementary graph on a set of 5 vertices

Note that 5 is the only size for which the Paley graph coincides with the cycle graph. In general, the Paley graph ${\displaystyle P_{q}}$ can be expressed as an edge-disjoint union of ${\displaystyle (q-1)/4}$ cycle graphs. In our case, ${\displaystyle (5-1)/4=1}$, so the graphs coincide.

Arithmetic functions

Size measures

Function	Value	Explanation
size of vertex set	5	By either definition
size of edge set	5	As ${\displaystyle C_{n},n=5}$: ${\displaystyle n=5}$ As ${\displaystyle P_{q},q=5}$: ${\displaystyle q(q-1)/4=5(4)/4=5}$

Other numerical invariants

Function	Value	Explanation
clique number	2	As cycle graph ${\displaystyle C_{n},n=5}$: 2 (since ${\displaystyle n\geq 4}$)
independence number	2	As cycle graph ${\displaystyle C_{n},n=5}$: Greatest integer of ${\displaystyle n/2}$, which is greatest integer of ${\displaystyle 5/2}$, which is 2
chromatic number	3	As cycle graph ${\displaystyle C_{n},n=5}$: 3 since ${\displaystyle n}$ is odd

Graph properties