Desargues graph: Difference between revisions

This article defines a particular undirected graph, i.e., the definition here determines the graph uniquely up to graph isomorphism.
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Definition

The Desargues graph is a particular graph on 20 vertices defined in the following equivalent ways:

1. It is the Levi graph of the Desargues configuration
2. It is the bipartite Kneser graph with parameters 5,2
3. It is the generalized Petersen graph ${\displaystyle G(10,3)}$.

Arithmetic functions

Size measures

Function	Value	Explanation
size of vertex set	20	As Levi graph of Desargues configuration: number of points + number of lines in the configuration = ${\displaystyle 10+10=20}$ As bipartite Kneser graph with parameters ${\displaystyle n=5,k=2}$: ${\displaystyle 2{\binom {n}{k}}=2{\binom {5}{2}}=2(10)=20}$ As generalized Petersen graph ${\displaystyle G(n,k),n=10,k=3}$: ${\displaystyle 2(10)=20}$
size of edge set	30	As Levi graph of Desargues configuration: number of incidences between points and lines = (number of lines) * (number of points on each line) = ${\displaystyle (10)(3)=30}$ As bipartite Kneser graph with parameters ${\displaystyle n=5,k=2}$: ${\displaystyle {\binom {n}{k,k,n-2k}}={\frac {n!}{k!k!(n-2k)!}}={\binom {5}{2,2,1}}=30}$ As generalized Petersen graph ${\displaystyle G(n,k),n=10,k=3}$: ${\displaystyle 3n=3(10)=30}$