Frucht graph

Frucht graph
Frucht graph
	The Frucht graph
Named after	Robert Frucht
Vertices	12
Edges	18
Radius	3
Diameter	4
Girth	3
Automorphisms	1 ({id})
Chromatic number	3
Chromatic index	3
Properties	Cubic; Halin; Pancyclic
	Table of graphs and parameters

In the mathematical field of graph theory, the Frucht graph is a cubic graph with 12 vertices, 18 edges, and no nontrivial symmetries.^[1] It was first described by Robert Frucht in 1949.^[2]

The Frucht graph can be constructed from the LCF notation: $[-5,-2,-4,2,5,-2,2,5,-2,-5,4,2]$ .

Properties

The Frucht graph is one of the five smallest cubic graphs possessing only a single graph automorphism, the identity: every vertex can be distinguished topologically from every other vertex.^[3] Such graphs are called asymmetric (or identity) graphs. Frucht's theorem states that any finite group can be realized as the group of symmetries of a graph,^[4] and a strengthening of this theorem, also due to Frucht, states that any finite group can be realized as the symmetries of a 3-regular graph.^[2] The Frucht graph provides an example of this strengthened realization for the trivial group.

The characteristic polynomial of the Frucht graph is $(x-3)(x-2)x(x+1)(x+2)(x^{3}+x^{2}-2x-1)(x^{4}+x^{3}-6x^{2}-5x+4)$ .

The Frucht graph is a pancyclic, Halin graph with chromatic number 3, chromatic index 3, radius 3, and diameter 4. Like every Halin graph, the Frucht graph is polyhedral (planar and 3-vertex-connected)^[5] and Hamiltonian, with girth 3. Its independence number is 5.

Gallery

The chromatic number of the Frucht graph is 3.
The Frucht graph is Hamiltonian.

References

^ Weisstein, Eric W., "Frucht Graph", MathWorld
^ ^a ^b Frucht, R. (1949), "Graphs of degree three with a given abstract group", Canadian Journal of Mathematics, 1 (4): 365–378, doi:10.4153/CJM-1949-033-6, ISSN 0008-414X, MR 0032987, S2CID 124723321
^ Bussemaker, F. C.; Cobeljic, S.; Cvetkovic, D. M.; Seidel, J. J. (1976), Computer investigation of cubic graphs, EUT report, vol. 76-WSK-01, Department of Mathematics and Computing Science, Eindhoven University of Technology
^ Frucht, R. (1939), "Herstellung von Graphen mit vorgegebener abstrakter Gruppe.", Compositio Mathematica (in German), 6: 239–250, ISSN 0010-437X, Zbl 0020.07804
^ Lokesha, V. (2015), "Harmonic Index of Cubic Polyhedral Graphs Using Bridge Graphs" (PDF), Hikari: Applied Mathematical Sciences, 9 (85): 4245–4253

[1] Weisstein, Eric W., "Frucht Graph", MathWorld

[f49-2] Frucht, R. (1949), "Graphs of degree three with a given abstract group", Canadian Journal of Mathematics, 1 (4): 365–378, doi:10.4153/CJM-1949-033-6, ISSN 0008-414X, MR 0032987, S2CID 124723321

[3] Bussemaker, F. C.; Cobeljic, S.; Cvetkovic, D. M.; Seidel, J. J. (1976), Computer investigation of cubic graphs, EUT report, vol. 76-WSK-01, Department of Mathematics and Computing Science, Eindhoven University of Technology

[f38-4] Frucht, R. (1939), "Herstellung von Graphen mit vorgegebener abstrakter Gruppe.", Compositio Mathematica (in German), 6: 239–250, ISSN 0010-437X, Zbl 0020.07804

[5] Lokesha, V. (2015), "Harmonic Index of Cubic Polyhedral Graphs Using Bridge Graphs" (PDF), Hikari: Applied Mathematical Sciences, 9 (85): 4245–4253

[1]

[2]

[3]

[4]

[5]