Frucht graph

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Frucht graph
The Frucht graph
Named afterRobert Frucht
Vertices12
Edges18
Radius3
Diameter4
Girth3
Automorphismsidentity
Chromatic number3
Chromatic index3
PropertiesCubic
Halin
Pancyclic
Table of graphs and parameters

In 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]. This describes it as a cubic graph in which two of the three adjacencies of each vertex form part of a Hamiltonian cycle and the numbers specify how far along the cycle to find the third neighbor of each vertex.[3]

Properties

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The Frucht graph is a cubic graph, because three vertices are incident to every vertex, thereby the degree of every vertex is 3. It 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.[4] 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,[5] 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.

Frucht graph as a convex polyhedron

The Frucht graph is a Halin graph, a type of planar graph formed from a tree with no degree-two vertices by adding a cycle connecting its leaves.[1] Every Halin graph is 3-vertex-connected: deleting two of its vertices cannot disconnect it. By Steinitz's theorem, the Frucht graph is hence polyhedral, meaning its 12 vertices and 18 edges form the skeleton of a convex polyhedron.[6] It is also Hamiltonian.

It is pancyclic,[7] with chromatic number 3, chromatic index 3, radius 3, and diameter 4. Its girth 3. Its independence number is 5.

The characteristic polynomial of the Frucht graph is .

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References

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Wikimedia Commons has media related to Frucht graph.
  1. ^ a b Ali, Akbar; Chartrand, Gary; Zhang, Ping (2021), Irregularity in Graphs, Springer, pp. 24–25, doi:10.1007/978-3-030-67993-4, ISBN 978-3-030-67993-4
  2. ^ 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
  3. ^ Weisstein, Eric W., "Frucht Graph", MathWorld{{cite web}}: CS1 maint: overridden setting (link)
  4. ^ 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
  5. ^ Frucht, R. (1939), "Herstellung von Graphen mit vorgegebener abstrakter Gruppe.", Compositio Mathematica (in German), 6: 239–250, ISSN 0010-437X, Zbl 0020.07804
  6. ^ Weisstein, Eric W., "Halin Graph", MathWorld
  7. ^ Parrochia, Daniel (2023), Mathematics and Philosophy 2: Graphs, Orders, Infinites and Philosophy, John & Wiley, ISTE Ltd., p. 18

Further reading

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  • Sudev, N. K.; Germina, K. A. (2014), "A Note on the Sparing Number of Graphs", Advances and Applications in Discrete Mathematics, 14 (1): 51–65, arXiv:1402.4871
  • Fullarton, Neil J. (2016), "On the number of outer automorphisms of the automorphism group of a right-angled Artin group", Mathematical Research Letters, 23 (1): 145–162, arXiv:1306.6549, doi:10.4310/MRL.2016.v23.n1.a8, MR 3512881