Icosian calculus

The icosian calculus is a non-commutative algebraic structure discovered by the Irish mathematician William Rowan Hamilton in 1856.^[1]^[2] In modern terms, he gave a group presentation of the icosahedral rotation group by generators and relations.

Hamilton's discovery derived from his attempts to find an algebra of "triplets" or 3-tuples that he believed would reflect the three Cartesian axes. The symbols of the icosian calculus can be equated to moves between vertices on a dodecahedron. Hamilton's work in this area resulted indirectly in the terms Hamiltonian circuit and Hamiltonian path in graph theory.^[3] He also invented the icosian game as a means of illustrating and popularising his discovery.

Informal definition[edit]

The algebra is based on three symbols that are each roots of unity, in that repeated application of any of them yields the value 1 after a particular number of steps. They are:

{\begin{aligned}\iota ^{2}&=1,\\\kappa ^{3}&=1,\\\lambda ^{5}&=1.\end{aligned}}

Hamilton also gives one other relation between the symbols:

\lambda =\iota \kappa .

(In modern terms this is the (2,3,5) triangle group.)

The operation is associative but not commutative. They generate a group of order 60, isomorphic to the group of rotations of a regular icosahedron or dodecahedron, and therefore to the alternating group of degree five.

Although the algebra exists as a purely abstract construction, it can be most easily visualised in terms of operations on the edges and vertices of a dodecahedron. Hamilton himself used a flattened dodecahedron as the basis for his instructional game.

Imagine an insect crawling along a particular edge of Hamilton's labelled dodecahedron in a certain direction, say from $B$ to $C$ . We can represent this directed edge by $BC$ .

Geometrical illustration of operation iota in icosian calculus

The icosian symbol $\iota$ equates to changing direction on any edge, so the insect crawls from $C$ to $B$ (following the directed edge $CB$ ).
The icosian symbol $\kappa$ equates to rotating the insect's current travel anti-clockwise around the end point. In our example this would mean changing the initial direction $BC$ to become $DC$ .
The icosian symbol $\lambda$ equates to making a right-turn at the end point, moving from $BC$ to $CD$ .

Legacy[edit]

The icosian calculus is one of the earliest examples of many mathematical ideas, including:

presenting and studying a group by generators and relations;
a triangle group, later generalized to Coxeter groups;
visualization of a group by a graph, which led to combinatorial group theory and later geometric group theory;
Hamiltonian circuits and Hamiltonian paths in graph theory;^[3]
dessin d'enfant^[4]^[5] – see dessin d'enfant: history for details.

References[edit]

^ William Rowan Hamilton (1856). "Memorandum respecting a new System of Roots of Unity" (PDF). Philosophical Magazine. 12: 446.
^ Thomas L. Hankins (1980). Sir William Rowan Hamilton. Baltimore: The Johns Hopkins University Press. p. 474. ISBN 0-8018-6973-0.
^ ^a ^b Norman L. Biggs; E. Keith Lloyd; Robin J. Wilson (1976). Graph theory 1736–1936. Oxford: Clarendon Press. p. 239. ISBN 0-19-853901-0.
^ Jones, Gareth (1995). "Dessins d'enfants: bipartite maps and Galois groups". Séminaire Lotharingien de Combinatoire. B35d: 4.
^ W. R. Hamilton, Letter to John T. Graves "On the Icosian" (17 October 1856), Mathematical papers, Vol. III, Algebra, eds. H. Halberstam and R. E. Ingram, Cambridge University Press, Cambridge, 1967, pp. 612–625.

[1] William Rowan Hamilton (1856). "Memorandum respecting a new System of Roots of Unity" (PDF). Philosophical Magazine. 12: 446.

[2] Thomas L. Hankins (1980). Sir William Rowan Hamilton. Baltimore: The Johns Hopkins University Press. p. 474. ISBN 0-8018-6973-0.

[biggs-3] Norman L. Biggs; E. Keith Lloyd; Robin J. Wilson (1976). Graph theory 1736–1936. Oxford: Clarendon Press. p. 239. ISBN 0-19-853901-0.

[4] Jones, Gareth (1995). "Dessins d'enfants: bipartite maps and Galois groups". Séminaire Lotharingien de Combinatoire. B35d: 4.

[5] W. R. Hamilton, Letter to John T. Graves "On the Icosian" (17 October 1856), Mathematical papers, Vol. III, Algebra, eds. H. Halberstam and R. E. Ingram, Cambridge University Press, Cambridge, 1967, pp. 612–625.

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Informal definition[edit]

Legacy[edit]

See also[edit]

References[edit]