**node**(vertex) is visited exactly once.

A loop is just an **edge** that joins a node to itself; so a Hamiltonian cycle is a path traveling from a point back to itself, visiting every node en route.

If a graph with more than one node (i.e. a non-singleton graph) has a Hamiltonian cycle, we call it a **Hamiltonian graph.**

There isn’t any equation or general trick to finding out whether a graph has a Hamiltonian cycle; the only way to determine this is to do a complete and exhaustive search, going through all the options.

## History of the Hamiltonian Cycle

The Hamiltonian cycle was named after Sir William Rowan Hamilton who, in 1857, invented a puzzle-game which involved hunting for a Hamiltonian cycle. The game, called the Icosian game, was distributed as a dodecahedron graph with a hole at each vertex. To solve the puzzle or win the game one had to use pegs and string to find the Hamiltonian cycle — a closed loop that visited every hole exactly once. The solution is shown in the image above.

## Examples of Hamiltonian Graphs

Every complete graph with more than two vertices is a Hamiltonian graph. This follows from the definition of a complete graph: an undirected, simple graph such that every pair of nodes is connected by a unique edge.

The graph of every **platonic solid** is a Hamiltonian graph. So the graph of a cube, a tetrahedron, an octahedron, or an icosahedron are all Hamiltonian graphs with Hamiltonian cycles.

A graph with *n* vertices (where *n* > 3) is Hamiltonian if the sum of the degrees of every pair of non-adjacent vertices is *n* or greater. This is known as **Ore’s theorem**.

## Applications of Hamiltonian cycles and Graphs

A search for Hamiltonian cycles isn’t just a fun game for the afternoon off. It has real applications in such diverse fields as computer graphics, electronic circuit design, mapping genomes, and operations research.

For instance, when mapping genomes scientists must combine many tiny fragments of genetic code (“reads”, they are called), into one single genomic sequence (a ‘superstring’). This can be done by finding a Hamiltonian cycle or Hamiltonian path, where each of the reads are considered nodes in a graph and each overlap (place where the end of one read matches the beginning of another) is considered to be an edge.

In a much less complex application of exactly the same math, school districts use Hamiltonian cycles to plan the best route to pick up students from across the district. Here students may be considered nodes, the paths between them edges, and the bus wishes to travel a route that will pass each students house exactly once.

## References

Icosian Game

On Hamiltonian Cycles and Hamiltonian Paths

Genome Assembly

Graph Algorithms in Bioinformatics

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*Statistical concepts explained visually* - Includes many concepts such as sample size, hypothesis tests, or logistic regression, explained by Stephanie Glen, founder of StatisticsHowTo.

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