- Source: Prism graph
In the mathematical field of graph theory, a prism graph is a graph that has one of the prisms as its skeleton.
Examples
The individual graphs may be named after the associated solid:
Triangular prism graph – 6 vertices, 9 edges
Cubical graph – 8 vertices, 12 edges
Pentagonal prism graph – 10 vertices, 15 edges
Hexagonal prism graph – 12 vertices, 18 edges
Heptagonal prism graph – 14 vertices, 21 edges
Octagonal prism graph – 16 vertices, 24 edges
...
Although geometrically the star polygons also form the faces of a different sequence of (self-intersecting and non-convex) prismatic polyhedra, the graphs of these star prisms are isomorphic to the prism graphs, and do not form a separate sequence of graphs.
Construction
Prism graphs are examples of generalized Petersen graphs, with parameters GP(n,1).
They may also be constructed as the Cartesian product of a cycle graph with a single edge.
As with many vertex-transitive graphs, the prism graphs may also be constructed as Cayley graphs. The order-n dihedral group is the group of symmetries of a regular n-gon in the plane; it acts on the n-gon by rotations and reflections. It can be generated by two elements, a rotation by an angle of 2π/n and a single reflection, and its Cayley graph with this generating set is the prism graph. Abstractly, the group has the presentation
⟨
r
,
f
∣
r
n
,
f
2
,
(
r
f
)
2
⟩
{\displaystyle \langle r,f\mid r^{n},f^{2},(rf)^{2}\rangle }
(where r is a rotation and f is a reflection or flip) and the Cayley graph has r and f (or r, r−1, and f) as its generators.
The n-gonal prism graphs with odd values of n may be constructed as circulant graphs
C
2
n
2
,
n
{\displaystyle C_{2n}^{2,n}}
.
However, this construction does not work for even values of n.
Properties
The graph of an n-gonal prism has 2n vertices and 3n edges. They are regular, cubic graphs.
Since the prism has symmetries taking each vertex to each other vertex, the prism graphs are vertex-transitive graphs.
As polyhedral graphs, they are also 3-vertex-connected planar graphs. Every prism graph has a Hamiltonian cycle.
Among all biconnected cubic graphs, the prism graphs have within a constant factor of the largest possible number of 1-factorizations. A 1-factorization is a partition of the edge set of the graph into three perfect matchings, or equivalently an edge coloring of the graph with three colors. Every biconnected n-vertex cubic graph has O(2n/2) 1-factorizations, and the prism graphs have Ω(2n/2) 1-factorizations.
The number of spanning trees of an n-gonal prism graph is given by the formula
n
2
(
(
2
+
3
)
n
+
(
2
−
3
)
n
−
2
)
{\displaystyle {\frac {n}{2}}{\bigl (}(2+{\sqrt {3}})^{n}+(2-{\sqrt {3}})^{n}-2){\bigr .}}
For n = 3, 4, 5, ... these numbers are
75, 384, 1805, 8100, 35287, 150528, ... (sequence A006235 in the OEIS).
The n-gonal prism graphs for even values of n are partial cubes. They form one of the few known infinite families of cubic partial cubes, and (except for four sporadic examples) the only vertex-transitive cubic partial cubes.
The pentagonal prism is one of the forbidden minors for the graphs of treewidth three. The triangular prism and cube graph have treewidth exactly three, but all larger prism graphs have treewidth four.
Related graphs
Other infinite sequences of polyhedral graph formed in a similar way from polyhedra with regular-polygon bases include the antiprism graphs (graphs of antiprisms) and wheel graphs (graphs of pyramids). Other vertex-transitive polyhedral graphs include the Archimedean graphs.
If the two cycles of a prism graph are broken by the removal of a single edge in the same position in both cycles, the result is a ladder graph. If these two removed edges are replaced by two crossed edges, the result is a non-planar graph called a Möbius ladder.
References
Kata Kunci Pencarian:
- GraphPad Prism
- Sejarah komunikasi
- Komunikasi bisnis
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- Prism graph
- Triangular prism
- Triaugmented triangular prism
- Rectangular cuboid
- List of graphs
- GraphPad Software
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- Archimedean graph
