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Octagram

From Wikipedia, the free encyclopedia
Regular octagram
BERJAYA
A regular octagram
TypeRegular star polygon
Edges and vertices8
Schläfli symbol{8/3}
t{4/3}
Coxeter–Dynkin diagramsBERJAYABERJAYABERJAYABERJAYABERJAYA
BERJAYABERJAYABERJAYABERJAYABERJAYA
Symmetry groupDihedral (D8)
Internal angle (degrees)45°
Propertiesstar, cyclic, equilateral, isogonal, isotoxal
Dual polygonself

In geometry, an octagram is an eight-angled star polygon.

The name octagram combine a Greek numeral prefix, octa-, with the Greek suffix -gram. The -gram suffix derives from γραμμή (grammḗ) meaning "line".[1]

Detail

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A regular octagram with each side length equal to 1

In general, an octagram is any self-intersecting octagon (8-sided polygon).

The regular octagram is labeled by the Schläfli symbol {8/3}, which means an 8-sided star, connected by every third point.

Variations

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These variations have a lower dihedral, Dih4, symmetry:

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Narrow
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Wide
(45 degree rotation)
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Isotoxal
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An old Flag of Chile contained this octagonal star geometry with edges removed (the Guñelve).
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The regular octagonal star is very popular as a symbol of rowing clubs in the Cologne Lowland, as seen on the club flag of the Cologne Rowing Association.
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The geometry can be adjusted so 3 edges cross at a single point, like the Auseklis symbol
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An 8-point compass rose can be seen as an octagonal star, with 4 primary points, and 4 secondary points.

The symbol Rub el Hizb is a Unicode glyph ۞  at U+06DE.

As a quasitruncated square

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Deeper truncations of the square can produce isogonal (vertex-transitive) intermediate star polygon forms with equal spaced vertices and two edge lengths. A truncated square is an octagon, t{4}={8}. A quasitruncated square, inverted as {4/3}, is an octagram, t{4/3}={8/3}.[2]

The uniform star polyhedron stellated truncated hexahedron, t'{4,3}=t{4/3,3} has octagram faces constructed from the cube in this way. It may be considered for this reason as a three-dimensional analogue of the octagram.

Isogonal truncations of square and cube
Regular Quasiregular Isogonal Quasiregular
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{4}
BERJAYA
t{4}={8}
BERJAYA BERJAYA
t'{4}=t{4/3}={8/3}
Regular Uniform Isogonal Uniform
BERJAYA
{4,3}
BERJAYA
t{4,3}
BERJAYA BERJAYA
t'{4,3}=t{4/3,3}

Another three-dimensional version of the octagram is the nonconvex great rhombicuboctahedron (quasirhombicuboctahedron), which can be thought of as a quasicantellated (quasiexpanded) cube, t0,2{4/3,3}.

Star polygon compounds

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There are two regular octagrammic star figures (compounds) of the form {8/k}, the first constructed as two squares {8/2}=2{4}, and second as four degenerate digons, {8/4}=4{2}. There are other isogonal and isotoxal compounds including rectangular and rhombic forms.

Regular Isogonal Isotoxal
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a{8}={8/2}=2{4}
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{8/4}=4{2}
BERJAYA BERJAYA BERJAYA

{8/2} or 2{4}, like Coxeter diagrams BERJAYABERJAYABERJAYA + BERJAYABERJAYABERJAYA, can be seen as the 2D equivalent of the 3D compound of cube and octahedron, BERJAYABERJAYABERJAYABERJAYABERJAYA + BERJAYABERJAYABERJAYABERJAYABERJAYA, 4D compound of tesseract and 16-cell, BERJAYABERJAYABERJAYABERJAYABERJAYABERJAYABERJAYA + BERJAYABERJAYABERJAYABERJAYABERJAYABERJAYABERJAYA and 5D compound of 5-cube and 5-orthoplex; that is, the compound of a n-cube and cross-polytope in their respective dual positions.

Other presentations of an octagonal star

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An octagonal star can be seen as a concave hexadecagon, with internal intersecting geometry erased. It can also be dissected by radial lines.

star polygonConcaveCentral dissections
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Compound 2{4}
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|8/2|
BERJAYA BERJAYA BERJAYA
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Regular {8/3}
BERJAYA
|8/3|
BERJAYA BERJAYA BERJAYA
BERJAYA
Isogonal
BERJAYA BERJAYA BERJAYA BERJAYA
BERJAYA
Isotoxal
BERJAYA BERJAYA BERJAYA BERJAYA

Other uses

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The Ghassulian star
  • One of the oldest depictions of several variations of the octagram nested within each other was found in a cave in Jordan. Dating back 6,000 years and associated with the Ghassulian culture, it is speculated to have represented some kind of calendar system.[3]
  • In Unicode, the "Eight Spoked Asterisk" symbol is U+2733.
  • The unicode for Dingir, a Sumerian cuneiform eight-pointed ideogram meaning "sky" and later a logogram for a deity is U+1202D 𒀭.
A big round white circle with faint rays around on a brown background. A black irregular shape stands on its left border. A black spot to its left issues six white spikes separated by 60 degrees and two fainter spikes in vertical.
The spikes are specially visible around Jupiter's moon Europa (on the left) in this NIRCam image.
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Edges of the JWST primary mirror segments and spider colour-coded with their corresponding diffraction spikes
  • The 8-pointed diffraction spikes of the star images from the James Webb Space Telescope are due to the diffraction caused by the hexagonal shape of the mirror sections and the struts holding the secondary mirror.[4]
  • Used as a parol or star for the 2010 ABS-CBN Christmas Station ID Ngayong Pasko Magniningning Ang Pilipino (lit.'This Christmas, the Filipinos will Shine') due to the usage of a sun from the Philippine flag, making it also a nationalism and patriotism-themed song aside from being a Christmas song.

See also

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Usage
Stars generally
Others

References

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  1. "Henry George Liddell, Robert Scott, A Greek-English Lexicon, γραμμή". www.perseus.tufts.edu. Retrieved 2024-10-31.
  2. The Lighter Side of Mathematics: Proceedings of the Eugène Strens Memorial Conference on Recreational Mathematics and its History, (1994), Metamorphoses of polygons, Branko Grünbaum
  3. Polcaro, Andrea (2013), "The Tuleilat al-Ghassul Star Painting: A Hypothesis Regarding a Solar Calendar from the Fourth Millennium B", in Winona Lake (ed.), Time and History in the Ancient Near East Proceedings of the 56th Rencontre Assyriologique Internationale at Barcelona 26–30 July 2010, pp. 273–284, doi:10.1515/9781575068565-026
  4. Lawrence, Pete (13 September 2022). "Why do all the stars have 8 points in the James Webb images? An astronomer explains". BBC Science Focus Magazine. Retrieved 1 March 2023.
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