Truncated order-6 octagonal tiling
In today's world, Truncated order-6 octagonal tiling has become a topic of great relevance and interest to a wide spectrum of people. In recent years, interest in Truncated order-6 octagonal tiling has been increasing, generating a debate around its implications and repercussions in various areas. From the political to the cultural sphere, Truncated order-6 octagonal tiling has aroused the interest of academics, activists, politicians and ordinary citizens. In this article, we will explore the different facets of Truncated order-6 octagonal tiling, analyzing its impact, its evolution, and possible solutions to address the challenges it poses.
| Truncated order-6 octagonal tiling | |
|---|---|
 Poincaré disk model of the hyperbolic plane | |
| Type | Hyperbolic uniform tiling |
| Vertex configuration | 6.16.16 |
| Schläfli symbol | t{8,6} |
| Wythoff symbol | 2 6 | 8 |
| Coxeter diagram |    
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| Symmetry group | , (*862) |
| Dual | Order-8 hexakis hexagonal tiling |
| Properties | Vertex-transitive |
In geometry, the truncated order-6 octagonal tiling is a uniform tiling of the hyperbolic plane. It has Schläfli symbol of t{8,6}.
Uniform colorings
A secondary construction t{(8,8,3)} is called a truncated trioctaoctagonal tiling:
Symmetry
The dual to this tiling represent the fundamental domains of (*883) symmetry. There are 3 small index subgroup symmetries constructed from by mirror removal and alternation. In these images fundamental domains are alternately colored black and white, and mirrors exist on the boundaries between colors.
The symmetry can be doubled as 862 symmetry by adding a mirror bisecting the fundamental domain.
| Index | 1 | 2 | 6 | |
|---|---|---|---|---|
| Diagram | 
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| Coxeter (orbifold) |
= (*883) |
=  =  (*4343) |
=  (3*44) |
=   (*444444) |
| Direct subgroups | ||||
| Index | 2 | 4 | 12 | |
| Diagram | 
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| Coxeter (orbifold) |
+ =  (883) |
+ = = (4343) |
+ = (444444) | |
Related polyhedra and tiling
| Uniform octagonal/hexagonal tilings | ||||||
|---|---|---|---|---|---|---|
| Symmetry: , (*862) | ||||||
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| {8,6} | t{8,6} |
r{8,6} | 2t{8,6}=t{6,8} | 2r{8,6}={6,8} | rr{8,6} | tr{8,6} |
| Uniform duals | ||||||
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| V86 | V6.16.16 | V(6.8)2 | V8.12.12 | V68 | V4.6.4.8 | V4.12.16 |
| Alternations | ||||||
(*466) |
(8*3) |
(*4232) |
(6*4) |
(*883) |
(2*43) |
+ (862) |
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| h{8,6} | s{8,6} | hr{8,6} | s{6,8} | h{6,8} | hrr{8,6} | sr{8,6} |
| Alternation duals | ||||||
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| V(4.6)6 | V3.3.8.3.8.3 | V(3.4.4.4)2 | V3.4.3.4.3.6 | V(3.8)8 | V3.45 | V3.3.6.3.8 |
References
- John H. Conway, Heidi Burgiel, Chaim Goodman-Strauss, The Symmetries of Things 2008, ISBN 978-1-56881-220-5 (Chapter 19, The Hyperbolic Archimedean Tessellations)
- "Chapter 10: Regular honeycombs in hyperbolic space". The Beauty of Geometry: Twelve Essays. Dover Publications. 1999. ISBN 0-486-40919-8. LCCN 99035678.
See also
External links
- Weisstein, Eric W. "Hyperbolic tiling". MathWorld.
- Weisstein, Eric W. "Poincaré hyperbolic disk". MathWorld.
- Hyperbolic and Spherical Tiling Gallery
- KaleidoTile 3: Educational software to create spherical, planar and hyperbolic tilings
- Hyperbolic Planar Tessellations, Don Hatch
