Reduced viscosity: Difference between revisions

Latest revision as of 12:44, 23 September 2013

${\tilde{A}}_{2}$	${\tilde{A}}_{3}$
Triangular tiling	Tetrahedral-octahedral honeycomb
With red and yellow equilateral triangles	With cyan and yellow tetrahedra, and red rectified tetrahedra (octahedron)
Template:CDD	Template:CDD

In geometry, the simplectic honeycomb (or n-simplex honeycomb) is a dimensional infinite series of honeycombs, based on the ${\tilde{A}}_{n}$ affine Coxeter group symmetry. It is given a Schläfli symbol {3^[n+1]}, and is represented by a Coxeter-Dynkin diagram as a cyclic graph of n+1 nodes with one node ringed. It is composed of n-simplex facets, along with all rectified n-simplices. The vertex figure of an n-simplex honeycomb is an expanded n-simplex.

In 2 dimensions, the honeycomb represents the triangular tiling, with Coxeter graph Template:CDD filling the plane with alternately colored triangles. In 3 dimensions it represents the tetrahedral-octahedral honeycomb, with Coxeter graph Template:CDD filling space with alternately tetrahedral and octahedral cells. In 4 dimensions it is called the 5-cell honeycomb, with Coxeter graph Template:CDD, with 5-cell and rectified 5-cell facets. In 5 dimensions it is called the 5-simplex honeycomb, with Coxeter graph Template:CDD, filling space by 5-simplex, rectified 5-simplex, and birectified 5-simplex facets. In 6 dimensions it is called the 6-simplex honeycomb, with Coxeter graph Template:CDD, filling space by 6-simplex, rectified 6-simplex, and birectified 6-simplex facets.

By dimension

n	${\tilde{A}}_{2 +}$	Tessellation	Vertex figure	Facets per vertex figure	Vertices per vertex figure	Edge figure
1	${\tilde{A}}_{1}$	Apeirogon Template:CDD	Template:CDD	1	2	-
2	${\tilde{A}}_{2}$	Triangular tiling 2-simplex honeycomb Template:CDD	Hexagon (Truncated triangle) Template:CDD	3 triangles 3 rectified triangles	6	Line segment Template:CDD
3	${\tilde{A}}_{3}$	Tetrahedral-octahedral honeycomb 3-simplex honeycomb Template:CDD	Cuboctahedron (Cantellated tetrahedron) Template:CDD	4+4 tetrahedron 6 rectified tetrahedra	12	Rectangle Template:CDD
4	${\tilde{A}}_{4}$	4-simplex honeycomb Template:CDD	Runcinated 5-cell Template:CDD	5+5 5-cells 10+10 rectified 5-cells	20	Triangular antiprism Template:CDD
5	${\tilde{A}}_{5}$	5-simplex honeycomb Template:CDD	Stericated 5-simplex Template:CDD	6+6 5-simplex 15+15 rectified 5-simplex 20 birectified 5-simplex	30	Tetrahedral antiprism Template:CDD
6	${\tilde{A}}_{6}$	6-simplex honeycomb Template:CDD	Pentellated 6-simplex Template:CDD	7+7 6-simplex 21+21 rectified 6-simplex 35+35 birectified 6-simplex	42	4-simplex antiprism
7	${\tilde{A}}_{7}$	7-simplex honeycomb Template:CDD	Hexicated 7-simplex Template:CDD	8+8 7-simplex 28+28 rectified 7-simplex 56+56 birectified 7-simplex 70 trirectified 7-simplex	56	5-simplex antiprism
8	${\tilde{A}}_{8}$	8-simplex honeycomb Template:CDD	Heptellated 8-simplex Template:CDD	9+9 8-simplex 36+36 rectified 8-simplex 84+84 birectified 8-simplex 126+126 trirectified 8-simplex	72	6-simplex antiprism
9	${\tilde{A}}_{9}$	9-simplex honeycomb Template:CDD	Octellated 9-simplex Template:CDD	10+10 9-simplex 45+45 rectified 9-simplex 120+120 birectified 9-simplex 210+210 trirectified 9-simplex 252 quadrirectified 9-simplex	90	7-simplex antiprism
10	${\tilde{A}}_{10}$	10-simplex honeycomb Template:CDD	Ennecated 10-simplex Template:CDD	11+11 10-simplex 55+55 rectified 10-simplex 165+165 birectified 10-simplex 330+330 trirectified 10-simplex 462+462 quadrirectified 10-simplex	110	8-simplex antiprism
11	${\tilde{A}}_{11}$	11-simplex honeycomb	...	...	...	...

Projection by folding

The (2n-1)-simplex honeycombs and 2n-simplex honeycombs can be projected into the n-dimensional hypercubic honeycomb by a geometric folding operation that maps two pairs of mirrors into each other, sharing the same vertex arrangement:

Kissing number

These honeycombs, seen as tangent n-spheres located at the center of each honeycomb vertex have a fixed number of contacting spheres and correspond to the number of vertices in the vertex figure. For 2 and 3 dimensions, this represents the highest kissing number for 2 and 3 dimensions, but fall short on higher dimensions. In 2-dimensions, the triangular tiling defines a circle packing of 6 tangent spheres arranged in a regular hexagon, and for 3 dimensions there are 12 tangent spheres arranged in an cuboctahedral configuration. For 4 to 8 dimensions, the kissing numbers are 20, 30, 42, 56, and 72 spheres, while the greatest solutions are 24, 40, 72, 126, and 240 spheres respectively.

References

George Olshevsky, Uniform Panoploid Tetracombs, Manuscript (2006) (Complete list of 11 convex uniform tilings, 28 convex uniform honeycombs, and 143 convex uniform tetracombs)
Branko Grünbaum, Uniform tilings of 3-space. Geombinatorics 4(1994), 49 - 56.
Norman Johnson Uniform Polytopes, Manuscript (1991)
Coxeter, H.S.M. Regular Polytopes, (3rd edition, 1973), Dover edition, ISBN 0-486-61480-8
Kaleidoscopes: Selected Writings of H.S.M. Coxeter, edited by F. Arthur Sherk, Peter McMullen, Anthony C. Thompson, Asia Ivic Weiss, Wiley-Interscience Publication, 1995, ISBN 978-0-471-01003-6 [1]
- (Paper 22) H.S.M. Coxeter, Regular and Semi Regular Polytopes I, [Math. Zeit. 46 (1940) 380-407, MR 2,10] (1.9 Uniform space-fillings)
- (Paper 24) H.S.M. Coxeter, Regular and Semi-Regular Polytopes III, [Math. Zeit. 200 (1988) 3-45]

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+{| class=wikitable width=280 align=right style="margin-left:1em"
+!<math>{\tilde{A}}_2</math>
+!<math>{\tilde{A}}_3</math>
+|-
+![[Triangular tiling]]
+![[Tetrahedral-octahedral honeycomb]]
+|-
+|[[File:Uniform_tiling_333-t1.png|120px]]<BR>With red and yellow equilateral triangles
+|[[File:Tetrahedral-octahedral honeycomb2.png|160px]]<BR>With cyan and yellow [[tetrahedron|tetrahedra]], and red rectified tetrahedra ([[octahedron]])
+|-
+!{{CDD|node_1|split1|branch}}
+!{{CDD|node_1|split1|nodes|split2|node}}
+|}
+In [[geometry]], the '''simplectic honeycomb''' (or '''n-simplex honeycomb''') is a dimensional infinite series of [[Honeycomb (geometry)|honeycomb]]s, based on the <math>{\tilde{A}}_n</math> affine [[Coxeter group]] symmetry. It is given a [[Schläfli symbol]] {3<sup>[n+1]</sup>}, and is represented by a [[Coxeter-Dynkin diagram]] as a cyclic graph of ''n+1'' nodes with one node ringed. It is composed of n-[[simplex]] facets, along with all [[Rectification (geometry)|rectified]] n-simplices. The [[vertex figure]] of an ''n-simplex honeycomb'' is an [[Expansion (geometry)|expanded]] n-[[simplex]].
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+In 2 dimensions, the honeycomb represents the [[triangular tiling]], with Coxeter graph {{CDD|node_1|split1|branch}} filling the plane with alternately colored triangles. In 3 dimensions it represents the [[tetrahedral-octahedral honeycomb]], with Coxeter graph {{CDD|node_1|split1|nodes|split2|node}} filling space with alternately tetrahedral and octahedral cells. In 4 dimensions it is called the [[5-cell honeycomb]], with Coxeter graph {{CDD|node_1|split1|nodes|3ab|branch}}, with [[5-cell]] and [[rectified 5-cell]] facets. In 5 dimensions it is called the [[5-simplex honeycomb]], with Coxeter graph {{CDD|node_1|split1|nodes|3ab|nodes|split2|node}}, filling space by [[5-simplex]], [[rectified 5-simplex]], and [[birectified 5-simplex]] facets. In 6 dimensions it is called the [[6-simplex honeycomb]], with Coxeter graph {{CDD|node_1|split1|nodes|3ab|nodes|3ab|branch}}, filling space by [[6-simplex]], [[rectified 6-simplex]], and [[birectified 6-simplex]] facets.
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+== By dimension ==
+{| class="wikitable"
+!height=30|n
+!<math>{\tilde{A}}_{2+}</math>
+!Tessellation
+!Vertex figure
+!Facets per vertex figure
+!Vertices per vertex figure
+!Edge figure
+|- align=center
+|1
+|<math>{\tilde{A}}_1</math>
+|[[File:Regular_apeirogon.png|80px]]<BR>[[Apeirogon]]<BR>{{CDD|node_1|infin|node}}
+|{{CDD|node_1}}
+|1
+|2
+| -
+|- align=center
+|2
+|<math>{\tilde{A}}_2</math>
+|[[Image:Uniform tiling 333-t1.png|80px]]<BR>[[Triangular tiling]]<BR>2-simplex honeycomb<BR>{{CDD|node_1|split1|branch}}
+|[[Image:Truncated triangle.png|80px]]<BR>[[Hexagon]]<BR>(Truncated triangle)<BR>{{CDD|node_1|3|node_1}}
+|3 [[triangle]]s<BR>3 [[hexagon|rectified triangles]]
+|6
+|[[Line segment]]<BR>{{CDD|node_1}}
+|- align=center
+|3
+|<math>{\tilde{A}}_3</math>
+|[[File:Tetrahedral-octahedral honeycomb2.png|80px]]<BR>[[Tetrahedral-octahedral honeycomb]]<BR>3-simplex honeycomb<BR>{{CDD|node_1|split1|nodes|split2|node}}
+|[[File:Uniform_t0_3333_honeycomb_verf2.png|80px]]<BR>[[Cuboctahedron]]<BR>(Cantellated tetrahedron)<BR>{{CDD|node_1|3|node|3|node_1}}
+|4+4 [[tetrahedron]]<BR>6 [[octahedron|rectified tetrahedra]]
+|12
+|[[File:Cuboctahedron vertfig.png|60px]]<BR>[[Rectangle]]<BR>{{CDD|node_1|2|node_1}}
+|- align=center
+|4
+|<math>{\tilde{A}}_4</math>
+|[[4-simplex honeycomb]]<BR>{{CDD|node_1|split1|nodes|3ab|branch}}
+|[[File:4-simplex_honeycomb_verf.png|80px]]<BR>[[Runcinated 5-cell]]<BR>{{CDD|node_1|3|node|3|node|3|node_1}}
+|5+5 [[5-cell]]s<BR>10+10 [[rectified 5-cell]]s
+|20
+|[[File:Runcinated_5-cell_verf.png|60px]]<BR>Triangular antiprism<BR>{{CDD|node_h|3|node_h|2|node_h}}
+|- align=center
+|5
+|<math>{\tilde{A}}_5</math>
+|[[5-simplex honeycomb]]<BR>{{CDD|node_1|split1|nodes|3ab|nodes|split2|node}}
+|[[File:5-simplex_t04_A4.svg|80px]]<BR>[[Stericated 5-simplex]]<BR>{{CDD|node_1|3|node|3|node|3|node|3|node_1}}
+|6+6 [[5-simplex]]<BR>15+15 [[rectified 5-simplex]]<BR>20 [[birectified 5-simplex]]
+|30
+|[[File:Stericated_hexateron_verf.png|60px]]<BR>Tetrahedral antiprism<BR>{{CDD|node|3|node|4|node_h|2|node_h}}
+|- align=center
+|6
+|<math>{\tilde{A}}_6</math>
+|[[6-simplex honeycomb]]<BR>{{CDD|node_1|split1|nodes|3ab|nodes|3ab|branch}}
+|[[File:6-simplex_t05.svg|80px]]<BR>[[Pentellated 6-simplex]]<BR>{{CDD|node_1|3|node|3|node|3|node|3|node|3|node_1}}
+|7+7 [[6-simplex]]<BR>21+21 [[rectified 6-simplex]]<BR>35+35 [[birectified 6-simplex]]
+|42
+|4-simplex antiprism
+|- align=center
+|7
+|<math>{\tilde{A}}_7</math>
+|[[7-simplex honeycomb]]<BR>{{CDD|node_1|split1|nodes|3ab|nodes|3ab|nodes|split2|node}}
+|[[File:7-simplex_t06_A6.svg|80px]]<BR>[[Hexicated 7-simplex]]<BR>{{CDD|node_1|3|node|3|node|3|node|3|node|3|node|3|node_1}}
+|8+8 [[7-simplex]]<BR>28+28 [[rectified 7-simplex]]<BR>56+56 [[birectified 7-simplex]]<BR>70 [[trirectified 7-simplex]]
+|56
+|5-simplex antiprism
+|- align=center
+|8
+|<math>{\tilde{A}}_8</math>
+|[[8-simplex honeycomb]]<BR>{{CDD|node_1|split1|nodes|3ab|nodes|3ab|nodes|3ab|branch}}
+|[[File:8-simplex_t07.svg|80px]]<BR>[[Heptellated 8-simplex]]<BR>{{CDD|node_1|3|node|3|node|3|node|3|node|3|node|3|node|3|node_1}}
+|9+9 [[8-simplex]]<BR>36+36 [[rectified 8-simplex]]<BR>84+84 [[birectified 8-simplex]]<BR>126+126 [[trirectified 8-simplex]]
+|72
+|6-simplex antiprism
+|- align=center
+|9
+|<math>{\tilde{A}}_9</math>
+|[[9-simplex honeycomb]]<BR>{{CDD|node_1|split1|nodes|3ab|nodes|3ab|nodes|3ab|nodes|split2|node}}
+|[[File:9-simplex_t08.svg|80px]]<BR>[[Octellated 9-simplex]]<BR>{{CDD|node_1|3|node|3|node|3|node|3|node|3|node|3|node|3|node|3|node_1}}
+|10+10 [[9-simplex]]<BR>45+45 [[rectified 9-simplex]]<BR>120+120 [[birectified 9-simplex]]<br>210+210 [[trirectified 9-simplex]]<br>252 [[quadrirectified 9-simplex]]
+|90
+|7-simplex antiprism
+|- align=center
+|10
+|<math>{\tilde{A}}_{10}</math>
+|[[10-simplex honeycomb]]<BR>{{CDD|node_1|split1|nodes|3ab|nodes|3ab|nodes|3ab|nodes|3ab|branch}}
+|[[File:10-simplex_t09.svg|80px]]<BR>[[Ennecated 10-simplex]]<BR>{{CDD|node_1|3|node|3|node|3|node|3|node|3|node|3|node|3|node|3|node|3|node_1}}
+|11+11 [[10-simplex]]<BR>55+55 [[rectified 10-simplex]]<BR>165+165 [[birectified 10-simplex]]<BR>330+330 [[trirectified 10-simplex]]<BR>462+462 [[quadrirectified 10-simplex]]
+|110
+|8-simplex antiprism
+|- align=center
+|11
+|<math>{\tilde{A}}_{11}</math>
+|11-simplex honeycomb
+|...
+|...
+|...
+|...
+|}
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+== Projection by folding ==
+The (2n-1)-simplex honeycombs and 2n-simplex honeycombs can be projected into the n-dimensional [[hypercubic honeycomb]] by a [[Coxeter–Dynkin diagram#Geometric folding|geometric folding]] operation that maps two pairs of mirrors into each other, sharing the same [[vertex arrangement]]:
+{|class=wikitable
+|-
+!<math>{\tilde{A}}_2</math>
+|{{CDD|node_1|split1|branch}}
+!<math>{\tilde{A}}_4</math>
+|{{CDD|node_1|split1|nodes|3ab|branch}}
+!<math>{\tilde{A}}_6</math>
+|{{CDD|node_1|split1|nodes|3ab|nodes|3ab|branch}}
+!<math>{\tilde{A}}_8</math>
+|{{CDD|node_1|split1|nodes|3ab|nodes|3ab|nodes|3ab|branch}}
+!<math>{\tilde{A}}_{10}</math>
+|{{CDD|node_1|split1|nodes|3ab|nodes|3ab|nodes|3ab|nodes|3ab|branch}}
+|...
+|-
+!<math>{\tilde{A}}_3</math>
+|{{CDD|nodes_10r|splitcross|nodes}}
+!<math>{\tilde{A}}_3</math>
+|{{CDD|node_1|split1|nodes|split2|node}}
+!<math>{\tilde{A}}_5</math>
+|{{CDD|node_1|split1|nodes|3ab|nodes|split2|node}}
+!<math>{\tilde{A}}_7</math>
+|{{CDD|node_1|split1|nodes|3ab|nodes|3ab|nodes|split2|node}}
+!<math>{\tilde{A}}_9</math>
+|{{CDD|node_1|split1|nodes|3ab|nodes|3ab|nodes|3ab|nodes|split2|node}}
+|...
+|-
+!<math>{\tilde{C}}_1</math>
+|{{CDD|node_1|infin|node}}
+!<math>{\tilde{C}}_2</math>
+|{{CDD|node_1|4|node|4|node}}
+!<math>{\tilde{C}}_3</math>
+|{{CDD|node_1|4|node|3|node|4|node}}
+!<math>{\tilde{C}}_4</math>
+|{{CDD|node_1|4|node|3|node|3|node|4|node}}
+!<math>{\tilde{C}}_5</math>
+|{{CDD|node_1|4|node|3|node|3|node|3|node|4|node}}
+|...
+|}
+== Kissing number ==
+These honeycombs, seen as tangent n-spheres located at the center of each honeycomb vertex have a fixed number of contacting spheres and correspond to the number of vertices in the [[vertex figure]]. For 2 and 3 dimensions, this represents the highest [[kissing number]] for 2 and 3 dimensions, but fall short on higher dimensions. In 2-dimensions, the triangular tiling defines a circle packing of 6 tangent spheres arranged in a regular hexagon, and for 3 dimensions there are 12 tangent spheres arranged in an [[cuboctahedron|cuboctahedral]] configuration. For 4 to 8 dimensions, the kissing numbers are [[Expanded 4-simplex|20]], [[Expanded 5-simplex|30]], [[Expanded 5-simplex|42]], [[Expanded 6-simplex|56]], and [[Expanded 7-simplex|72]] spheres, while the greatest solutions are 24, 40, 72, 126, and 240 spheres respectively.
+== See also==
+* [[Hypercubic honeycomb]]
+* [[Alternated hypercubic honeycomb]]
+* [[Quarter hypercubic honeycomb]]
+* [[Truncated simplectic honeycomb]]
+* [[Omnitruncated simplectic honeycomb]]
+== References ==
+* [[George Olshevsky]], ''Uniform Panoploid Tetracombs'', Manuscript (2006) ''(Complete list of 11 convex uniform tilings, 28 convex uniform honeycombs, and 143 convex uniform tetracombs)''
+* [[Branko Grünbaum]], Uniform tilings of 3-space. [[Geombinatorics]] 4(1994), 49 - 56.
+* [[Norman Johnson (mathematician)|Norman Johnson]] ''Uniform Polytopes'', Manuscript (1991)
+* [[Coxeter|Coxeter, H.S.M.]] ''[[Regular Polytopes (book)|Regular Polytopes]]'', (3rd edition, 1973), Dover edition, ISBN 0-486-61480-8
+* '''Kaleidoscopes: Selected Writings of H.S.M. Coxeter''', edited by F. Arthur Sherk, Peter McMullen, Anthony C. Thompson, Asia Ivic Weiss, Wiley-Interscience Publication, 1995, ISBN 978-0-471-01003-6 [http://www.wiley.com/WileyCDA/WileyTitle/productCd-0471010030.html]
+** (Paper 22) H.S.M. Coxeter, ''Regular and Semi Regular Polytopes I'', [Math. Zeit. 46 (1940) 380-407, MR 2,10] (1.9 Uniform space-fillings)
+** (Paper 24) H.S.M. Coxeter, ''Regular and Semi-Regular Polytopes III'', [Math. Zeit. 200 (1988) 3-45]
+{{Honeycombs}}
+[[Category:Honeycombs (geometry)]]
+[[Category:Polytopes]]

Reduced viscosity: Difference between revisions

Latest revision as of 12:44, 23 September 2013

Contents

By dimension

Projection by folding

Kissing number

See also

References

Navigation menu

Reduced viscosity: Difference between revisions

Latest revision as of 12:44, 23 September 2013

By dimension

Projection by folding

Kissing number

See also

References

Navigation menu

Search