Infinite-order triangular tiling: Difference between revisions

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Revision as of 10:28, 12 January 2014 edit Tomruen (talk \| contribs) Autopatrolled, Extended confirmed users, Pending changes reviewers 120,750 edits →Symmetry ← Previous edit		Latest revision as of 11:18, 15 March 2025 edit undo MediaKyle (talk \| contribs) Autopatrolled, Extended confirmed users 27,398 edits Adding short description: "Concept in geometry" Tag: Shortdesc helper
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Line 1: {{Short description\|Concept in geometry}} {{Uniform hyperbolic tiles db\|Reg hyperbolic tiling stat table\|Ui3_2}} [[File:~~H3_33inf_UHS_plane_at_infinity~~H3 33inf UHS plane at infinity.png\|thumb\|The [[Infinite-order tetrahedral honeycomb\|{3,3,~~∞~~∞}]] honeycomb has {3,~~∞~~∞} vertex figures.]] In [[geometry]], the '''infinite-order triangular tiling''' is a [[regular hyperbolic tiling\|regular tiling]] of the [[hyperbolic geometry\|hyperbolic plane]] with a [[Schläfli symbol]] of {3,~~∞~~∞}. All vertices are ''ideal'', located at "infinity" and seen on the boundary of the [[Poincaré hyperbolic disk]] projection. == Symmetry == A lower symmetry form has alternating colors, and represented by cyclic symbol {(3,~~∞~~∞,3)}, {{CDD\|node_1\|split1\|branch\|labelinfin}}. The tiling also represents the fundamental domains of the [[~~Iii_symmetry~~Iii symmetry\|~~∞∞∞~~∞∞∞ symmetry]], which can be seen with 3 colors of lines representing 3 mirrors of the ~~contruction~~construction. {\| class=wikitable width=450 \|- align=center \|[[File:~~H2checkers_iii~~Infinite-order triangular tiling.~~png~~svg\|~~200px~~150px]]<BR>Alternated colored tiling ~~\|[[File:Iii_symmetry_mirrors.png\|200px]]<BR> ∞∞∞ symmetry~~ \|[[File:~~Apolleangasket_symmetry~~Iii symmetry mirrors.png\|~~200px~~150px]]<BR>~~[[Apollonian gasket]] with~~ ~~∞∞∞~~∞∞∞ symmetry \|[[File:Apolleangasket symmetry.png\|150px]]<BR>[[Apollonian gasket]] with ∞∞∞ symmetry \|} Line 16 ⟶ 18: {{Order i-3 tiling table}} {{Order_i-3-3_tiling_table}} ===Other infinite-order triangular tilings=== A nonregular infinite-order triangular tiling can be generated by a [[Recursion (computer science)\|recursive]] process from a central triangle as shown here: Line 22 ⟶ 24: ==See also== {{~~Commonscat~~Commons category\|Infinite-order triangular tiling}} [[Infinite-order tetrahedral honeycomb]] [[List of regular polytopes]] Line 31 ⟶ 33: ==References== * [[John Horton Conway\|John H. Conway]], Heidi Burgiel, Chaim Goodman-~~Strass~~Strauss, ''The Symmetries of Things'' 2008, {{ISBN \|978-1-56881-220-5}} (Chapter 19, The Hyperbolic Archimedean Tessellations) * {{Cite book\|title=The Beauty of Geometry: Twelve Essays\|year=1999\|publisher=Dover Publications\|lccn=99035678\|isbn=0-486-40919-8\|chapter=Chapter 10: Regular honeycombs in hyperbolic space}} Line 38 ⟶ 40: *{{MathWorld \| urlname=PoincareHyperbolicDisk \| title = Poincaré hyperbolic disk}} ~~[[Category:~~{{Tessellation]]}}▼ [[Category:Hyperbolic geometry]]▼ ▲[[Category:Tessellation]] ▲[[Category:Hyperbolic ~~geometry~~tilings]] [[Category:Infinite-order tilings]] [[Category:Isogonal tilings]] [[Category:Isohedral tilings]] [[Category:Regular tilings]] [[Category:Triangular tilings]]