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Line 2: 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", seen on the boundary of the [[Poincaré hyperbolic disk]] projection. == Related polyhedra and tiling == This tiling is topologically related as a part of sequence of regular polyhedra with [[Schläfli symbol]] {3,p}. {{Triangular regular tiling}} Line 9 ⟶ 8: {{Order i-3 tiling table}} === Other infinite-order trianglar tilings=== A nonregular infinite-order trianglar tiling can be generated by a [[Recursion (computer science)\|recursive]] process from a central triangle shown here: :[[File:Ideal-triangle hyperbolic tiling.svg\|240px]] Line 23 ⟶ 21: ==References== ~~{{reflist}}~~ ~~{{refbegin}}~~ * [[John Horton Conway\|John H. Conway]], Heidi Burgiel, Chaim Goodman-Strass, ''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}} == External links == {{MathWorld \| urlname= HyperbolicTiling \| title = Hyperbolic tiling}} {{MathWorld \| urlname=PoincareHyperbolicDisk \| title = Poincaré hyperbolic disk }} [[Category:Hyperbolic geometry]] [[Category:Tessellation]]

Infinite-order triangular tiling: Difference between revisions