"타일링과 테셀레이션"의 두 판 사이의 차이
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Pythagoras0 (토론 | 기여) |
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− | + | ==개요== | |
− | * [[ | + | * 테셀레이션 - 동일한 모양을 이용해 평면이나 공간을 빈틈이나 겹쳐지는 부분 없이 채우는 것 |
+ | * [[2차원 평면의 테셀레이션]] | ||
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− | + | ==메모== | |
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+ | * Gerard Westendorp [http://www.xs4all.nl/%7Ewesty31/Geometry/Geometry.html Platonic tilings of Riemann surfaces] | ||
+ | * 타일링 http://www.flickr.com/photos/syngola/sets/72157603528308920/ | ||
* 이슬람의 문양에서 많이 발견됨. | * 이슬람의 문양에서 많이 발견됨. | ||
* 예술가 에셔의 작품에는 이러한 것을 주제로 한 작품이 많음 | * 예술가 에셔의 작품에는 이러한 것을 주제로 한 작품이 많음 | ||
* 에셔는 스페인의 알함브라 궁전에서 이러한 것을 보고 영감을 받았는데, 알함브라는 무어인(북아프리카의 무슬림)들이 스페인 남긴 것. http://www.youtube.com/watch?v=YPoNYrZDraI | * 에셔는 스페인의 알함브라 궁전에서 이러한 것을 보고 영감을 받았는데, 알함브라는 무어인(북아프리카의 무슬림)들이 스페인 남긴 것. http://www.youtube.com/watch?v=YPoNYrZDraI | ||
− | * http://tilings.math.uni-bielefeld.de/ | + | * [http://tilings.math.uni-bielefeld.de/ Tilings Encyclopedia] |
+ | * http://mathoverflow.net/questions/46502/on-the-number-of-archimedean-solids | ||
+ | * [[준결정 (quasicrystal)]] | ||
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− | + | ==하위페이지 == | |
+ | * [[17 Plane Crystallographic groups]] | ||
+ | * [[7개의 프리즈 패턴]] | ||
+ | * [[아르키메데스 타일링]] | ||
+ | * [[정다면체]] | ||
+ | * [[2차원 쌍곡기하학의 테셀레이션]] | ||
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− | + | ==관련된 항목들== | |
− | + | * [[반사 변환]] | |
− | + | * [[반전 사상(inversion)]] | |
+ | * [[유한반사군과 콕세터군(finite reflection groups and Coxeter groups)]] | ||
+ | * [[축구공의 수학]] | ||
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− | + | ==사전 형태의 자료== | |
− | + | * http://en.wikipedia.org/wiki/Domino_%28mathematics%29 | |
+ | * http://mathworld.wolfram.com/TruchetTiling.html | ||
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− | + | ==에세이, 리뷰, 강의노트== | |
− | + | * Dana Mackenzie, [http://www.jstor.org/stable/2974640 A Hyperbolic Plane Coloring and the Simple Group of Order 168], The American Mathematical Monthly, Vol. 102, No. 8 (Oct., 1995), pp. 706-715 | |
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− | + | ==관련논문== | |
+ | * Nelson, Roice, and Henry Segerman. “Visualizing Hyperbolic Honeycombs.” arXiv:1511.02851 [math], November 7, 2015. http://arxiv.org/abs/1511.02851. | ||
+ | * Gao, Honghao, Nan Shi, and Min Yan. 2013. “Spherical Tiling by 12 Congruent Pentagons.” Journal of Combinatorial Theory, Series A 120 (4): 744–76. doi:10.1016/j.jcta.2012.12.006. | ||
+ | * Mendelsohn, N. S. 2004. “Tiling with Dominoes”. <em>The College Mathematics Journal</em> 35 (2) (3월 1): 115-120. doi:10.2307/4146865. | ||
− | + | ==관련기사== | |
− | * [http://www. | + | * [http://www.segye.com/Articles/News/Society/Article.asp?aid=20070708000782&ctg1=09&ctg2=00&subctg1=09&subctg2=00&cid=0101080900000&dataid=200707081658000177 [재미있는수학교실]빈틈없이 평면 덮기] 정미자 신림고 수학교사 세계일보, 2007-07-09 |
− | * | + | * [http://news.khan.co.kr/section/khan_art_view.html?mode=view&artid=200712040927211&code=900314 [예술속 수학이야기](45)에셔와 테셀레이션] 김정하·인천건지초등학교교사 경향신문, 2007년 12월 04일 |
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− | + | ==블로그== | |
− | + | * [http://bomber0.byus.net/index.php/2008/01/08/509 에셔의 예술에 공헌한 수학] 피타고라스의 창, 2008-1-8 | |
+ | * [http://bomber0.byus.net/index.php/2008/08/02/703 E8이란 무엇인가 (2) : 8차원에서 내려온 그림자] 피타고라스의 창, 2008-8-2 | ||
− | + | == 노트 == | |
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− | + | # A semi-regular tessellation is made of two or more regular polygons.<ref name="ref_9bf0">[https://www.mathsisfun.com/geometry/tessellation.html Tessellation]</ref> | |
+ | # To name a tessellation, go around a vertex and write down how many sides each polygon has, in order ... like "3.12.12".<ref name="ref_9bf0" /> | ||
+ | # 1953 ROTATION - A Tessellation which the shape repeats by rotating or turning.<ref name="ref_18a5">[https://sites.google.com/site/tessellationunit/tessellations/kinds-of-tessellations Kinds of Tessellations]</ref> | ||
+ | # A Tessellation which the shape repeats by reflecting or flipping.<ref name="ref_18a5" /> | ||
+ | # A real physical tessellation is a tiling made of materials such as cemented ceramic squares or hexagons.<ref name="ref_fb35">[https://en.wikipedia.org/wiki/Tessellation Tessellation]</ref> | ||
+ | # Historically, tessellations were used in Ancient Rome and in Islamic art such as in the decorative geometric tiling of the Alhambra palace.<ref name="ref_fb35" /> | ||
+ | # Tessellations are sometimes employed for decorative effect in quilting.<ref name="ref_fb35" /> | ||
+ | # In 1619 Johannes Kepler made an early documented study of tessellations.<ref name="ref_fb35" /> | ||
+ | # Tessellations are a fun, hands-on way to explore STEAM, whether you are in art class, math class, or in a STEM or STEAM classroom.<ref name="ref_3dd4">[https://stemactivitiesforkids.com/2019/10/08/create-a-simple-tessellation/ Create a Simple Tessellation]</ref> | ||
+ | # Tessellations are patterns resulting from arranging, or tiling, shapes without any gaps.<ref name="ref_3dd4" /> | ||
+ | # This is the type of tessellation you can make easily with a sticky note (as shown below).<ref name="ref_3dd4" /> | ||
+ | # Rotation tessellations are accomplished by (you guessed it!) rotating the tessellated shape.<ref name="ref_3dd4" /> | ||
+ | # A tiling of regular polygons (in two dimensions), polyhedra (three dimensions), or polytopes ( dimensions) is called a tessellation.<ref name="ref_bd94">[https://mathworld.wolfram.com/Tessellation.html Tessellation -- from Wolfram MathWorld]</ref> | ||
+ | # In the plane, there are eight such tessellations, illustrated above (Ghyka 1977, pp. 76-78; Williams 1979, pp.<ref name="ref_bd94" /> | ||
+ | # A tessellation of -dimensional polytopes is called a honeycomb.<ref name="ref_bd94" /> | ||
+ | # The tessellation process is divided into three stages which form an optional part of Vertex Processing in the rendering pipeline.<ref name="ref_67b5">[https://www.khronos.org/opengl/wiki/Tessellation Tessellation]</ref> | ||
+ | # The amount of tessellation done in this case is taken from default values set into the context.<ref name="ref_67b5" /> | ||
+ | # This stage is only executed if a tessellation evaluation shader (TES) is active in the current program or program pipeline.<ref name="ref_67b5" /> | ||
+ | # The TES can also force the generation of the tessellation as a series of points rather than triangles or lines by providing the primitive.<ref name="ref_67b5" /> | ||
+ | # But tessellations can be formed from multiple shapes.<ref name="ref_07ab">[https://www.dictionary.com/browse/tessellation Definition of Tessellation at Dictionary.com]</ref> | ||
+ | # The word tessellation can also refer to the act of tessellating—forming such a pattern.<ref name="ref_07ab" /> | ||
+ | # Example: The building was designed to look like a tessellation in the form of a honeycomb pattern.<ref name="ref_07ab" /> | ||
+ | # There are three regular shapes that make up regular tessellations: the equilateral triangle, the square and the regular hexagon.<ref name="ref_642a">[https://www.livescience.com/50027-tessellation-tiling.html Tessellation: The Geometry of Tiles, Honeycombs and M.C. Escher]</ref> | ||
+ | # Equilateral triangles, squares and regular hexagons make up regular tessellations.<ref name="ref_642a" /> | ||
+ | # Semi-regular tessellations are made of more than one kind of regular polygon.<ref name="ref_642a" /> | ||
+ | # Within the limit of the same shapes surrounding each vertex (the points where the corners meet), there are eight such tessellations.<ref name="ref_642a" /> | ||
+ | # : Create a tessellation by deforming a triangle, rectangle or hexagon to form a polygon that tiles the plane.<ref name="ref_a3d2">[http://www.shodor.org/interactivate/activities/Tessellate/ Interactivate: Tessellate!]</ref> | ||
+ | # Tessellation is when shapes fit together in a pattern with no gaps or overlaps.<ref name="ref_411d">[https://www.bbc.co.uk/bitesize/topics/zjv39j6/articles/zgxwfcw What is tessellation?]</ref> | ||
+ | # Alain Nicolas, the great French tessellation artist, has posted a gallery of new original tessellations that are quite amazing.<ref name="ref_58e7">[http://www.tessellations.org/ M. C. Escher and how to make your own Tessellation Art]</ref> | ||
+ | # Try coloring our new "Angry Birds" tessellation.<ref name="ref_58e7" /> | ||
+ | # Brick walls, tiled floors, and the honeycomb in bee hives are all tessellations.<ref name="ref_58e7" /> | ||
+ | # Yes, we'd be happy to post your class's tessellations in a "school gallery" on www.Tessellations.org.<ref name="ref_58e7" /> | ||
+ | # We can study the way regular polygons interact with each other, and one way they can do so is through tessellations.<ref name="ref_cc9b">[https://www.starhop.com/blog/2020/4/3/at-home-stem-activities-tessellations At-Home STEM Activities: Tessellations—Exploration and M.C. Escher-Inspired Drawing — McAuliffe-Shepard Discovery Center]</ref> | ||
+ | # A regular tessellation is one made using only one regular polygon.<ref name="ref_cc9b" /> | ||
+ | # A semi-regular tessellation uses two or more regular polygons.<ref name="ref_cc9b" /> | ||
+ | # A tessellation is a repeated series of geometric shapes that covers a surface with no gaps or overlapping of the shapes.<ref name="ref_426d">[https://sciencing.com/rules-creating-tessellations-8736965.html Rules for Creating Tessellations]</ref> | ||
+ | # Tessellations are used in works of art, fabric patterns or to teach abstract mathematical concepts, such as symmetry.<ref name="ref_426d" /> | ||
+ | # All regular tessellations must be made of regular polygons.<ref name="ref_426d" /> | ||
+ | # However, not all regular polygons can be used to create a tessellation because their sides do not line up evenly.<ref name="ref_426d" /> | ||
+ | # The words tessellate and tessellation come from a Latin word which means "small stones" and "to pave with small stones".<ref name="ref_0710">[https://www2.gvsu.edu/oxfordj/geom.html The words tessellate and tessellation come from a Latin word which means “small]</ref> | ||
+ | # We will now look at different types of tessellations that deal with regular polygons.<ref name="ref_0710" /> | ||
+ | # A tessellation is a pattern of shapes repeated to fill a plane.<ref name="ref_1a7c">[https://www.math.net/tessellation Tessellation]</ref> | ||
+ | # Tessellations are something we often see in quilts, carpets, floors, and more.<ref name="ref_1a7c" /> | ||
+ | # For the tessellation above composed of squares to the left, the sum of the angles at a vertex are 90°+90°+90°+90°=360°.<ref name="ref_1a7c" /> | ||
+ | # A regular tessellation is made up of regular congruent polygons.<ref name="ref_1a7c" /> | ||
+ | # That function computes triangle edge and inside tessellation factors.<ref name="ref_be88">[https://docs.unity3d.com/2019.3/Documentation/Manual/SL-SurfaceShaderTessellation.html Manual: Surface Shaders with DX11 / OpenGL Core Tessellation]</ref> | ||
+ | # This next example shows a surface shader that does some displacement mapping without using tessellation.<ref name="ref_be88" /> | ||
+ | # This is not needed yet, but it’s more efficient for tessellation to use as small structure as possible.<ref name="ref_be88" /> | ||
+ | # Purely distance based tessellation is effective only when triangle sizes are quite similar.<ref name="ref_be88" /> | ||
+ | # As one journey — the classification of all convex polygon tessellations — ends, another is just beginning.<ref name="ref_1122">[https://www.merriam-webster.com/dictionary/tessellation Definition of Tessellation by Merriam-Webster]</ref> | ||
+ | # The squinting eyes, the jut of the chin, the precise tessellation of the lower lip and upper lip stay the same.<ref name="ref_1122" /> | ||
+ | # Start with creating a tessellation shape using the "translation pattern" ( see the steps below ).<ref name="ref_4516">[https://juliannakunstler.com/art1_tessellations.html Tessellations. Art lesson.]</ref> | ||
+ | # There are few patterns that you can follow to construct a tessellation.<ref name="ref_4516" /> | ||
+ | # This tessellation was based on a hexagon.<ref name="ref_4516" /> | ||
+ | # Do you know what is the definition of tessellation and what does it take to create one?<ref name="ref_1428">[https://www.widewalls.ch/magazine/tessellation-mathematics-method-art Tessellation Patterns - From Mathematics to Art]</ref> | ||
+ | # A fundamental region is a shape that is repeated in order to form a tessellation.<ref name="ref_1428" /> | ||
+ | # One shape of a tile in a tessellation is called a prototile.<ref name="ref_1428" /> | ||
+ | # Based on the types of polygons, tessellations are classified as regular, semi-regular and non-regular or irregular.<ref name="ref_1428" /> | ||
+ | # Therefore, these complex structures can be interpreted as interwoven tessellations of the α and β phases.<ref name="ref_134a">[https://www.nature.com/articles/s41467-018-07323-6 Two-dimensional tessellation by molecular tiles constructed from halogen–halogen and halogen–metal networks]</ref> | ||
+ | # 4e–g) reveal the detailed structures around the tessellation vertices.<ref name="ref_134a" /> | ||
+ | # The angular sum of the polygons involved is therefore 360°, resulting in perfect tessellation.<ref name="ref_134a" /> | ||
+ | # These complex tessellations can be regarded as two different phases interweaving in multiple ways.<ref name="ref_134a" /> | ||
+ | # Here you can create your own tessellations using regular polygons.<ref name="ref_287d">[https://mathigon.org/course/polyhedra/tessellations Tessellations – Polygons and Polyhedra – Mathigon]</ref> | ||
+ | # At every vertex in the tessellation, the internal angles of multiple different polygons meet.<ref name="ref_287d" /> | ||
+ | # Tessellations in Art Many artists, architects and designers use tessellations in their work.<ref name="ref_287d" /> | ||
+ | # All the tessellations we saw so far have one thing in common: they are periodic.<ref name="ref_287d" /> | ||
+ | # A tessellation of the plane is an arrangement of polygons which cover the plane without gaps or overlapping.<ref name="ref_6b1a">[https://tasks.illustrativemathematics.org/content-standards/HSA/CED/A/2/tasks/1125 Illustrative Mathematics]</ref> | ||
+ | # The goal of the task is to use algebra in order to understand which tessellations of the plane with regular polygons are possible.<ref name="ref_6b1a" /> | ||
+ | # In particular, students, perhaps in groups, should be encouraged to produce their own (non-regular) tessellations of the plane.<ref name="ref_6b1a" /> | ||
+ | # Tessellations and Fractals are two different art techniques that often get mistaken for one another despite being nothing alike.<ref name="ref_f164">[https://fractalerts.com/blog/tessellations-and-fractals/ Tessellations and fractals? What's the difference between the two?]</ref> | ||
+ | # Regular tessellations are tile coverings made up of only one shape.<ref name="ref_f164" /> | ||
+ | # Semi-regular tessellations: When two or three different polygonal shapes share a common vortex, it is called a semi-regular tessellation.<ref name="ref_f164" /> | ||
+ | # C. Escher used tessellation patterns extensively in his work, often to great effect.<ref name="ref_f164" /> | ||
+ | # Tessellation is a system of shapes which are fitted together to cover a plane, without any gaps or overlapping.<ref name="ref_ef42">[https://nrich.maths.org/2577 Shaping up with Tessellations]</ref> | ||
+ | # The word tessellation itself derives from the Greek tessera, which is associated with four, square and tile.<ref name="ref_ef42" /> | ||
+ | # Tessellations are a common feature of decorative art and occur in the natural world all around us.<ref name="ref_ef42" /> | ||
+ | # Traditionally, the pattern formed by a tessellation is repetitive.<ref name="ref_ef42" /> | ||
+ | # Tessellations run the gamut from basic to boggling.<ref name="ref_d8b8">[https://science.howstuffworks.com/math-concepts/tessellations.htm How Tessellations Work]</ref> | ||
+ | # All tessellations, even shapely and complex ones like M.C. Escher's, begin with a shape that repeats without gaps.<ref name="ref_d8b8" /> | ||
+ | # No tessellation talent outshines Dutch graphic artist M.C. Escher.<ref name="ref_d8b8" /> | ||
+ | # In the context of quilting, tessellation refers to regular and semiregular of tessellation of either patch shapes or the overall design.<ref name="ref_dc90">[https://dictionary.cambridge.org/dictionary/english/tessellation meaning in the Cambridge English Dictionary]</ref> | ||
+ | # Then make your own tessellations inspired by artist M.C. Escher .<ref name="ref_3ced">[https://www.teachkidsart.net/tessellations/ Tessellations]</ref> | ||
+ | # To our knowledge, this is a genuine molecular-level realization of a 2D superstructure exhibiting this kind of surface tessellation.<ref name="ref_0a4f">[https://www.pnas.org/content/110/17/6678 Five-vertex Archimedean surface tessellation by lanthanide-directed molecular self-assembly]</ref> | ||
+ | ===소스=== | ||
+ | <references /> | ||
− | |||
− | + | [[분류:중학수학]] | |
+ | [[분류:테셀레이션]] | ||
− | * [ | + | ==메타데이터== |
− | + | ===위키데이터=== | |
− | * [ | + | * ID : [https://www.wikidata.org/wiki/Q3751781 Q3751781] |
− | + | ===Spacy 패턴 목록=== | |
+ | * [{'LEMMA': 'domino'}] |
2021년 2월 17일 (수) 05:04 기준 최신판
개요
- 테셀레이션 - 동일한 모양을 이용해 평면이나 공간을 빈틈이나 겹쳐지는 부분 없이 채우는 것
- 2차원 평면의 테셀레이션
메모
- Gerard Westendorp Platonic tilings of Riemann surfaces
- 타일링 http://www.flickr.com/photos/syngola/sets/72157603528308920/
- 이슬람의 문양에서 많이 발견됨.
- 예술가 에셔의 작품에는 이러한 것을 주제로 한 작품이 많음
- 에셔는 스페인의 알함브라 궁전에서 이러한 것을 보고 영감을 받았는데, 알함브라는 무어인(북아프리카의 무슬림)들이 스페인 남긴 것. http://www.youtube.com/watch?v=YPoNYrZDraI
- Tilings Encyclopedia
- http://mathoverflow.net/questions/46502/on-the-number-of-archimedean-solids
- 준결정 (quasicrystal)
하위페이지
관련된 항목들
사전 형태의 자료
- http://en.wikipedia.org/wiki/Domino_%28mathematics%29
- http://mathworld.wolfram.com/TruchetTiling.html
에세이, 리뷰, 강의노트
- Dana Mackenzie, A Hyperbolic Plane Coloring and the Simple Group of Order 168, The American Mathematical Monthly, Vol. 102, No. 8 (Oct., 1995), pp. 706-715
관련논문
- Nelson, Roice, and Henry Segerman. “Visualizing Hyperbolic Honeycombs.” arXiv:1511.02851 [math], November 7, 2015. http://arxiv.org/abs/1511.02851.
- Gao, Honghao, Nan Shi, and Min Yan. 2013. “Spherical Tiling by 12 Congruent Pentagons.” Journal of Combinatorial Theory, Series A 120 (4): 744–76. doi:10.1016/j.jcta.2012.12.006.
- Mendelsohn, N. S. 2004. “Tiling with Dominoes”. The College Mathematics Journal 35 (2) (3월 1): 115-120. doi:10.2307/4146865.
관련기사
- [재미있는수학교실빈틈없이 평면 덮기] 정미자 신림고 수학교사 세계일보, 2007-07-09
- [예술속 수학이야기(45)에셔와 테셀레이션] 김정하·인천건지초등학교교사 경향신문, 2007년 12월 04일
블로그
- 에셔의 예술에 공헌한 수학 피타고라스의 창, 2008-1-8
- E8이란 무엇인가 (2) : 8차원에서 내려온 그림자 피타고라스의 창, 2008-8-2
노트
- A semi-regular tessellation is made of two or more regular polygons.[1]
- To name a tessellation, go around a vertex and write down how many sides each polygon has, in order ... like "3.12.12".[1]
- 1953 ROTATION - A Tessellation which the shape repeats by rotating or turning.[2]
- A Tessellation which the shape repeats by reflecting or flipping.[2]
- A real physical tessellation is a tiling made of materials such as cemented ceramic squares or hexagons.[3]
- Historically, tessellations were used in Ancient Rome and in Islamic art such as in the decorative geometric tiling of the Alhambra palace.[3]
- Tessellations are sometimes employed for decorative effect in quilting.[3]
- In 1619 Johannes Kepler made an early documented study of tessellations.[3]
- Tessellations are a fun, hands-on way to explore STEAM, whether you are in art class, math class, or in a STEM or STEAM classroom.[4]
- Tessellations are patterns resulting from arranging, or tiling, shapes without any gaps.[4]
- This is the type of tessellation you can make easily with a sticky note (as shown below).[4]
- Rotation tessellations are accomplished by (you guessed it!) rotating the tessellated shape.[4]
- A tiling of regular polygons (in two dimensions), polyhedra (three dimensions), or polytopes ( dimensions) is called a tessellation.[5]
- In the plane, there are eight such tessellations, illustrated above (Ghyka 1977, pp. 76-78; Williams 1979, pp.[5]
- A tessellation of -dimensional polytopes is called a honeycomb.[5]
- The tessellation process is divided into three stages which form an optional part of Vertex Processing in the rendering pipeline.[6]
- The amount of tessellation done in this case is taken from default values set into the context.[6]
- This stage is only executed if a tessellation evaluation shader (TES) is active in the current program or program pipeline.[6]
- The TES can also force the generation of the tessellation as a series of points rather than triangles or lines by providing the primitive.[6]
- But tessellations can be formed from multiple shapes.[7]
- The word tessellation can also refer to the act of tessellating—forming such a pattern.[7]
- Example: The building was designed to look like a tessellation in the form of a honeycomb pattern.[7]
- There are three regular shapes that make up regular tessellations: the equilateral triangle, the square and the regular hexagon.[8]
- Equilateral triangles, squares and regular hexagons make up regular tessellations.[8]
- Semi-regular tessellations are made of more than one kind of regular polygon.[8]
- Within the limit of the same shapes surrounding each vertex (the points where the corners meet), there are eight such tessellations.[8]
- : Create a tessellation by deforming a triangle, rectangle or hexagon to form a polygon that tiles the plane.[9]
- Tessellation is when shapes fit together in a pattern with no gaps or overlaps.[10]
- Alain Nicolas, the great French tessellation artist, has posted a gallery of new original tessellations that are quite amazing.[11]
- Try coloring our new "Angry Birds" tessellation.[11]
- Brick walls, tiled floors, and the honeycomb in bee hives are all tessellations.[11]
- Yes, we'd be happy to post your class's tessellations in a "school gallery" on www.Tessellations.org.[11]
- We can study the way regular polygons interact with each other, and one way they can do so is through tessellations.[12]
- A regular tessellation is one made using only one regular polygon.[12]
- A semi-regular tessellation uses two or more regular polygons.[12]
- A tessellation is a repeated series of geometric shapes that covers a surface with no gaps or overlapping of the shapes.[13]
- Tessellations are used in works of art, fabric patterns or to teach abstract mathematical concepts, such as symmetry.[13]
- All regular tessellations must be made of regular polygons.[13]
- However, not all regular polygons can be used to create a tessellation because their sides do not line up evenly.[13]
- The words tessellate and tessellation come from a Latin word which means "small stones" and "to pave with small stones".[14]
- We will now look at different types of tessellations that deal with regular polygons.[14]
- A tessellation is a pattern of shapes repeated to fill a plane.[15]
- Tessellations are something we often see in quilts, carpets, floors, and more.[15]
- For the tessellation above composed of squares to the left, the sum of the angles at a vertex are 90°+90°+90°+90°=360°.[15]
- A regular tessellation is made up of regular congruent polygons.[15]
- That function computes triangle edge and inside tessellation factors.[16]
- This next example shows a surface shader that does some displacement mapping without using tessellation.[16]
- This is not needed yet, but it’s more efficient for tessellation to use as small structure as possible.[16]
- Purely distance based tessellation is effective only when triangle sizes are quite similar.[16]
- As one journey — the classification of all convex polygon tessellations — ends, another is just beginning.[17]
- The squinting eyes, the jut of the chin, the precise tessellation of the lower lip and upper lip stay the same.[17]
- Start with creating a tessellation shape using the "translation pattern" ( see the steps below ).[18]
- There are few patterns that you can follow to construct a tessellation.[18]
- This tessellation was based on a hexagon.[18]
- Do you know what is the definition of tessellation and what does it take to create one?[19]
- A fundamental region is a shape that is repeated in order to form a tessellation.[19]
- One shape of a tile in a tessellation is called a prototile.[19]
- Based on the types of polygons, tessellations are classified as regular, semi-regular and non-regular or irregular.[19]
- Therefore, these complex structures can be interpreted as interwoven tessellations of the α and β phases.[20]
- 4e–g) reveal the detailed structures around the tessellation vertices.[20]
- The angular sum of the polygons involved is therefore 360°, resulting in perfect tessellation.[20]
- These complex tessellations can be regarded as two different phases interweaving in multiple ways.[20]
- Here you can create your own tessellations using regular polygons.[21]
- At every vertex in the tessellation, the internal angles of multiple different polygons meet.[21]
- Tessellations in Art Many artists, architects and designers use tessellations in their work.[21]
- All the tessellations we saw so far have one thing in common: they are periodic.[21]
- A tessellation of the plane is an arrangement of polygons which cover the plane without gaps or overlapping.[22]
- The goal of the task is to use algebra in order to understand which tessellations of the plane with regular polygons are possible.[22]
- In particular, students, perhaps in groups, should be encouraged to produce their own (non-regular) tessellations of the plane.[22]
- Tessellations and Fractals are two different art techniques that often get mistaken for one another despite being nothing alike.[23]
- Regular tessellations are tile coverings made up of only one shape.[23]
- Semi-regular tessellations: When two or three different polygonal shapes share a common vortex, it is called a semi-regular tessellation.[23]
- C. Escher used tessellation patterns extensively in his work, often to great effect.[23]
- Tessellation is a system of shapes which are fitted together to cover a plane, without any gaps or overlapping.[24]
- The word tessellation itself derives from the Greek tessera, which is associated with four, square and tile.[24]
- Tessellations are a common feature of decorative art and occur in the natural world all around us.[24]
- Traditionally, the pattern formed by a tessellation is repetitive.[24]
- Tessellations run the gamut from basic to boggling.[25]
- All tessellations, even shapely and complex ones like M.C. Escher's, begin with a shape that repeats without gaps.[25]
- No tessellation talent outshines Dutch graphic artist M.C. Escher.[25]
- In the context of quilting, tessellation refers to regular and semiregular of tessellation of either patch shapes or the overall design.[26]
- Then make your own tessellations inspired by artist M.C. Escher .[27]
- To our knowledge, this is a genuine molecular-level realization of a 2D superstructure exhibiting this kind of surface tessellation.[28]
소스
- ↑ 1.0 1.1 Tessellation
- ↑ 2.0 2.1 Kinds of Tessellations
- ↑ 3.0 3.1 3.2 3.3 Tessellation
- ↑ 4.0 4.1 4.2 4.3 Create a Simple Tessellation
- ↑ 5.0 5.1 5.2 Tessellation -- from Wolfram MathWorld
- ↑ 6.0 6.1 6.2 6.3 Tessellation
- ↑ 7.0 7.1 7.2 Definition of Tessellation at Dictionary.com
- ↑ 8.0 8.1 8.2 8.3 Tessellation: The Geometry of Tiles, Honeycombs and M.C. Escher
- ↑ Interactivate: Tessellate!
- ↑ What is tessellation?
- ↑ 11.0 11.1 11.2 11.3 M. C. Escher and how to make your own Tessellation Art
- ↑ 12.0 12.1 12.2 At-Home STEM Activities: Tessellations—Exploration and M.C. Escher-Inspired Drawing — McAuliffe-Shepard Discovery Center
- ↑ 13.0 13.1 13.2 13.3 Rules for Creating Tessellations
- ↑ 14.0 14.1 The words tessellate and tessellation come from a Latin word which means “small
- ↑ 15.0 15.1 15.2 15.3 Tessellation
- ↑ 16.0 16.1 16.2 16.3 Manual: Surface Shaders with DX11 / OpenGL Core Tessellation
- ↑ 17.0 17.1 Definition of Tessellation by Merriam-Webster
- ↑ 18.0 18.1 18.2 Tessellations. Art lesson.
- ↑ 19.0 19.1 19.2 19.3 Tessellation Patterns - From Mathematics to Art
- ↑ 20.0 20.1 20.2 20.3 Two-dimensional tessellation by molecular tiles constructed from halogen–halogen and halogen–metal networks
- ↑ 21.0 21.1 21.2 21.3 Tessellations – Polygons and Polyhedra – Mathigon
- ↑ 22.0 22.1 22.2 Illustrative Mathematics
- ↑ 23.0 23.1 23.2 23.3 Tessellations and fractals? What's the difference between the two?
- ↑ 24.0 24.1 24.2 24.3 Shaping up with Tessellations
- ↑ 25.0 25.1 25.2 How Tessellations Work
- ↑ meaning in the Cambridge English Dictionary
- ↑ Tessellations
- ↑ Five-vertex Archimedean surface tessellation by lanthanide-directed molecular self-assembly
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- [{'LEMMA': 'domino'}]