See great rhombicuboctahedron on Wiktionary
{ "etymology_text": "From great + rhombicuboctahedron, referring to the fact that, similarly to the rhombicuboctahedron, the 12 square faces lie in the same planes as the 12 faces of the rhombic dodecahedron, the dual of the cuboctahedron.", "forms": [ { "form": "great rhombicuboctahedra", "tags": [ "plural" ] }, { "form": "great rhombicuboctahedrons", "tags": [ "plural" ] } ], "head_templates": [ { "args": { "1": "great rhombicuboctahedra", "2": "s" }, "expansion": "great rhombicuboctahedron (plural great rhombicuboctahedra or great rhombicuboctahedrons)", "name": "en-noun" } ], "lang": "English", "lang_code": "en", "pos": "noun", "senses": [ { "categories": [ { "kind": "other", "name": "English entries with incorrect language header", "parents": [ "Entries with incorrect language header", "Entry maintenance" ], "source": "w" }, { "kind": "other", "name": "Entries with translation boxes", "parents": [], "source": "w" }, { "kind": "other", "name": "Pages with 1 entry", "parents": [], "source": "w" }, { "kind": "other", "name": "Pages with entries", "parents": [], "source": "w" }, { "kind": "other", "name": "Terms with Italian translations", "parents": [], "source": "w" }, { "kind": "topical", "langcode": "en", "name": "Geometry", "orig": "en:Geometry", "parents": [ "Mathematics", "Formal sciences", "Sciences", "All topics", "Fundamental" ], "source": "w" }, { "kind": "topical", "langcode": "en", "name": "Polyhedra", "orig": "en:Polyhedra", "parents": [ "Shapes", "Geometry", "Mathematics", "Formal sciences", "Sciences", "All topics", "Fundamental" ], "source": "w" } ], "derived": [ { "word": "pseudo-great rhombicuboctahedron" } ], "examples": [ { "ref": "1977, Wucius Wong, Principles of Three Dimensional Design, page 70:", "text": "Figure 244 — the structure for this complicated design is the great rhombicuboctahedron, which consists of octagonal, hexagonal, and square faces.", "type": "quote" }, { "ref": "2005, M. Cahay, Nanoscale Devices, Materials, and Biological Systems: Fundamentals and Applications : Proceedings of the International Symposium, page 513:", "text": "Zeolite A consists of truncated octahedra flanking the edges of a larger cube; they are connected along the edges by smaller cubes, and the truncated octahedra and cubes flank a great rhombicuboctahedron at the center (28).", "type": "quote" }, { "ref": "2012, Edward S. Popko, Divided Spheres: Geodesics and the Orderly Subdivision of the Sphere, page 169:", "text": "The great rhombicuboctahedron can be made by truncating the cuboctahedron's vertices.", "type": "quote" } ], "glosses": [ "An Archimedean solid that is isogonal and has twenty-six regular faces (twelve square, eight hexagonal and six octagonal)." ], "id": "en-great_rhombicuboctahedron-en-noun-~IZx-526", "links": [ [ "geometry", "geometry" ], [ "Archimedean solid", "Archimedean solid" ], [ "isogonal", "isogonal" ], [ "face", "face" ], [ "square", "square" ], [ "hexagon", "hexagon" ], [ "octagon", "octagon" ] ], "raw_glosses": [ "(geometry) An Archimedean solid that is isogonal and has twenty-six regular faces (twelve square, eight hexagonal and six octagonal)." ], "synonyms": [ { "sense": "polyhedron with 12 square, 8 hexagonal and 6 octagonal faces", "word": "truncated cuboctahedron" } ], "topics": [ "geometry", "mathematics", "sciences" ], "translations": [ { "code": "it", "lang": "Italian", "sense": "polyhedron with 12 square, 8 hexagonal and 6 octagonal faces", "tags": [ "masculine" ], "word": "cubottaedro troncato" }, { "code": "it", "lang": "Italian", "sense": "polyhedron with 12 square, 8 hexagonal and 6 octagonal faces", "tags": [ "masculine" ], "word": "grande rombicubottaedro" } ], "wikipedia": [ "Truncated cuboctahedron" ] } ], "word": "great rhombicuboctahedron" }
{ "derived": [ { "word": "pseudo-great rhombicuboctahedron" } ], "etymology_text": "From great + rhombicuboctahedron, referring to the fact that, similarly to the rhombicuboctahedron, the 12 square faces lie in the same planes as the 12 faces of the rhombic dodecahedron, the dual of the cuboctahedron.", "forms": [ { "form": "great rhombicuboctahedra", "tags": [ "plural" ] }, { "form": "great rhombicuboctahedrons", "tags": [ "plural" ] } ], "head_templates": [ { "args": { "1": "great rhombicuboctahedra", "2": "s" }, "expansion": "great rhombicuboctahedron (plural great rhombicuboctahedra or great rhombicuboctahedrons)", "name": "en-noun" } ], "lang": "English", "lang_code": "en", "pos": "noun", "senses": [ { "categories": [ "English countable nouns", "English entries with incorrect language header", "English lemmas", "English multiword terms", "English nouns", "English terms with quotations", "Entries with translation boxes", "Pages with 1 entry", "Pages with entries", "Quotation templates to be cleaned", "Terms with Italian translations", "en:Geometry", "en:Polyhedra" ], "examples": [ { "ref": "1977, Wucius Wong, Principles of Three Dimensional Design, page 70:", "text": "Figure 244 — the structure for this complicated design is the great rhombicuboctahedron, which consists of octagonal, hexagonal, and square faces.", "type": "quote" }, { "ref": "2005, M. Cahay, Nanoscale Devices, Materials, and Biological Systems: Fundamentals and Applications : Proceedings of the International Symposium, page 513:", "text": "Zeolite A consists of truncated octahedra flanking the edges of a larger cube; they are connected along the edges by smaller cubes, and the truncated octahedra and cubes flank a great rhombicuboctahedron at the center (28).", "type": "quote" }, { "ref": "2012, Edward S. Popko, Divided Spheres: Geodesics and the Orderly Subdivision of the Sphere, page 169:", "text": "The great rhombicuboctahedron can be made by truncating the cuboctahedron's vertices.", "type": "quote" } ], "glosses": [ "An Archimedean solid that is isogonal and has twenty-six regular faces (twelve square, eight hexagonal and six octagonal)." ], "links": [ [ "geometry", "geometry" ], [ "Archimedean solid", "Archimedean solid" ], [ "isogonal", "isogonal" ], [ "face", "face" ], [ "square", "square" ], [ "hexagon", "hexagon" ], [ "octagon", "octagon" ] ], "raw_glosses": [ "(geometry) An Archimedean solid that is isogonal and has twenty-six regular faces (twelve square, eight hexagonal and six octagonal)." ], "topics": [ "geometry", "mathematics", "sciences" ], "wikipedia": [ "Truncated cuboctahedron" ] } ], "synonyms": [ { "sense": "polyhedron with 12 square, 8 hexagonal and 6 octagonal faces", "word": "truncated cuboctahedron" } ], "translations": [ { "code": "it", "lang": "Italian", "sense": "polyhedron with 12 square, 8 hexagonal and 6 octagonal faces", "tags": [ "masculine" ], "word": "cubottaedro troncato" }, { "code": "it", "lang": "Italian", "sense": "polyhedron with 12 square, 8 hexagonal and 6 octagonal faces", "tags": [ "masculine" ], "word": "grande rombicubottaedro" } ], "word": "great rhombicuboctahedron" }
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