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|- |bgcolor=#e7dcc3|Faces||''n'' triangles, ''n'' squares, 1 ''n''-gon, 1 2''n''-gon |- |bgcolor=#e7dcc3|Edges||5''n'' |- |bgcolor=#e7dcc3|Vertices||3''n'' |- |bgcolor=#e7dcc3|Symmetry group||C''n''v, (), ( *''nn''), order 2n |- |bgcolor=#e7dcc3|Rotation group||C''n'', ()+, (''nn''), order n |- |bgcolor=#e7dcc3|Dual polyhedron||? |- |bgcolor=#e7dcc3|Properties||convex |} In geometry, a cupola is a solid formed by joining two polygons, one (the base) with twice as many edges as the other, by an alternating band of isosceles triangles and rectangles. If the triangles are equilateral and the rectangles are squares, while the base and its opposite face are regular polygons, the triangular, square, and pentagonal cupolae all count among the Johnson solids, and can be formed by taking sections of the cuboctahedron, rhombicuboctahedron, and rhombicosidodecahedron, respectively. A cupola can be seen as a prism where one of the polygons has been collapsed in half by merging alternate vertices. A cupola can be given an extended Schläfli symbol || t, representing a regular polygon joined by a parallel of its truncation, t or . Cupolae are a subclass of the prismatoids. ==Examples== The above-mentioned three polyhedra are the only non-trivial convex cupolae with regular faces: The "hexagonal cupola" is a plane figure, and the triangular prism might be considered a "cupola" of degree 2 (the cupola of a line segment and a square). However, cupolae of higher-degree polygons may be constructed with irregular triangular and rectangular faces. 抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)』 ■ウィキペディアで「Cupola (geometry)」の詳細全文を読む スポンサード リンク
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