Three regular hexagons meeting at a vertex would form a tessellation. So they would form a plane not a solid.
Yes, it will.
A regular pentagon is one example.
A regular triangle, quadrilateral (i.e., square) and hexagon may be used.
Certain polygons, yes. Squares, Triangles and Hexagons are all shapes which, in their regular form, can tessellate. Other polygons cannot.
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Three regular hexagons meeting at a vertex would form a tessellation. So they would form a plane not a solid.
No. Regular hexagons tessellate and cannot form a 3-d shape.No. Regular hexagons tessellate and cannot form a 3-d shape.No. Regular hexagons tessellate and cannot form a 3-d shape.No. Regular hexagons tessellate and cannot form a 3-d shape.
Triangle :)
Triangle :)
Yes, it will.
All triangles will tessellate. All quadrilaterals will tessellate There are 15 classes of convex pentagons – the latest discovered in 2015 – which will tessellate. Regular hexagons will tessellate. In addition, there are 3 classes of irregular convex hexagons which will tessellate. No convex polygon with 7 or more sides will tessellate.
Triangles, Hexagons and Squares. I am not a math professor or a college student, but I'm pretty sure that there are some more irregular shapes out there that will form a tessellation.
They are shapes or figures that can be put together to form a surface with no cracks in between and no overlapping. Squares, hexagons, and triangles are all examples of tesselations.
It can have 3, 4 or 6 sides.
It can have 3, 4 or 6 sides.
A regular pentagon is one example.