Yes.
A hexagonal cylinder is an impossible object. If you meant a hexagonal prism then it is a polyhedron.
A hexagonal cylinder is an impossible object. If you meant a hexagonal prism then it is a polyhedron.
A hexagonal prism is a polyhedron. Many hexagonal prisms are polyhedra.
No, a cylinder cannot be accurately represented on a polyhedron poster because a cylinder is not a polyhedron. While both a cylinder and a polyhedron may have congruent bases, a polyhedron is defined by its flat polygonal faces, while a cylinder has curved surfaces. Therefore, including a cylinder would misrepresent the characteristics that define polyhedra.
A hexagonal pyramid.
A hexagonal cylinder is an impossible object. If you meant a hexagonal prism then it is a polyhedron.
A hexagonal cylinder is an impossible object. If you meant a hexagonal prism then it is a polyhedron.
Yes, it is.
Yes.
A hexagonal prism is a polyhedron. Many hexagonal prisms are polyhedra.
errrrrh, I don't suppose you considered "a hexagonal prism" as an answer.
No, it is not.
No, a cylinder cannot be accurately represented on a polyhedron poster because a cylinder is not a polyhedron. While both a cylinder and a polyhedron may have congruent bases, a polyhedron is defined by its flat polygonal faces, while a cylinder has curved surfaces. Therefore, including a cylinder would misrepresent the characteristics that define polyhedra.
A hexagonal pyramid.
Using Euler's Polyhedron formula V+F-E=2, givenF=14 and E=24, we have V=12.The polyhedron has 12 vertices.This assumes a genus-0 polyhedron. An example would be the hexagonal antiprism, a polyhedron having two hexagonal faces and 12 triangular faces.
It is an octahedron in the form of a hexagonal prism.It is an octahedron in the form of a hexagonal prism.It is an octahedron in the form of a hexagonal prism.It is an octahedron in the form of a hexagonal prism.
A polyhedron with 9 faces: a nonahedron.A polyhedron with 9 faces: a nonahedron.A polyhedron with 9 faces: a nonahedron.A polyhedron with 9 faces: a nonahedron.