The answer will depend on the shape under consideration.
retangle
Faces = 4 Edges = 6 Vertices = 4 The shape is also known as a tetrahedron.
A triangular prism has 5 faces, 9 edges, and 6 vertices.
It has 14 Faces, 24 Edges, and 12 Vertices
A sphere- there are no faces, edges or vertices
There is not a polyhedron with the given number of faces, edges and vertices.
Its shape, the number of faces edges and vertices.
The answer will depend on what is known of the shape. If you know only the number of faces, or only the number of vertices, then you cannot work out the number of edges. If you only know the shapes of the faces you cannot.The answer will depend on what is known of the shape. If you know only the number of faces, or only the number of vertices, then you cannot work out the number of edges. If you only know the shapes of the faces you cannot.The answer will depend on what is known of the shape. If you know only the number of faces, or only the number of vertices, then you cannot work out the number of edges. If you only know the shapes of the faces you cannot.The answer will depend on what is known of the shape. If you know only the number of faces, or only the number of vertices, then you cannot work out the number of edges. If you only know the shapes of the faces you cannot.
Their relationship is modelled by the equation F + V = E + 2, where F is the number of faces, V is the number of vertices, and E is the number of edges.
A sphere has no faces, edges, or vertices.
It is a cylinder
There can be no simply connected polyhedron with the specified number of faces, vertices and edges. The Euler characteristic requires that F + V = E + 2 where F = number of faces V = number of vertices E = number of edges This requirement is clearly not satisfied.
It is a cuboid that has 8 vertices, 12 edges and 6 faces
It is a cuboid that has 8 vertices, 12 edges and 6 faces
It is a cuboid that has 8 vertices, 12 edges and 6 faces
The answer will depend on the shape under consideration.