Not any normal polyhedron since the numbers are contary to the Euler characteristic.
5 faces 12 edges 10 vertices's
faces= 10 vertices-=26 edges=17 * * * * * Wrong on each count! Faces: 8 Edges: 18 Vertices: 12
Faces: 6Vertices [or corners]: 8Edges: 12eight.
12 Faces, 30 Edges, 12 vertices
What has 7 faces 12 edges 5 vertices
5 faces 12 edges 10 vertices's
faces= 10 vertices-=26 edges=17 * * * * * Wrong on each count! Faces: 8 Edges: 18 Vertices: 12
It has 10 vertices, 10 edges, and 0 faces.
A Connected Pyramids have 10 Faces, 12 Vertices, 20 Edges.
It has 14 Faces, 24 Edges, and 12 Vertices
Faces: 6Vertices [or corners]: 8Edges: 12eight.
Oh, dude, it's like a math riddle! So, if a polyhedron has 10 more edges than vertices, we can use Euler's formula: Faces + Vertices - Edges = 2. Since we know the relationship between edges and vertices, we can substitute that in and solve for faces. So, it would have 22 faces. Math can be fun... sometimes.
there are 7 faces there are 7 vertices there are 12 edges
What has 5 faces 6 edges 12 vertices
12 Faces, 30 Edges, 12 vertices
What has 7 faces 12 edges 5 vertices
Vertices: 8Faces: 6 Edges: 12