A triangular prism has 5 faces.
4 faces, 4 vertices.
Faces: 10 Vertices: 16 Edges: 24
6 faces, 12 edges and 8 vertices.
3 faces, 2 edges, and no vertices
A rectangular prism has 6 faces, 12 edges and 8 vertices.
A triangular prism has 9 edges, 5 faces and 6 vertices
A triangular prism has 5 faces.
A hexagonal prisam consists of two identical hexagonal faces (called bases), parallel to one another, and joined to one another with six rectangular faces. A triangular prism has two triangular bases.
6 faces and 8 vertices.6 faces and 8 vertices.6 faces and 8 vertices.6 faces and 8 vertices.
Two triangles and three rectangles.
A rectangular prism has 6 faces.
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.
4 faces, 4 vertices.
89 vertices and 444 faces
Vertices . . . . 8 Edges . . . . . 12 Faces . . . . . 6
Tetrahedron- (4 faces, 4 vertices) Octahedron- (8 faces, 6 vertices) Cube- (6 faces, 8 vertices)