Vertices are points (corners) and edges are lines that connect vertices
Edges are the lines that connect the vertices. The vertices are the actual points where the edges meet.
12 edges, 8 vertices
12 vertices and 18 edges.
6 edges, 4 vertices.
Faces = 4 Vertices = 4 Edges = 6
Edges are the lines that connect the vertices. The vertices are the actual points where the edges meet.
There are four each. The difference is zero.
Faces + Vertices = Edges + 2 its easy
A square has four edges, one face (assuming the "back" does not count), and four vertices. A cube has 12 edges, six faces (assuming the "inside" does not count), and eight vertices.
5 vertices and 8 edges.5 vertices and 8 edges.5 vertices and 8 edges.5 vertices and 8 edges.
No. Edges join vertices; or, put another way, edges meet at vertices.
A triangular based pyramid has 4 faces, 6 edges and 4 vertices whereas a square based pyramid has 5 faces, 8 edges and 5 vertices
A heptahedron has 7 faces. It can have 6 vertices and 11 edges, or7 vertices and 12 edges, or8 vertices and 13 edges, or9 vertices and 14 edges, or10 vertices and 15 edges.
A prism with an n-sided base will have 2n vertices, n + 2 faces, and 3n edges.
Each cube has 6 faces, 12 edges and 8 vertices, so two [unconnected] cubes have 12 faces, 24 edges and 16 vertices (between them).
A point would have neither edges or vertices
In a polyhedron, there are edges, faces, and corners. The thing that is similar, or common, between the edges, faces, and corners are the vertices.