An octahedron, for example. 8 faces, 6 vertices.
check a reference book
No. A cube has 6 faces and 8 vertices - it has exactly 2 more vertices than faces.
In geometry and trigonometry, an angle (in full, plane angle) is the figure formed by two rays sharing a common endpoint, called the vertex or vertex of the angle (vertices in plural).With solid figures, like pyramids or polyhedrons, a vertex is a corner where three or more of the faces meet.Remember,* faces are the flat sides.* Edges are the lines where two of the faces meet.* Vertices are the corners where three or more of the faces meet.
A cube has 8 vertices and 6 faces. Therefore a cube has 2 more vertices than faces.
The number of vertices does not determine the number of faces. If the shape with 6 vertices was a quadrilateral based bipyramid, it would have 8 faces. A hexagonal based pyramid has 7 vertices and 7 faces. So more vertices does not necessarily imply more faces.
A cube is a geometric shape which has 6 faces and 8 vertices ie .2 more vertices than faces
Bipyramids are a class of polyhedra with more faces than vertices.
For all polyhedra: vertices + faces = edges + 2 The given fact is: edges = vertices + 10 → vertices + faces = vertices + 10 + 2 → faces = 12
A cube has eight vertices and six faces (think of a die!).
the answer is cylinder
Four or more place polygonal faces. Four or more vertices. Six or more edges. Faces + Vertices = Edges + 2
A polyhedron is a generic term for 3 dimensional objects which are bounded by polygonal faces. They can have 4 or more vertices, 6 or more edges and 4 or more faces. The numbers of vertices (V), edges (E) and faces (F) must also satisfy the Euler characteristic: F + V = E + 2.