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.
Any polyhedron can be deformed (its angles changed) without affecting the number of edges, vertices or faces.
a polygon(or polyhedron) is a three dimensional figure that has straight edges. * * * * * A polygon is 2 dimensional, a polyhedron is 3-d.
The number of edges and vertices ina polyhedron will depend on the polyhedron one selects either to study, build or etc...
The numbers do not satisfy Euler's characteristic so there can be no such polyhedron.
There is not a polyhedron with the given number of faces, edges and vertices.
Any polyhedron can be deformed (its angles changed) without affecting the number of edges, vertices or faces.
a polygon(or polyhedron) is a three dimensional figure that has straight edges. * * * * * A polygon is 2 dimensional, a polyhedron is 3-d.
The number of edges and vertices ina polyhedron will depend on the polyhedron one selects either to study, build or etc...
It is something that is not a polyhedron. that would includethings which are not shapes, such as concepts (for example a thought, or blue or sour),shapes which have fewer than 3 dimensions,3-dimensional shapes withone or more curved surfaces or edges.
8
4 is the least number of edgers
A shape in fewer than 3 dimensions.A shape with one or more curved faces or edges.
Use Euler's Formula: V = number of vertices F = number of faces E = number of edges V+F = E+2 or V+F-E = 2
Polyhedrons are three-dimensional shapes with flat faces, straight edges, and sharp corners, known as vertices. Examples of polyhedrons include cubes, pyramids, prisms, and dodecahedrons. These shapes have a closed surface and are made up of polygons, which are two-dimensional shapes with straight sides.
False
False
The numbers do not satisfy Euler's characteristic so there can be no such polyhedron.