A figure with 10 faces, 16 vertices, and 24 edges is known as a decahedron. More specifically, it can be a type of polyhedron called a "truncated square bipyramid," which fits these criteria. This configuration adheres to Euler's formula for polyhedra, which states that V - E + F = 2, where V is the number of vertices, E is the number of edges, and F is the number of faces. In this case, 16 - 24 + 10 equals 2, confirming the structure's validity.
faces= 10 vertices-=26 edges=17 * * * * * Wrong on each count! Faces: 8 Edges: 18 Vertices: 12
A pentagonal pyramid has 6 faces, 6 vertices and 10 edges.
A pentagonal prism has 7 faces, 10 vertices and 15 edges.
A pentagonal based pyramid has 6 faces, ten edges and 6 vertices.
Faces: 10 Vertices: 16 Edges: 24
Faces: 10 Vertices: 16 Edges: 24
It is a pentagonal prism
faces= 10 vertices-=26 edges=17 * * * * * Wrong on each count! Faces: 8 Edges: 18 Vertices: 12
A pentagonal pyramid has 6 faces, 6 vertices and 10 edges.
A pentagonal pyramid has 6 faces, 6 vertices and 10 edges.
A pentagonal prism has 7 faces, 10 vertices and 15 edges.
A pentagonal based pyramid has 6 faces, ten edges and 6 vertices.
7 faces. 10 vertices. 15 edges.
Faces: 10 Vertices: 16 Edges: 24
A pyramid with an n-sided base will have n + 1 vertices, n + 1 faces, and 2n edges. 6 faces, 10 edges, 6 vertices
There is 16 vertices,10 faces,and 24 edges.
It has 7 faces, 10 vertices, and 15 edges