faces= 10 vertices-=26 edges=17 * * * * * Wrong on each count! Faces: 8 Edges: 18 Vertices: 12
14 vertices
A two dimensional shape would have 17 sides. For a three dimensional shape - assuming that sides are faces - the answer depends on the shape itself.
The Pentagonal Rotunda has 20 vertices, 17 faces and 35 edges. The Pentagonal Rotunda contains 10 trangles, 6 pentagons and 1 decagon.
According to Euler's characteristics of prisms: V - E + F = 2 See related link "Eulers" for more info Therefore: V + F - 2 = E 10 + 7 - 2 = E E=17-2 E=15
16 vertices 24 edges 17 faces
faces= 10 vertices-=26 edges=17 * * * * * Wrong on each count! Faces: 8 Edges: 18 Vertices: 12
17
Well, honey, I hate to break it to you, but that solid you're talking about is a triangular prism. It's got 17 faces, 15 edges, and 10 vertices. So, there you have it - a triangular prism strutting its stuff with all those faces, edges, and vertices.
14 vertices
The Euler characteristic requires that Vertices + Faces = Edges + 2 Here that would require 6 + 7 = 15 + 2 or 13 = 17 which is clearly not true. So there cannot be a polyhedron with the stated configuration.
A two dimensional shape would have 17 sides. For a three dimensional shape - assuming that sides are faces - the answer depends on the shape itself.
The Pentagonal Rotunda has 20 vertices, 17 faces and 35 edges. The Pentagonal Rotunda contains 10 trangles, 6 pentagons and 1 decagon.
These are very hard to spell but here you go: 17 faces: septadecahedron 18 faces: octadecahedron 19 faces: nonadecahedron 20 faces: icosahedron 21 faces: unicosahedron 22 faces: dicosahedron 29 faces: nonicosahedron 30 faces: tricontahedron
Assuming it has 16 triangular sides plus a base making 17 faces in all, it would be a heptadecahedron. If it is a 16-faced shape then a hexadecahedron.Assuming it has 16 triangular sides plus a base making 17 faces in all, it would be a heptadecahedron. If it is a 16-faced shape then a hexadecahedron.Assuming it has 16 triangular sides plus a base making 17 faces in all, it would be a heptadecahedron. If it is a 16-faced shape then a hexadecahedron.Assuming it has 16 triangular sides plus a base making 17 faces in all, it would be a heptadecahedron. If it is a 16-faced shape then a hexadecahedron.
f + v -2 = e 17-2 = 15
According to Euler's characteristics of prisms: V - E + F = 2 See related link "Eulers" for more info Therefore: V + F - 2 = E 10 + 7 - 2 = E E=17-2 E=15