As far as I am aware, there is no polyhedron (3-d figure) whose faces are all octagons. As far as I am aware, there is no polyhedron (3-d figure) whose faces are all octagons. As far as I am aware, there is no polyhedron (3-d figure) whose faces are all octagons. As far as I am aware, there is no polyhedron (3-d figure) whose faces are all octagons.
The 3D shape with 2 octagons and 8 squares is called a truncated square antiprism. It is a type of prism where the top and bottom faces are octagons, and the side faces are squares. This shape has a total of 10 faces, including 2 octagons and 8 squares.
In general, any 10-sided polyhedron is called a decahedron. With 10 regular triangles for faces, you may have a pentagonal bipyramid.
10 edges
Decahedron :)
Octagons have no perpendicular lines.
There are regular octagons, and irregular octagons.
If you mean a decahedron then it is a polyhedron with 10 faces
polyhedron
There are 64 sides in eight octagons.
No. The given numbers do not satisfy the Euler characteristic for a simply connected polyhedron.
No, octagons have only 8 sides. Here's a tip to help you to remember: the root of the word octagon is 'octo' which means 'eight'. An octopus has 8 legs and an octagon has 8 sides.