Infinitely many.
There are an infinite number of 3d shapes with more than 20 faces.
dodecahedron
A polygon that has more faces than a hexahedron (which has 6 faces) but fewer than a dodecagon (which has 12 sides) is an octagon, which has 8 sides. Additionally, a nonagon, with 9 sides, also fits this criterion. Both shapes meet the requirement of having more than 6 faces and fewer than 12.
In geometry, shapes that have more faces than edges include the tetrahedron and the octahedron. Specifically, a tetrahedron has 4 faces and 6 edges, while an octahedron has 8 faces and 12 edges. Additionally, the dodecahedron, with 12 faces and 30 edges, also fits this criterion. Generally, certain convex polyhedra, particularly those with a higher number of faces and a lower count of edges, exhibit this property.
A cube has 8 vertices and 6 faces. Therefore a cube has 2 more vertices than faces.
There are an infinite number of 3d shapes with more than 20 faces.
Shapes that have more than six faces include polyhedrons such as the cube, which has six square faces, and the octahedron, which has eight triangular faces. Additionally, shapes like the dodecahedron have twelve pentagonal faces, and the icosahedron has twenty triangular faces. These shapes are examples of polyhedrons with more than six faces.
dodecahedron
A triangular prism, which has 6 vertices and 5 faces.
A polygon that has more faces than a hexahedron (which has 6 faces) but fewer than a dodecagon (which has 12 sides) is an octagon, which has 8 sides. Additionally, a nonagon, with 9 sides, also fits this criterion. Both shapes meet the requirement of having more than 6 faces and fewer than 12.
A shape in fewer than 3 dimensions.A shape with one or more curved faces or edges.
It has 3 more triangular faces than square faces
In geometry, shapes that have more faces than edges include the tetrahedron and the octahedron. Specifically, a tetrahedron has 4 faces and 6 edges, while an octahedron has 8 faces and 12 edges. Additionally, the dodecahedron, with 12 faces and 30 edges, also fits this criterion. Generally, certain convex polyhedra, particularly those with a higher number of faces and a lower count of edges, exhibit this property.
Most 3D shapes, such as a cube, cuboid etc. have more than one face (with the possible exception of a sphere).
A cube has 8 vertices and 6 faces. Therefore a cube has 2 more vertices than faces.
A pyramid can have 0 or 1 square faces. It can have 4 or more faces - there is no limit.
You can find a polyhedron with any number greater than 4 of vertices or faces. However, a torus, ellipsoid, sphere, paraboloid, hyperboloid are all standard shapes with no vertices. Cylinders, too, have no vertices. And there are many completely random shapes - a lump of putty, for example, which will have no vertex.