A hyperboloid.
A sphere, ellipsoid, toroid or paraboloid intersected by a plane.
There are probably others.
A hyperboloid.
A sphere, ellipsoid, toroid or paraboloid intersected by a plane.
There are probably others.
A hyperboloid.
A sphere, ellipsoid, toroid or paraboloid intersected by a plane.
There are probably others.
A hyperboloid.
A sphere, ellipsoid, toroid or paraboloid intersected by a plane.
There are probably others.
A hyperboloid.
A sphere, ellipsoid, toroid or paraboloid intersected by a
plane.
There are probably others.
A hyperboloid.
A sphere, ellipsoid, toroid or paraboloid intersected by a
plane.
There are probably others.
A hyperboloid.
A sphere, ellipsoid, toroid or paraboloid intersected by a
plane.
There are probably others.
A hyperboloid.
A sphere, ellipsoid, toroid or paraboloid intersected by a
plane.
There are probably others.A hyperboloid.
A sphere, ellipsoid, toroid or paraboloid intersected by a
plane.
There are probably others.
A hyperboloid.
A sphere, ellipsoid, toroid or paraboloid intersected by a
plane.
There are probably others.
A hyperboloid.
A sphere, ellipsoid, toroid or paraboloid intersected by a
plane.
There are probably others.
A hyperboloid.
A sphere, ellipsoid, toroid or paraboloid intersected by a
plane.
There are probably others.A hyperboloid.
A sphere, ellipsoid, toroid or paraboloid intersected by a
plane.
There are probably others.
A hyperboloid.
A sphere, ellipsoid, toroid or paraboloid intersected by a
plane.
There are probably others.
A hyperboloid.
A sphere, ellipsoid, toroid or paraboloid intersected by a
plane.
There are probably others.
A hyperboloid.
A sphere, ellipsoid, toroid or paraboloid intersected by a
plane.
There are probably others.A hyperboloid.
A sphere, ellipsoid, toroid or paraboloid intersected by a
plane.
There are probably others.
A hyperboloid.
A sphere, ellipsoid, toroid or paraboloid intersected by a
plane.
There are probably others.
A hyperboloid.
A sphere, ellipsoid, toroid or paraboloid intersected by a
plane.
There are probably others.
A hyperboloid.
A sphere, ellipsoid, toroid or paraboloid intersected by a
plane.
There are probably others.A hyperboloid.
A sphere, ellipsoid, toroid or paraboloid intersected by a
plane.
There are probably others.
A hyperboloid.
A sphere, ellipsoid, toroid or paraboloid intersected by a
plane.
There are probably others.
A hyperboloid.
A sphere, ellipsoid, toroid or paraboloid intersected by a
plane.
There are probably others.
A hyperboloid.
A sphere, ellipsoid, toroid or paraboloid intersected by a
plane.
There are probably others.A hyperboloid.
A sphere, ellipsoid, toroid or paraboloid intersected by a
plane.
There are probably others.
A hyperboloid.
A sphere, ellipsoid, toroid or paraboloid intersected by a
plane.
There are probably others.
A hyperboloid.
A sphere, ellipsoid, toroid or paraboloid intersected by a
plane.
There are probably others.
A hyperboloid.
A sphere, ellipsoid, toroid or paraboloid intersected by a
plane.
There are probably others.A hyperboloid.
A sphere, ellipsoid, toroid or paraboloid intersected by a
plane.
There are probably others.
A hyperboloid.
A sphere, ellipsoid, toroid or paraboloid intersected by a
plane.
There are probably others.
A hyperboloid.
A sphere, ellipsoid, toroid or paraboloid intersected by a
plane.
There are probably others.
A hyperboloid.
A sphere, ellipsoid, toroid or paraboloid intersected by a
plane.
There are probably others.A hyperboloid.
A sphere, ellipsoid, toroid or paraboloid intersected by a
plane.
There are probably others.
A hyperboloid.
A sphere, ellipsoid, toroid or paraboloid intersected by a
plane.
There are probably others.
A hyperboloid.
A sphere, ellipsoid, toroid or paraboloid intersected by a
plane.
There are probably others.
A hyperboloid.
A sphere, ellipsoid, toroid or paraboloid intersected by a
plane.
There are probably others.A hyperboloid.
A sphere, ellipsoid, toroid or paraboloid intersected by a
plane.
There are probably others.
A hyperboloid.
A sphere, ellipsoid, toroid or paraboloid intersected by a
plane.
There are probably others.
A hyperboloid.
A sphere, ellipsoid, toroid or paraboloid intersected by a
plane.
There are probably others.
A hyperboloid.
A sphere, ellipsoid, toroid or paraboloid intersected by a
plane.
There are probably others.A hyperboloid.
A sphere, ellipsoid, toroid or paraboloid intersected by a
plane.
There are probably others.
A hyperboloid.
A sphere, ellipsoid, toroid or paraboloid intersected by a
plane.
There are probably others.
A hyperboloid.
A sphere, ellipsoid, toroid or paraboloid intersected by a
plane.
There are probably others.
A hyperboloid.
A sphere, ellipsoid, toroid or paraboloid intersected by a
plane.
There are probably others.A hyperboloid.
A sphere, ellipsoid, toroid or paraboloid intersected by a
plane.
There are probably others.
A hyperboloid.
A sphere, ellipsoid, toroid or paraboloid intersected by a
plane.
There are probably others.
There is no such shape. The only convex shape that has four faces is a tetrahedron, and that has four vertices, not 5.
The number of vertices does not determine the number of faces. If the shape with 6 vertices was a quadrilateral based bipyramid, it would have 8 faces. A hexagonal based pyramid has 7 vertices and 7 faces. So more vertices does not necessarily imply more faces.
A cube is a geometric shape which has 6 faces and 8 vertices ie .2 more vertices than faces
There is no limit to the number of vetices or faces that a shape can have.
Something with 6 faces and 8 vertices
a hevortex
There is no shape with 4 faces and 3 vertices
The shape would be impossible. The faces and vertices have to add up to two more than the edges.
A cuboid
There is no such shape. The only convex shape that has four faces is a tetrahedron, and that has four vertices, not 5.
A shape with 5 faces and 5 vertices is a quadrilateral based pyramid
The number of vertices does not determine the number of faces. If the shape with 6 vertices was a quadrilateral based bipyramid, it would have 8 faces. A hexagonal based pyramid has 7 vertices and 7 faces. So more vertices does not necessarily imply more faces.
A cube is a geometric shape which has 6 faces and 8 vertices ie .2 more vertices than faces
There is no limit to the number of vetices or faces that a shape can have.
Conventionally, two faces, one edge and one vertex.
None. A shape with four faces is a tetrahedron and that has 4 vertices, not 6.
Something with 6 faces and 8 vertices