no because they don't have the same sides or vertices as the regular ones which are tetrahedral, octahedral, dodecahedral, icosahedral, they are all regular polydrons but not decahedral
Faces.Faces.Faces.Faces.
Viruses have different geometrical shapes, such as helical and polyhedral shapes. A particular polyhedral shape common to many viruses is a dodecahedron shape. This is a geometric shape that has 12 sides.
There is no polyhedral shape with those numbers.
It depends on what the "something" is. The probability that the roll of a regular die will never exceed 6 is 1. The probability that the roll of a regular die will never exceed 3 is 0.5. The probability that the roll of a regular die will never exceed 0 is 0.
No it's not. There are only 5 regular polyhedra, and none of them has 10 sides.
No it isn't a regular polyhedron
no because they don't have the same sides or vertices as the regular ones which are tetrahedral, octahedral, dodecahedral, icosahedral, they are all regular polydrons but not decahedral
It is not a polygon at all, it is a polyhedron. It is irregular.
octahedral
polyhedral
Of or relating to or resembling a polyhedron.
There is no such simply connected polyhedron.There is no such polyhedral shape.
Faces.Faces.Faces.Faces.
In crystals, common polyhedral shapes include cubes, octahedra, and dodecahedra. These shapes are formed by the arrangement of atoms or ions within the crystal lattice structure.
No, bacterial viruses with a polyhedral head typically have a tail associated with the head structure. These viruses are known as bacteriophages. The tail plays a critical role in attaching to the host bacteria and injecting the viral genetic material into the bacterial cell for replication.
Viruses have different geometrical shapes, such as helical and polyhedral shapes. A particular polyhedral shape common to many viruses is a dodecahedron shape. This is a geometric shape that has 12 sides.