Virtually abelian edit

The following groups are virtually abelian.

• Any abelian group.
• Any semidirect product ${\displaystyle N\rtimes H}$  where N is abelian and H is finite. (For example, any generalized dihedral group.)
• Any semidirect product ${\displaystyle N\rtimes H}$  where N is finite and H is abelian.
• Any finite group (since the trivial subgroup is abelian).

Virtually nilpotent edit

• Any group that is virtually abelian.
• Any nilpotent group.
• Any semidirect product ${\displaystyle N\rtimes H}$  where N is nilpotent and H is finite.
• Any semidirect product ${\displaystyle N\rtimes H}$  where N is finite and H is nilpotent.

Gromov's theorem says that a finitely generated group is virtually nilpotent if and only if it has polynomial growth.

Virtually polycyclic edit

Virtually free edit

• Any free group.
• Any virtually cyclic group.
• Any semidirect product ${\displaystyle N\rtimes H}$  where N is free and H is finite.
• Any semidirect product ${\displaystyle N\rtimes H}$  where N is finite and H is free.
• Any free product ${\displaystyle H*K}$ , where H and K are both finite. (For example, the modular group ${\displaystyle \operatorname {PSL} (2,\mathbb {Z} )}$ .)

It follows from Stalling's theorem that any torsion-free virtually free group is free.

Others edit

The free group ${\displaystyle F_{2}}$  on 2 generators is virtually ${\displaystyle F_{n}}$  for any ${\displaystyle n\geq 2}$  as a consequence of the Nielsen–Schreier theorem and the Schreier index formula.

The group ${\displaystyle \operatorname {O} (n)}$  is virtually connected as ${\displaystyle \operatorname {SO} (n)}$  has index 2 in it.

• Schneebeli, Hans Rudolf (1978). "On virtual properties and group extensions". Mathematische Zeitschrift. 159: 159–167. doi:10.1007/bf01214488. Zbl 0358.20048.