In mathematics, especially in the area of abstract algebra that studies infinite groups, the adverb virtually is used to modify a property so that it need only hold for a subgroup of finite index. Given a property P, the group G is said to be virtually P if there is a finite index subgroup
H\leG
Common uses for this would be when P is abelian, nilpotent, solvable or free. For example, virtually solvable groups are one of the two alternatives in the Tits alternative, while Gromov's theorem states that the finitely generated groups with polynomial growth are precisely the finitely generated virtually nilpotent groups.
This terminology is also used when P is just another group. That is, if G and H are groups then G is virtually H if G has a subgroup K of finite index in G such that K is isomorphic to H.
In particular, a group is virtually trivial if and only if it is finite. Two groups are virtually equal if and only if they are commensurable.
The following groups are virtually abelian.
N\rtimesH
N\rtimesH
N\rtimesH
N\rtimesH
Gromov's theorem says that a finitely generated group is virtually nilpotent if and only if it has polynomial growth.
See main article: virtually polycyclic group.
N\rtimesH
N\rtimesH
H*K
\operatorname{PSL}(2,\Z)
It follows from Stalling's theorem that any torsion-free virtually free group is free.
The free group
F2
Fn
n\ge2
The group
\operatorname{O}(n)
\operatorname{SO}(n)