Dihedral group:D22

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VIEW FACTS ABOUT THIS GROUP: All factsGroup property satisfactionsSubgroup property satisfactionsGroup property dissatisfactionsSubgroup property satisfactions
VIEW DEFINITIONS USING THIS AS EXAMPLE: All terms |Group properties |Subgroup properties|
VIEW FACTS USING THIS AS EXAMPLE: All facts |Group property non-implications |Subgroup property non-implications |Group metaproperty dissatisfactionsSubgroup metaproperty dissatisfactions

Definition

The group is defined as the dihedral group of degree 11 and hence order 22. It is given explicitly by the presentation:

${\displaystyle G:=\langle a,x\mid a^{11}=x^{2}=e,xax=a^{-1}\rangle }$

Here, ${\displaystyle e}$ denotes the identity element.

Group properties

General properties

Property	Satisfied	Explanation
abelian group	No	In the given presentation, ${\displaystyle x}$ and ${\displaystyle a}$ do not commute.
nilpotent group	No	Dihedral groups are nilpotent if and only if their order is a power of two.
solvable group	Yes	Dihedral groups are solvable
simple group	No	There are proper non-trivial normal subgroups, for example the subgroup generated by ${\displaystyle x}$ in the given presentation.

Basic arithmetic functions

Function	Value	Similar groups	Explanation
order (number of elements, equivalently, cardinality or size of underlying set)	22	groups with same order
exponent of a group	22	groups with same order and exponent of a group | groups with same exponent of a group
derived length	2	groups with same order and derived length | groups with same derived length	Derived series goes through Klein four-group of double transpositions.
nilpotency class	--	--	not a nilpotent group.
minimum size of generating set	2	groups with same order and minimum size of generating set | groups with same minimum size of generating set	Not cyclic so greater than 1. ${\displaystyle G:=\langle a,x\mid a^{11}=x^{2}=e,xax=a^{-1}\rangle }$ is a generating set. Hence is 2.

GAP implementation

Group ID

This finite group has order 22 and has ID 1 among the groups of order 22 in GAP's SmallGroup library. For context, there are groups of order 22. It can thus be defined using GAP's SmallGroup function as:

SmallGroup(22,1)

For instance, we can use the following assignment in GAP to create the group and name it ${\displaystyle G}$:

gap> G := SmallGroup(22,1);

Conversely, to check whether a given group ${\displaystyle G}$ is in fact the group we want, we can use GAP's IdGroup function:

IdGroup(G) = [22,1]

or just do:

IdGroup(G)

to have GAP output the group ID, that we can then compare to what we want.

Other descriptions