Dicyclic group:Dic12: Difference between revisions

Latest revision as of 16:10, 26 December 2023

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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

This group, sometimes denoted $D_{i c 12}$ and sometimes denoted $Γ (3, 2, 2)$ , is defined in the following equivalent ways:

It is the dicyclic group (i.e., the binary dihedral group) of order $12$ , and hence of degree $3$ .
It is the binary von Dyck group with parameters $(3, 2, 2)$ .

A presentation for the group is given by:

$⟨ a, b, c ∣ a^{3} = b^{2} = c^{2} = a b c ⟩$ .

It also has the presentation:

$⟨ a, x ∣ a^{6} = x^{4} = e, a^{3} = x^{2}, x a x^{- 1} = a^{- 1} ⟩$

Group properties

Property	Satisfied?	Explanation	Comment
Abelian group	No
Nilpotent group	No
Leinster group	Yes	Sum of orders of proper normal subgroups equals order	Smallest non-abelian & non-nilpotent Leinster group

Subgroups

Subgroup-defining functions

Subgroup-defining function	What it means	Value as subgroup	Value as group	Order
center	elements that commute with every group element	${e, x^{2}}$	cyclic group:Z2	2

GAP implementation

Group ID

This finite group has order 12 and has ID 1 among the groups of order 12 in GAP's SmallGroup library. For context, there are groups of order 12. It can thus be defined using GAP's SmallGroup function as:

SmallGroup(12,1)

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

gap> G := SmallGroup(12,1);

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

IdGroup(G) = [12,1]

or just do:

IdGroup(G)

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

Other definitions

The group can also be defined using its presentation:

F := FreeGroup(3);
G := F/[F.1^3 * F.2^(-2), F.2^2 * F.3^(-2), F.1 * F.2 * (F.3)^(-1)];

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 |[[Dissatisfies property::Nilpotent group]] || No || ||
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+|[[Satisfies property::Leinster group]] || Yes|| Sum of orders of proper normal subgroups equals order || Smallest non-abelian & non-nilpotent Leinster group
 |}