Dicyclic group:Dic20: Difference between revisions
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{{particular group}} | {{particular group}} | ||
[[Category:Dicyclic groups]] | |||
==Definition== | ==Definition== | ||
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Alternatively, it has the presentation: | Alternatively, it has the presentation: | ||
<math>\langle a,b,c \mid a^{10} | <math>\langle a,b,c \mid a^{10} = e, a^5 = b^2, bab^{-1} = a^{-1} \rangle</math>. | ||
==Arithmetic functions== | ==Arithmetic functions== | ||
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| [[satisfies property::finite group with periodic cohomology]] || Yes || This is true for all [[dicyclic group]]s. | | [[satisfies property::finite group with periodic cohomology]] || Yes || This is true for all [[dicyclic group]]s. | ||
|} | |} | ||
==Subgroups== | |||
{| class="sortable" border="1" | |||
! Item !! Value | |||
|- | |||
| [[Number of subgroups]] || 10 | |||
|- | |||
| [[normal subgroup]]s || 5 | |||
|} | |||
==GAP implementation== | ==GAP implementation== | ||
{{GAP ID|20|1}} | {{GAP ID|20|1}} | ||
Latest revision as of 18:38, 19 December 2023
This article is about a particular group, i.e., a group unique upto isomorphism. View specific information (such as linear representation theory, subgroup structure) about this group
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Definition
This group is defined as the dicyclic group of order , and hence degree . In other words, it has the presentation:
Alternatively, it has the presentation:
.
Arithmetic functions
| Function | Value | Similar groups | Explanation |
|---|---|---|---|
| order (number of elements, equivalently, cardinality or size of underlying set) | 20 | groups with same order | As dicyclic group of degree : |
| exponent of a group | 10 | groups with same order and exponent of a group | groups with same exponent of a group | As dicyclic group of degree : . |
| Frattini length | 2 | groups with same order and Frattini length | groups with same Frattini length | The Frattini subgroup is isomorphic to cyclic group:Z2 -- specifically, it is the center. |
| derived length | 2 | groups with same order and derived length | groups with same derived length | The group is in fact a metacyclic group, hence metabelian, but it is not abelian. |
| 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 | |
| subgroup rank of a group | 2 | groups with same order and subgroup rank of a group | groups with same subgroup rank of a group |
Group properties
Important properties
| Property | Satisfied? | Explanation |
|---|---|---|
| cyclic group | No | |
| abelian group | No | |
| nilpotent group | No | |
| metacyclic group | Yes | |
| supersolvable group | Yes | |
| solvable group | Yes |
Other properties
| Property | Satisfied? | Explanation |
|---|---|---|
| ambivalent group | No | |
| Schur-trivial group | Yes | This is true for all dicyclic groups. |
| finite group with periodic cohomology | Yes | This is true for all dicyclic groups. |
Subgroups
| Item | Value |
|---|---|
| Number of subgroups | 10 |
| normal subgroups | 5 |
GAP implementation
Group ID
This finite group has order 20 and has ID 1 among the groups of order 20 in GAP's SmallGroup library. For context, there are groups of order 20. It can thus be defined using GAP's SmallGroup function as:
SmallGroup(20,1)
For instance, we can use the following assignment in GAP to create the group and name it :
gap> G := SmallGroup(20,1);
Conversely, to check whether a given group is in fact the group we want, we can use GAP's IdGroup function:
IdGroup(G) = [20,1]
or just do:
IdGroup(G)
to have GAP output the group ID, that we can then compare to what we want.