Center of binary octahedral group
This article is about a particular subgroup in a group, up to equivalence of subgroups (i.e., an isomorphism of groups that induces the corresponding isomorphism of subgroups). The subgroup is (up to isomorphism) cyclic group:Z2 and the group is (up to isomorphism) binary octahedral group (see subgroup structure of binary octahedral group).
The subgroup is a normal subgroup and the quotient group is isomorphic to symmetric group:S4.
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Definition
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Arithmetic functions
| Function | Value | Explanation |
|---|---|---|
| order of the whole group | 48 | |
| order of the subgroup | 2 | |
| index of the subgroup | 24 | Follows from Lagrange's theorem. |
| size of conjugacy class = index of normalizer | 1 | center is normal |
| number of conjugacy classes in automorphism class | 1 | center is characteristic |
Subgroup-defining functions
| Subgroup-defining function | What it means in general | Why it takes this value |
|---|---|---|
| center | set of elements that commute with every group element | |
| third derived subgroup | derived subgroup of derived subgroup of derived subgroup | derived subgroup is isomorphic to SL(2,3), second derived subgroup is isomorphic to quaternion group |
| socle | join of all minimal normal subgroups | It is the unique minimal normal subgroup. The group is a monolithic group. |
| Frattini subgroup | intersection of all maximal subgroups |