Subnormalizer: Difference between revisions
(New page: ==Definition== Suppose <math>H</math> is a subgroup of a group <math>G</math>. A '''subnormalizer''' of <math>H</math> in <math>G</math> is a subgroup <math>K</math> of <math>G</m...) |
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Since [[subnormality is not upper join-closed]], not every subgroup need have a subnormalizer. | Since [[subnormality is not upper join-closed]], not every subgroup need have a subnormalizer. | ||
The term '''subnormalizer''' is also sometimes used for the [[subnormalizer subset]], which is the subset comprising all elements that subnormalize it. When a subnormalizer exists in the sense described here, it coincides with the subnormalizer subset; however, the subnormalizer subset always exists, while the subnormalizer (subgroup) need not. | |||
Also, the subnormalizer subset may exist and be a subgroup, but it may not be a subnormalizer in this sense. | |||
Latest revision as of 22:21, 31 March 2009
Definition
Suppose is a subgroup of a group . A subnormalizer of in is a subgroup of containing such that is a subnormal subgroup of , and further, if is such that is subnormal in , then .
Since subnormality is not upper join-closed, not every subgroup need have a subnormalizer.
The term subnormalizer is also sometimes used for the subnormalizer subset, which is the subset comprising all elements that subnormalize it. When a subnormalizer exists in the sense described here, it coincides with the subnormalizer subset; however, the subnormalizer subset always exists, while the subnormalizer (subgroup) need not.
Also, the subnormalizer subset may exist and be a subgroup, but it may not be a subnormalizer in this sense.