Jonah-Konvisser congruence condition on number of abelian subgroups of small prime power order for odd prime: Difference between revisions

Revision as of 21:10, 1 October 2009

This article states and (possibly) proves a fact that is true for odd-order p-groups: groups of prime power order where the underlying prime is odd. The statement is false, in general, for groups whose order is a power of two.
View other such facts for p-groups|View other such facts for finite groups

This article is about a congruence condition.
View other congruence conditions

This article defines a replacement theorem
View a complete list of replacement theorems| View a complete list of failures of replacement

Statement

Statement in terms of universal congruence conditions

Suppose $p$ is an odd prime number, and $0\leq k\leq 5$ . Then, the set of all abelian groups of order $p^{k}$ (i.e., a set of representatives of all isomorphism classes of abelian groups of order $p^{k}$ ) is a Collection of groups satisfying a universal congruence condition (?). In particular, it is also a Collection of groups satisfying a strong normal replacement condition (?) and hence also a Collection of groups satisfying a weak normal replacement condition (?).

Hands-on statement

Suppose $p$ is an odd prime number and $0\leq k\leq 5$ . Suppose $G$ is a finite $p$ -group having an abelian subgroup of order $p^{k}$ . The following equivalent statements hold:

The number of abelian subgroups of $G$ of order $p^{k}$ is congruent to $1$ modulo $p$ .
The number of abelian normal subgroups of $G$ of order $p^{k}$ is congruent to $1$ modulo $p$ .
If $G$ is a subgroup of a finite $p$ -group $L$ , then the number of abelian subgroups of $G$ of order $p^{k}$ that are normal in $L$ is congruent to $1$ modulo $p$ .

In particular, if $G$ has an abelian subgroup of order $p^{k}$ , then $G$ has an abelian normal subgroup of order $p^{k}$ , and moreover, $G$ has an abelian p-core-automorphism-invariant subgroup of order $p^{k}$ .

Related facts

Similar general facts

Generalizations

Congruence condition on number of abelian subgroups of small prime power order and bounded exponent for odd prime

Similar congruence condition/replacement theorems

Congruence condition-cum-replacement theorem results:

Pure replacement theorems:

Glauberman's abelian-to-normal replacement theorem for bounded exponent and half of prime plus one
Elementary abelian-to-normal replacement theorem for large primes (a weaker result that is superseded by the previous result).

For a full list of replacement theorems (including many of a completely different flavor) refer Category:Replacement theorems.

Opposite facts

Congruence condition fails for abelian subgroups of prime-sixth order

References

Journal references

Counting abelian subgroups of p-groups: a projective approach by Marc Konvisser and David Jonah, Journal of Algebra, ISSN 00218693, Volume 34, Page 309 - 330(Year 1975): ^{PDF (ScienceDirect)}^{More info}

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 ===Opposite facts===
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+* [[Congruence condition fails for abelian subgroups of prime-sixth order]]
 ==References==