On the converse of Gasch\"utz' complement theorem

Abstract

Let N be a normal subgroup of a finite group G. Let N H G such that N has a complement in H and (|N|,|G:H|)=1. If N is abelian, a theorem of Gasch\"utz asserts that N has a complement in G as well. Brandis has asked whether the commutativity of N can be replaced by some weaker property. We prove that N has a complement in G whenever all Sylow subgroups of N are abelian. On the other hand, we construct counterexamples if Z(N) N' 1. For metabelian groups N, the condition Z(N) N'=1 implies the existence of complements. Finally, if N is perfect and centerless, then Gasch\"utz' theorem holds for N if and only if Inn(N) has a complement in Aut(N).