A. I. Sozutov scite author profile

We prove the existence of infinite subgroups with nontrivial locally finite radicals and of locally finite subgroups in the groups with almost finite almost solvable elements of prime orders and in the groups with generally finite elements.In this article we generalize some results of [1-10] and prove the theorems that are announced in [11,12].If the set of finite order elements is finite in an infinite group G then by the well-known theorem of Dietzmann this set forms a finite fully characteristic subgroup of G. If the set of finite order elements in G is infinite then some questions concerning their location in the group are in order [9]. One of them is the well-known question of Kargapolov [13, Problem 1.24] about the existence of infinite abelian subgroups in an infinite group, which in the general case was answered negatively by Novikov and Adyan [14]. Therefore, it has to be considered separately for many classes of infinite groups. The question of Kargapolov is closely related to a weaker question of the existence of the f -local subgroups, i.e., the infinite subgroups with nontrivial locally finite radicals (see the question of Strunkov [13, Problem 2.75]). In this article we give positive answers to these questions in some classes of groups.Theorem 1. Given an infinite group G, take an element a of prime order p > 2 so that for almost all a g ∈ a G the subgroups a, a g are finite and solvable. Then either G contains only finitely many finite order elements or a lies in an f -local subgroup that contains infinitely many finite order elements.Call an element x of a group G solvable whenever all finite subgroups generated by elements in x G are solvable.Theorem 2. In an infinite group G take solvable elements a and b of prime orders so that |a|·|b| > 4 and for almost all c ∈ b G the subgroups a, c are finite. Then either G contains only finitely many finite order elements or at least one of a and b lies in an f -local subgroup that contains infinitely many finite order elements.A group G is said to possess periodic part whenever the set of finite order elements of G forms a subgroup [9]. Call a finite order nonidentity element a of some infinite group G generally finite if a lies in the base of a fan of finite subgroups whose amalgam almost completely contains a nonidentity conjugacy class of G. In other words, for almost all c in some nonidentity conjugacy class b G the subgroups a, c are finite; i.e., the (a, b)-finiteness condition [9] holds.Theorem 3. If all finite subgroups of G are solvable and each quotient of G by a finite subgroup either is torsion free or contains a generally finite element of odd prime order then G either possesses finite periodic part or includes an infinite locally finite subgroup.In the case that the general finiteness holds for all prime order elements in G and is inherited by all subgroups of G and all its quotients by periodic normal subgroups, call G a generally finite group. Theorem 3 implies Corollary 1. If the set of finite order elements in a generally finite group G i...

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Residually finite groups with nontrivial intersection of every subgroup pair

Sozutov¹

2000

Sib Math J

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On the Shunkov groups acting freely on Abelian groups

Sozutov

2013

Sib Math J

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A. I. Sozutov

Infinite groups saturated by frobenius subgroups

On the structure of the noninvariant factor in some Frobenius groups

On the existence of f-local subgroups in a group

Residually finite groups with nontrivial intersection of every subgroup pair

On the Shunkov groups acting freely on Abelian groups

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