A new solvability criterion for finite groups

“…See for example [3,5,8,16]. Dolfi, Guralnick, Herzog and Praeger first ask Question 1.4 in [7,Section 6]. These authors conjecture that the analogue of Condition (5) holds for all but finitely many simple groups of Lie type, but point out that the corresponding statement for alternating groups occasionally fails.…”

Section: Introductionmentioning

confidence: 99%

Divisibility of binomial coefficients and generation of alternating groups

Shareshian

Woodroofe

2018

Pacific J. Math.

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“…Actually, a weaker sufficient condition for nilpotence is known: G is nilpotent if and only if for every pair of primes p and q and every pair of elements

x, y \in G

with x a p ‐element and y a q ‐element, x commutes with some conjugate of y (see Corollary E of ), but the proof of this result depends on the classification of finite simple groups.…”

Section: Conjugacy Classesmentioning

confidence: 99%

“…By induction ∕⟨ ⟩ has a Sylow -subgroup as a direct factor whence so does . □ Actually, a weaker sufficient condition for nilpotence is known: is nilpotent if and only if for every pair of primes and and every pair of elements , ∈ with a -element and a -element, commutes with some conjugate of (see Corollary E of [4]), but the proof of this result depends on the classification of finite simple groups. Now, we are ready to prove our strong form of Theorem A.…”

Section: Lemma 21 Let Be a Prime Number And Let Be A Finite Group mentioning

confidence: 99%

Conjugacy classes, characters and products of elements

Guralnick

Moretó

2019

Mathematische Nachrichten

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Recently, Baumslag and Wiegold proved that a finite group G is nilpotent if and only if o(xy)=o(x)o(y) for every x,y∈G of coprime order. Motivated by this result, we study the groups with the property that (xy)G=xGyG and those with the property that χ(xy)=χ(x)χ(y) for every χ∈Irr(G) and every nontrivial x,y∈G of pairwise coprime order. We also consider several ways of weakening the hypothesis on x and y. While the result of Baumslag and Wiegold is completely elementary, some of our arguments here depend on (parts of) the classification of finite simple groups.

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“…It is a well-known fact that nilpotency is bigenetic in the class of all finite groups, and in [13], Thompson also showed that a finite group is solvable when every pair of its elements generates a solvable group. More recently, Dolfi et al [3] proved that solvability and nilpotency of finite groups are ensured by weaker conditions: a finite group G is solvable (nilpotent) if for every pair of elements a b ∈ G there exists an element g ∈ G such that the subgroup a g b is solvable (nilpotent).…”

Section: Introductionmentioning

confidence: 98%

On Certain Weak Engel-Type Conditions in Groups

Meriano

Nicotera

2014

Communications in Algebra

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Let w x y be a word in two variables and the variety determined by w. In this paper we raise the following question: if for every pair of elements a b in a group G there exists g ∈ G such that w a g b = 1, under what conditions does the group G belong to ? In particular, we consider the n-Engel word w x y = x n y . We show that in this case the property is satisfied when the group G is metabelian. If n = 2, then we extend this result to the class of all solvable groups.

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A new solvability criterion for finite groups

Cited by 23 publications

References 21 publications

Divisibility of binomial coefficients and generation of alternating groups

Divisibility of binomial coefficients and generation of alternating groups

Conjugacy classes, characters and products of elements

On Certain Weak Engel-Type Conditions in Groups

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