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Given a group-word w and a group G, the verbal subgroup w(G) is the one generated by all w-values in G. The word w is called concise if w(G) is finite whenever the set of w-values in G is finite. It is an open question whether every word is…

Group Theory · Mathematics 2019-05-21 Eloisa Detomi , Marta Morigi , Pavel Shumyatsky

Let $F$ be a free non-abelian group. We show that for any group word $w$ the set $w[F]$ of all values of $w$ in $F$ is rational in $F$ if and only if $w[F] = 1$ or $w[F] = F.$ We generalize this to a wide class of free products of groups.

Group Theory · Mathematics 2020-10-19 A. Myasnikov , V. Roman'kov

The study of verbal subgroups within a group is well-known for being an effective tool to obtain structural information about a group. Therefore, conditions that allow the classification of words in a free group are of paramount importance.…

Group Theory · Mathematics 2025-11-03 Costantino Delizia , Michele Gaeta , Carmine Monetta

A word $w$ in a free group is {\em achiral} if for every group $G,$ $G_w=G_{w^{-1}},$ where $G_w$ is the image of the word map $w$ on $G.$ We will give few classes of examples of achiral words. Cocke and Ho asked whether Engel words are…

Group Theory · Mathematics 2024-11-26 Shrinit Singh , A. Satyanarayana Reddy

A group-word w is called concise if whenever the set of w-values in a group G is finite it always follows that the verbal subgroup w(G) is finite. More generally, a word w is said to be concise in a class of groups X if whenever the set of…

Group Theory · Mathematics 2014-06-30 Robert Guralnick , Pavel Shumyatsky

Given a group-word w and a group G, the verbal subgroup w(G) is the one generated by all w-values in G. The word w is said to be concise if w(G) is finite whenever the set of w-values in G is finite. In the sixties P. Hall asked whether…

Group Theory · Mathematics 2017-11-21 Eloisa Detomi , Marta Morigi , Pavel Shumyatsky

Let $w=w(x_1,...,x_n)$ be a word, i.e. an element of the free group $F = \langle x_1,...,x_n \rangle$. The verbal subgroup $w(G)$ of a group $G$ is the subgroup generated by the set $\{ w(x_1,...,x_n) : x_1,...,x_n \in G \}$ of all…

Group Theory · Mathematics 2024-03-14 Francesca Lisi , Luca Sabatini

Quandles are self-distributive, right-invertible, idempotent algebras. A group with conjugation for binary operation is an example of a quandle. Given a quandle $(Q, \ast)$ and a positive integer $n$, define $a\ast_n b = (\cdots (a\ast…

Group Theory · Mathematics 2022-11-28 Pedro Lopes , Manpreet Singh

A group-word w is called concise if whenever the set of w-values in a group G is finite it always follows that the verbal subgroup w(G) is finite. More generally, a word w is said to be concise in a class of groups X if whenever the set of…

Group Theory · Mathematics 2012-12-05 Cristina Acciarri , Pavel Shumyatsky

We deal with the following conjecture. If w is a group word and G is a finite group in which any nilpotent subgroup generated by w-values has exponent dividing e, then the exponent of the verbal subgroup w(G) is bounded in terms of e and w…

Group Theory · Mathematics 2013-01-18 Eloisa Detomi , Marta Morigi , Pavel Shumyatsky

Given a group-word $w$ and a group $G$, the set of $w$-values in $G$ is denoted by $G_w$ and the verbal subgroup $w(G)$ is the one generated by $G_w$. The word $w$ is concise if $w(G)$ is finite for all groups $G$ in which $G_w$ is finite.…

Group Theory · Mathematics 2021-11-04 João Azevedo , Pavel Shumyatsky

Let $w = w(x_1,..., x_n)$ be a word, i.e. an element of the free group $F =<x_1,...,x_n>$ on $n$ generators $x_1,..., x_n$. The verbal subgroup $w(G)$ of a group $G$ is the subgroup generated by the set $\{w (g_1,...,g_n)^{\pm 1} | g_i \in…

Group Theory · Mathematics 2010-04-01 Jon Gonzalez-Sanchez , Benjamin Klopsch

Let $m,n$ be positive integers and $w$ a multilinear commutator word. Assume that $G$ is a finite group having subgroups $G_1,\ldots,G_m$ whose union contains all $w$-values in $G$. Assume further that all elements of the subgroups…

Group Theory · Mathematics 2019-01-08 Pavel Shumyatsky , Danilo Silveira

Let w be a group word. It is conjectured that if w has only countably many values in a profinite group G, then the verbal subgroup w(G) is finite. In the present paper we confirm the conjecture in the cases where w is a multilinear…

Group Theory · Mathematics 2016-10-20 Eloisa Detomi , Marta Morigi , Pavel Shumyatsky

Let $w$ be a multilinear commutator word. In the present paper we describe recent results that show that if $G$ is a profinite group in which all $w$-values are contained in a union of finitely (or in some cases countably) many subgroups…

Group Theory · Mathematics 2017-03-06 Cristina Acciarri , Pavel Shumyatsky

A word $w$ is concise in a class of groups $\mathcal{C}$ if, for every group $G$ in $\mathcal{C}$, the verbal subgroup $w(G)$ is finite whenever $w$ takes only finitely many values in $G$. This notion can be naturally extended to…

Group Theory · Mathematics 2025-05-05 Martina Conte , Jan Moritz Petschick

A group-word $w$ is concise in a class of groups $\mathcal X$ if and only if the verbal subgroup $w(G)$ is finite whenever $w$ takes only finitely many values in a group $G\in \mathcal X$. It is a long-standing open problem whether every…

Group Theory · Mathematics 2024-04-30 Cristina Acciarri , Pavel Shumyatsky

We review the definition of a quandle, and in particular of the core quandle $\mathrm{Core}(G)$ of a group $G$, which consists of the underlying set of $G$, with the binary operation $x\lhd y = x y^{-1} x$. This is an involutory quandle,…

Group Theory · Mathematics 2021-05-11 George M. Bergman

The word $w=[x_{i_1},x_{i_2},\dots,x_{i_k}]$ is a simple commutator word if $k\geq 2, i_1\neq i_2$ and $i_j\in \{1,\dots,m\}$, for some $m>1$. For a finite group $G$, we prove that if $i_{1} \neq i_j$ for every $j\neq 1$, then the verbal…

Group Theory · Mathematics 2025-11-04 Carmine Monetta , Antonio Tortora

A quandle is a self-distributive algebraic structure that appears in quasi-group and knot theories. For each abelian group A and c \in A we define a quandle G(A, c) on \Z_3 \times A. These quandles are generalizations of a class of…

Rings and Algebras · Mathematics 2016-11-15 W. Edwin Clark , Mohamed Elhamdadi , Xiang-dong Hou , Masahico Saito , Timothy Yeatman
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