Classification of rings satisfying some constraints on subsets

Moharram A. Khan

Archivum Mathematicum (2007)

  • Volume: 043, Issue: 1, page 19-29
  • ISSN: 0044-8753

Abstract

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Let R be an associative ring with identity 1 and J ( R ) the Jacobson radical of R . Suppose that m 1 is a fixed positive integer and R an m -torsion-free ring with 1 . In the present paper, it is shown that R is commutative if R satisfies both the conditions (i) [ x m , y m ] = 0 for all x , y R J ( R ) and (ii) [ x , [ x , y m ] ] = 0 , for all x , y R J ( R ) . This result is also valid if (ii) is replaced by (ii)’ [ ( y x ) m x m - x m ( x y ) m , x ] = 0 , for all x , y R N ( R ) . Our results generalize many well-known commutativity theorems (cf. [1], [2], [3], [4], [5], [6], [9], [10], [11] and [14]).

How to cite

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Khan, Moharram A.. "Classification of rings satisfying some constraints on subsets." Archivum Mathematicum 043.1 (2007): 19-29. <http://eudml.org/doc/250180>.

@article{Khan2007,
abstract = {Let $R$ be an associative ring with identity $1$ and $J(R)$ the Jacobson radical of $R$. Suppose that $m\ge 1$ is a fixed positive integer and $R$ an $m$-torsion-free ring with $1$. In the present paper, it is shown that $R$ is commutative if $R$ satisfies both the conditions (i) $[x^m,y^m]=0$ for all $x,y\in R\backslash J(R)$ and (ii) $[x,[x,y^m]]=0$, for all $x,y\in R\backslash J(R)$. This result is also valid if (ii) is replaced by (ii)’ $[(yx)^mx^m-x^m(xy)^m,x]=0$, for all $x,y\in R\backslash N(R)$. Our results generalize many well-known commutativity theorems (cf. [1], [2], [3], [4], [5], [6], [9], [10], [11] and [14]).},
author = {Khan, Moharram A.},
journal = {Archivum Mathematicum},
keywords = {Jacobson radical; nil commutator; periodic ring; Jacobson radical; nil commutators; periodic rings; commutativity theorems; commutator constraints},
language = {eng},
number = {1},
pages = {19-29},
publisher = {Department of Mathematics, Faculty of Science of Masaryk University, Brno},
title = {Classification of rings satisfying some constraints on subsets},
url = {http://eudml.org/doc/250180},
volume = {043},
year = {2007},
}

TY - JOUR
AU - Khan, Moharram A.
TI - Classification of rings satisfying some constraints on subsets
JO - Archivum Mathematicum
PY - 2007
PB - Department of Mathematics, Faculty of Science of Masaryk University, Brno
VL - 043
IS - 1
SP - 19
EP - 29
AB - Let $R$ be an associative ring with identity $1$ and $J(R)$ the Jacobson radical of $R$. Suppose that $m\ge 1$ is a fixed positive integer and $R$ an $m$-torsion-free ring with $1$. In the present paper, it is shown that $R$ is commutative if $R$ satisfies both the conditions (i) $[x^m,y^m]=0$ for all $x,y\in R\backslash J(R)$ and (ii) $[x,[x,y^m]]=0$, for all $x,y\in R\backslash J(R)$. This result is also valid if (ii) is replaced by (ii)’ $[(yx)^mx^m-x^m(xy)^m,x]=0$, for all $x,y\in R\backslash N(R)$. Our results generalize many well-known commutativity theorems (cf. [1], [2], [3], [4], [5], [6], [9], [10], [11] and [14]).
LA - eng
KW - Jacobson radical; nil commutator; periodic ring; Jacobson radical; nil commutators; periodic rings; commutativity theorems; commutator constraints
UR - http://eudml.org/doc/250180
ER -

References

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  10. Hirano Y., Hongon M., Tominaga H., Commutativity theorems for certain rings, Math. J. Okayama Univ. 22 (1980), 65–72. (1980) MR0573674
  11. Hongan M., Tominaga H., Some commutativity theorems for semiprime rings, Hokkaido Math. J. 10 (1981), 271–277. (1981) MR0662304
  12. Jacobson N., Structure of Rings, Amer. Math. Soc. Colloq. Publ. Providence 1964. (1964) 
  13. Kezlan T. P., A note on commutativity of semiprime P I -rings, Math. Japon. 27 (1982), 267–268. (1982) Zbl0481.16013MR0655230
  14. Khan M. A., Commutativity of rings with constraints involving a subset, Czechoslovak Math. J. 53 (2003), 545–559. Zbl1080.16508MR2000052
  15. Nicholson W. K., Yaqub A., A commutativity theorem for rings and groups, Canad. Math. Bull. 22 (1979), 419–423. (1979) Zbl0605.16020MR0563755

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