Non-abelian Sylow subgroups of finite groups of even order

Abstract We introduce a new subgroup embedding property of finite groups called CSQ-normality of subgroups. Using this subgroup property, we determine the structure of finite groups with some CSQ-normal subgroups of Sylow subgroups. As an application of our results, some recent results are generalized.

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Finite Groups with Some Subgroups of Sylow Subgroups s∗-Semipermutable

Studia Scientiarum Mathematicarum Hungarica ◽

10.1556/012.2021.58.2.1490 ◽

2021 ◽

Vol 58 (2) ◽

pp. 147-156

Author(s):

Qingjun Kong ◽

Xiuyun Guo

Keyword(s):

Finite Group ◽

Finite Groups ◽

Sylow Subgroup ◽

Subnormal Subgroup ◽

Sylow Subgroups ◽

A Finite Group

We introduce a new subgroup embedding property in a finite group called s∗-semipermutability. Suppose that G is a finite group and H is a subgroup of G. H is said to be s∗-semipermutable in G if there exists a subnormal subgroup K of G such that G = HK and H ∩ K is s-semipermutable in G. We fix in every non-cyclic Sylow subgroup P of G some subgroup D satisfying 1 < |D| < |P | and study the structure of G under the assumption that every subgroup H of P with |H | = |D| is s∗-semipermutable in G. Some recent results are generalized and unified.

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On the generalized norms of finite groups

Journal of Algebra and Its Applications ◽

10.1142/s0219498822501213 ◽

2021 ◽

pp. 2250121

Author(s):

Lü Gong ◽

Tong Jiang ◽

Baojun Li

Keyword(s):

Finite Groups ◽

Sylow Subgroups

The norm [Formula: see text] of a group [Formula: see text] is the intersection of the normalizers of all subgroups in [Formula: see text]. In this paper, the norm is generalized by studying on Sylow subgroups and [Formula: see text]-subgroups in finite groups which is denoted by [Formula: see text] and [Formula: see text], respectively. It is proved that the generalized norms [Formula: see text] and [Formula: see text] are all equal to the hypercenter of [Formula: see text].

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Finite groups with two supersoluble subgroups

Journal of Group Theory ◽

10.1515/jgth-2018-0150 ◽

2019 ◽

Vol 22 (2) ◽

pp. 297-312 ◽

Cited By ~ 6

Author(s):

Victor S. Monakhov ◽

Alexander A. Trofimuk

Keyword(s):

Finite Group ◽

Finite Groups ◽

Sufficient Conditions ◽

Maximal Subgroups ◽

Sylow Subgroups ◽

Derived Subgroup ◽

Nilpotent Residual ◽

A Finite Group

AbstractLetGbe a finite group. In this paper we obtain some sufficient conditions for the supersolubility ofGwith two supersoluble non-conjugate subgroupsHandKof prime index, not necessarily distinct. It is established that the supersoluble residual of such a group coincides with the nilpotent residual of the derived subgroup. We prove thatGis supersoluble in the following cases: one of the subgroupsHorKis nilpotent; the derived subgroup{G^{\prime}}ofGis nilpotent;{|G:H|=q>r=|G:K|}andHis normal inG. Also the supersolubility ofGwith two non-conjugate maximal subgroupsMandVis obtained in the following cases: all Sylow subgroups ofMand ofVare seminormal inG; all maximal subgroups ofMand ofVare seminormal inG.

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Mutually Permutable Products of Finite Groups

ISRN Algebra ◽

10.5402/2011/867082 ◽

2011 ◽

Vol 2011 ◽

pp. 1-4

Author(s):

Rola A. Hijazi

Keyword(s):

Finite Group ◽

Finite Groups ◽

Sylow Subgroups ◽

A Finite Group ◽

Mutually Permutable Products

Let G be a finite group and G1, G2 are two subgroups of G. We say that G1 and G2 are mutually permutable if G1 is permutable with every subgroup of G2 and G2 is permutable with every subgroup of G1. We prove that if is the product of three supersolvable subgroups G1, G2, and G3, where Gi and Gj are mutually permutable for all i and j with and the Sylow subgroups of G are abelian, then G is supersolvable. As a corollary of this result, we also prove that if G possesses three supersolvable subgroups whose indices are pairwise relatively prime, and Gi and Gj are mutually permutable for all i and j with , then G is supersolvable.

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Finite Groups with Certain Permutability Criteria

European Journal of Pure and Applied Mathematics ◽

10.29020/nybg.ejpam.v12i2.3399 ◽

2019 ◽

Vol 12 (2) ◽

pp. 571-576 ◽

Cited By ~ 1

Author(s):

Rola A. Hijazi ◽

Fatme M. Charaf

Keyword(s):

Finite Group ◽

Finite Groups ◽

Sylow Subgroups ◽

Group A ◽

A Finite Group

Let G be a finite group. A subgroup H of G is said to be S-permutable in G if itpermutes with all Sylow subgroups of G. In this note we prove that if P, the Sylowp-subgroup of G (p > 2), has a subgroup D such that 1 <|D|<|P| and all subgroups H of P with |H| = |D| are S-permutable in G, then G′ is p-nilpotent.

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FINITE GROUPS WITH GIVEN NEARLY S-QUASINORMAL SUBGROUPS

Asian-European Journal of Mathematics ◽

10.1142/s1793557108000321 ◽

2008 ◽

Vol 01 (03) ◽

pp. 369-382

Author(s):

Nataliya V. Hutsko ◽

Vladimir O. Lukyanenko ◽

Alexander N. Skiba

Keyword(s):

Finite Group ◽

Normal Subgroup ◽

Finite Groups ◽

Sylow Subgroup ◽

Cyclic Subgroup ◽

Saturated Formation ◽

Supersoluble Groups ◽

Sylow Subgroups ◽

Quasinormal Subgroup ◽

A Finite Group

Let G be a finite group and H a subgroup of G. Then H is said to be S-quasinormal in G if HP = PH for all Sylow subgroups P of G. Let HsG be the subgroup of H generated by all those subgroups of H which are S-quasinormal in G. Then we say that H is nearly S-quasinormal in G if G has an S-quasinormal subgroup T such that HT = G and T ∩ H ≤ HsG. Our main result here is the following theorem. Let [Formula: see text] be a saturated formation containing all supersoluble groups and G a group with a normal subgroup E such that [Formula: see text]. Suppose that every non-cyclic Sylow subgroup P of E has a subgroup D such that 1 < |D| < |P| and all subgroups H of P with order |H| = |D| and every cyclic subgroup of P with order 4 (if |D| = 2 and P is a non-abelian 2-group) having no supersoluble supplement in G are nearly S-quasinormal in G. Then [Formula: see text].

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Enumeration of finite groups with abelian Sylow subgroups

Enumeration of Finite Groups ◽

10.1017/cbo9780511542756.013 ◽

2010 ◽

pp. 102-112

Author(s):

Simon R. Blackburn ◽

Peter M. Neumann ◽

Geetha Venkataraman

Keyword(s):

Finite Groups ◽

Sylow Subgroups

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