• Title/Summary/Keyword: summand

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DIRECT PROJECTIVE MODULES WITH THE SUMMAND SUM PROPERTY

  • Han, Chang-Woo;Choi, Su-Jeong
    • Communications of the Korean Mathematical Society
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    • v.12 no.4
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    • pp.865-868
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    • 1997
  • Let R be a ring with a unity and let M be a unitary left R-module. In this paper, we establish [5, Proposition 2.8] by showing the proof of it. Moreover, from the above result, we obtain some properties of direct projective modules which have the summand sum property.

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On Generalizations of Extending Modules

  • Karabacak, Fatih
    • Kyungpook Mathematical Journal
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    • v.49 no.3
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    • pp.557-562
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    • 2009
  • A module M is said to be SIP-extending if the intersection of every pair of direct summands is essential in a direct summand of M. SIP-extending modules are a proper generalization of both SIP-modules and extending modules. Every direct summand of an SIP-module is an SIP-module just as a direct summand of an extending module is extending. While it is known that a direct sum of SIP-extending modules is not necessarily SIP-extending, the question about direct summands of an SIP-extending module to be SIP-extending remains open. In this study, we show that a direct summand of an SIP-extending module inherits this property under some conditions. Some related results are included about $C_{11}$ and SIP-modules.

THE IDENTITY-SUMMAND GRAPH OF COMMUTATIVE SEMIRINGS

  • Atani, Shahabaddin Ebrahimi;Hesari, Saboura Dolati Pish;Khoramdel, Mehdi
    • Journal of the Korean Mathematical Society
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    • v.51 no.1
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    • pp.189-202
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    • 2014
  • An element r of a commutative semiring R with identity is said to be identity-summand if there exists $1{\neq}a{\in}R$ such that r+a = 1. In this paper, we introduce and investigate the identity-summand graph of R, denoted by ${\Gamma}(R)$. It is the (undirected) graph whose vertices are the non-identity identity-summands of R with two distinct vertices joint by an edge when the sum of the vertices is 1. The basic properties and possible structures of the graph ${\Gamma}(R)$ are studied.

TOTAL GRAPH OF A COMMUTATIVE SEMIRING WITH RESPECT TO IDENTITY-SUMMAND ELEMENTS

  • Atani, Shahabaddin Ebrahimi;Hesari, Saboura Dolati Pish;Khoramdel, Mehdi
    • Journal of the Korean Mathematical Society
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    • v.51 no.3
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    • pp.593-607
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    • 2014
  • Let R be an I-semiring and S(R) be the set of all identity-summand elements of R. In this paper we introduce the total graph of R with respect to identity-summand elements, denoted by T(${\Gamma}(R)$), and investigate basic properties of S(R) which help us to gain interesting results about T(${\Gamma}(R)$) and its subgraphs.

TOTAL IDENTITY-SUMMAND GRAPH OF A COMMUTATIVE SEMIRING WITH RESPECT TO A CO-IDEAL

  • Atani, Shahabaddin Ebrahimi;Hesari, Saboura Dolati Pish;Khoramdel, Mehdi
    • Journal of the Korean Mathematical Society
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    • v.52 no.1
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    • pp.159-176
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    • 2015
  • Let R be a semiring, I a strong co-ideal of R and S(I) the set of all elements of R which are not prime to I. In this paper we investigate some interesting properties of S(I) and introduce the total identity-summand graph of a semiring R with respect to a co-ideal I. It is the graph with all elements of R as vertices and for distinct x, $y{\in}R$, the vertices x and y are adjacent if and only if $xy{\in}S(I)$.

PROJECTIVE AND INJECTIVE PROPERTIES OF REPRESENTATIONS OF A QUIVER Q = • → • → •

  • Park, Sangwon;Han, Juncheol
    • Korean Journal of Mathematics
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    • v.17 no.3
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    • pp.271-281
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    • 2009
  • We define injective and projective representations of a quiver $Q={\bullet}{\rightarrow}{\bullet}{\rightarrow}{\bullet}$. Then we show that a representation $M_1\longrightarrow[50]^{f1}M_2\longrightarrow[50]^{f2}M_3$ of a quiver $Q={\bullet}{\rightarrow}{\bullet}{\rightarrow}{\bullet}$ is projective if and only if each $M_1,\;M_2,\;M_3$ is projective left R-module and $f_1(M_1)$ is a summand of $M_2$ and $f_2(M_2)$ is a summand of $M_3$. And we show that a representation $M_1\longrightarrow[50]^{f1}M_2\longrightarrow[50]^{f2}M_3$ of a quiver $Q={\bullet}{\rightarrow}{\bullet}{\rightarrow}{\bullet}$ is injective if and only if each $M_1,\;M_2,\;M_3$ is injective left R-module and $ker(f_1)$ is a summand of $M_1$ and $ker(f_2)$ is a summand of $M_2$.

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MODULES THAT SUBMODULES LIE OVER A SUMMAND

  • Min, Kang-Joo
    • Journal of the Chungcheong Mathematical Society
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    • v.20 no.4
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    • pp.569-575
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    • 2007
  • Let M be a nonzero module. M has the property that every submodule of M lies over a direct summand of M. We study some properties of such a module. The endomorphism ring of such a module is also studied. The relationships of such a module to the semi-regular modules, and to the semi-perfect modules are described.

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SOME PROPERTIES OF A DIRECT INJECTIVE MODULE

  • Chang, Woo-Han;Choi, Su-Jeong
    • The Pure and Applied Mathematics
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    • v.6 no.1
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    • pp.9-12
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    • 1999
  • The purpose of this paper is to show that by the divisibility of a direct injective module, we obtain some results with respect to a direct injective module.

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ISOMETRIC REFLECTIONS IN TWO DIMENSIONS AND DUAL L1-STRUCTURES

  • Garcia-Pacheco, Francisco J.
    • Bulletin of the Korean Mathematical Society
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    • v.49 no.6
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    • pp.1275-1289
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    • 2012
  • In this manuscript we solve in the positive a question informally proposed by Enflo on the measure of the set of isometric reflection vectors in non-Hilbert 2-dimensional real Banach spaces. We also reformulate equivalently the separable quotient problem in terms of isometric reflection vectors. Finally, we give a new and easy example of a real Banach space whose dual has a non-trivial L-summand that does not come from an M-ideal in the predual.

Some Results on Simple-Direct-Injective Modules

  • Derya Keskin Tutuncu;Rachid Tribak
    • Kyungpook Mathematical Journal
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    • v.63 no.4
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    • pp.521-537
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    • 2023
  • A module M is called a simple-direct-injective module if, whenever A and B are simple submodules of M with A ≅ B and B is a direct summand of M, then A is a direct summand of M. Some new characterizations of these modules are proved. The structure of simple-direct-injective modules over a commutative Dedekind domain is fully determined. Also, some relevant counterexamples are indicated to show that a left simple-direct-injective ring need not be right simple-direct-injective.