1) Hopf π-coideal
Hopfπ-余理想
2) quasitriangular Hopfπ- coalgebras
拟三角Hopfπ-余代数
1.
By introducing such concepts asπ-coalgebras and quasitriangular Hopfπ- coalgebras,the paper endeavors to construct twoπ-coalgebras and generalize some properties of quasitriangular Hopf algebras into quasitriangular Hopfπ- coalgebras.
利用拟三角Hopfπ-余代数等概念,构造两类新的π-余代数,并把拟三角Hopf代数的一些性质推广到拟三角Hopfπ-余代数上。
3) ideal conucleus
理想余核
1.
From the view of algebra,the concrete constructions of ideals and ideal conuclei on right-sided and idempotent Quantale are studied,and it is proved that every ideal is a principal ideal and every ideal conucleus is simple.
从代数角度研究了右侧幂等Quantale中的理想和理想余核的具体结构,并且证明了右侧幂等Quantale中的理想和理想余核分别是主理想和简单理想余核。
2.
Some of the properties of pre-Girard quantale and the relation between nuclei and conuclei on pre-Girard quantale are studied,the definition of the ideal conucleus is simplified,some of the properties of ideal conuclei are discussed,and the concrete constructions of ideal conuclei on right-sided and idempotent quantales are given.
研究了预Girard quantale的性质以及在预Girard quantale上核映射与余核映射之间的关系,简化了理想余核的定义,讨论了理想余核的一些性质,给出了右侧幂等quantale上所有理想余核的具体刻画。
4) congruence ideal
同余理想
1.
In this paper,on the basis of the ideals of double Stone algebra,the congruence ideals of double Stone algebra are given.
在给出双Stone代数的理想的基础上,给出了双Stone代数的同余理想。
2.
And a necessary and sufficient condition that ideal I=(b] is a congruence ideal is obtained.
给出PMS-代数L的主同余θ(0,b)及θ(a,1)的一个新的刻划,利用这个刻划,得到理想I=(d]是同余理想的充要条件,从而断定L的同余理想只能是正则理想。
3.
In this paper,we describe the characterization of the smallest congruence extensions of ideals in a Fuzzy lattice: suppose F is Fuzzy lattice, I is an ideal of F, let( T_c(I))={x∈F|d∈I, such that x∧d′≤d∧d′},then T_c(I) is the smallest congruence ideal containing I.
刻画了Fuzzy格中理想的最小同余扩张,设I为Fuzzy格F的任一理想,令Tc(I)={x∈F| d∈I,使得x∧d′≤d∧d′},则Tc(I)是F中包含I的最小同余理想。
5) Ideals congruence
理想同余
1.
Properties of rough sets about ideals congruence in rings;
环中关于理想同余的粗糙集的性质
补充资料:[3-(aminosulfonyl)-4-chloro-N-(2.3-dihydro-2-methyl-1H-indol-1-yl)benzamide]
分子式:C16H16ClN3O3S
分子量:365.5
CAS号:26807-65-8
性质:暂无
制备方法:暂无
用途:用于轻、中度原发性高血压。
分子量:365.5
CAS号:26807-65-8
性质:暂无
制备方法:暂无
用途:用于轻、中度原发性高血压。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条