1) infinite vector
无穷向量
1.
The linear relations of infinite vectors over a field a re discussed, some new necesary and sufficient conditions for the existence of the inverse of a row(or column)-finite infinite matrix A over a field are given by the left(or right) cancellation law for multiplication of infinite matrixes.
研究域K上无穷向量的线性关系 ,利用域K上无限方阵乘法的左 (右 )消去律 ,给出域K上的无限方阵可逆的新的充分必要条
2) infinite eigenvectors
无穷远特征向量
1.
In this paper, we investigate the computing problem on infinite pole structure, give a method for computing infinite eigenvectors and generalized infinite eigenvectors in singular systems.
研究了广义系统的无穷远特征结构问题,给出了一种计算广义系统的无穷远特征向量和广义无穷远特征向量的方法。
3) generalized infinite eigenvectors
广义无穷远特征向量
1.
In this paper, we investigate the computing problem on infinite pole structure, give a method for computing infinite eigenvectors and generalized infinite eigenvectors in singular systems.
研究了广义系统的无穷远特征结构问题,给出了一种计算广义系统的无穷远特征向量和广义无穷远特征向量的方法。
4) infinitely small quantity
无穷小量
1.
Theorem 1 and 2 about ratio of two infinitely small quantity function monotonous are obtained.
对文献[1]给出的一个函数单调性的判别命题进行推广,得出两个无穷小量之比的单调性的判别命题1,2。
2.
In this paper,we disscus the poerations of infinitely small quantity and get some result.
讨论了无穷个无穷小量作和、积运算后是否仍为无穷小量,得到的结论论是:无限个无穷小量的和、积未必收敛,即使收敛,也未必是无穷小量。
3.
In this note, we construct some examples to show that the infinitely product of the infinitely small quantity may be not infinitely small quantity.
本文由有限个无穷小量的乘积仍是无穷小量的证明入手 ,给出无穷多个无穷小量的乘积不一定是无穷小量的例子 ,并根据这种方法得到无穷多个无穷大量的和也不一定是无穷大量的结
5) infinitesimal
[英][,ɪnfɪnɪ'tesɪml] [美]['ɪnfɪnə'tɛsəmḷ]
无穷小量
1.
The Extension and Application of the Equivalent Infinitesimal Replacement;
等价无穷小量代换的推广和应用
2.
An infinitesimal equivalence theorem is established in this paper.
建立了一个无穷小量等价的定理,文献1中的结果可作为本文定理的一个简单应用。
3.
This paper takes the infinitesimal as an entrance to derivative and shows the essential of derivative concept step by step and therefore enhances the students to comprehend this concept.
导数是高等数学中的一个重要概念,讨论了一种不同于目前多数教材中介绍导数概念的方法,以无穷小量为切入点,一步步过渡到导数的概念等,揭示了导数概念的本质,强化了学生对这一概念的理解。
6) infinity
[英][ɪn'fɪnəti] [美][ɪn'fɪnətɪ]
无穷大量
1.
The comparison of infinity s order and its application to the infinite integrals;
无穷大量阶的比较在无穷积分中的应用
2.
This paper studies the concept of infinitesimal and infinity,and discusses the convergence of sequence,function and series with the estimation of the orders.
文章通过对无穷小量与无穷大量的阶的概念研究,用阶的估计讨论数学分析中数列、函数及级数收敛问题,也为收敛问题深入研究提供了一种方法。
补充资料:弱无穷维空间
弱无穷维空间
weakly infinite-dimensional space
弱无穷维空间〔we刹y词训te~‘n犯‘田‘匆,ce;cJIa606ec劝。e,。oMepooen一ocTpaHc,」 一个拓扑空间(topologjcal sPace)X,使得对其闭子集偶对的任意无穷系(A,,B‘), A,自B,=沪,i=1,2,…,存在(A与B;之间的)分划(Partition)C,,满足自c=必.不是弱无穷维的无穷维空间称为强无穷维(strongly inl训te dinle比ional)空间.弱无穷维空间也称为A弱无穷维(A一weakly沉肋ited由℃nsional)空间.若在上述定义中,进一步要求c,的某有限子族有空的交集,就得出S弱无穷维空间(S一weak】y顾-nite .dinlensio耐sPace)的概念.【补注】除上述外,A弱就是AneKcaHJIpoB弱(Akk-san山{。vweakly),S弱就是CM即HoB弱(Snurnovweakly).还有一种已经弃之不用的概念Hurewicz弱无穷维空间(Hurewicz一wea脚infin讹一山住r朋io耐space),见综述[AI], 为避免“无穷维空间”这个词的混乱,空间X要求可度量化,见【A2].
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