例句與造句

1. Isometric approximations from finite dimensional space into l
   1空間的等距逼近問(wèn)題
2. Finite dimensional behavior for the nonautonomous ginzburg - landau equation
   方程的有限維行為
3. Finite dimensional vector space
   有限維向量空間
4. Finite dimensional space
   有限維空間
5. An extension problem of isometric mapping between the unit spheres of finite dimensional l - spaces
   空間單位球面之間等距延拓的一個(gè)問(wèn)題
6. It's difficult to find finite dimensional in a sentence. 用finite dimensional造句挺難的
7. The reason why the periodic solutions on some of the bifurcation branches cannot be located by using direct integration is also discussed from the viewpoint of the finite dimensional basin of attraction
   此外，用時(shí)滯系統(tǒng)的有限維吸引域方法初步探索了為何部分理論分析預(yù)測(cè)的周期解無(wú)法通過(guò)數(shù)值法得到。
8. In chapter 2 , we get some conclusions for the completion of the almost complete exceptional sequence of representation - finite type algebra and finite dimensional algebra using perpendicular category
   第二章借助垂直范疇得到了關(guān)于有限表示型遺傳代數(shù)，任意有限維遺傳代數(shù)上幾乎完備例外序列補(bǔ)的一些結(jié)論。
9. At the same time , the values " range of two kinds of nonsquare constants and their values in real inner product space are given . we also discuss the pointwise nonsquare constant in finite dimensional f space
   同時(shí)給出了兩種點(diǎn)態(tài)非方常數(shù)的取值范圍，和實(shí)內(nèi)積空間中兩種點(diǎn)態(tài)非方常數(shù)的值。討論了有限維l ~ p空間的點(diǎn)態(tài)非方常數(shù)。
10. Derivation algebras play an important role in the research of lie algebras and lie superalgebras . until 1988 , the derivation algebras of finite dimensional modular lie algebras of cartan - type had been researched
    由于導(dǎo)子代數(shù)在李代數(shù)及李超代數(shù)的研究中起著非常重要的作用。到1988年，已研究了有限維cartan型模李代數(shù)的導(dǎo)子代數(shù)。
11. The nonholonomic problem most commonly arise in finite dimensional mechanical systems where constraints are imposed on the motion that are not integral , such as wheeled vehicles with rolling contact and space robotics with angle moment conservation
    這類問(wèn)題通常是由于機(jī)械系統(tǒng)受到對(duì)速度的不可積約束引起的，這種約束不可通過(guò)積分的方法表示成位形空間的約束形式。
12. The related problem of how to construct the finite dimensional approximation of the integral operator by using radial basis functions , formulate the discrete euler ' s equation with its trigonaliza - tion , fastly realize the rules of selecting the regularization parameter are discussed
    文中討論了利用徑向基函數(shù)作積分算子的有限維逼近，離散euler方程的形成及其三對(duì)角化，以及在此形式下的各種選擇正則參數(shù)準(zhǔn)則的快速實(shí)現(xiàn)等問(wèn)題。
13. In addition , the paper will analyze the existence condition for nonwandering semigroup by the methods of topological dynamical system . from the mature results of finite dimensional space , such as the topological mixing , we discuss any other methods to solve the problems of infinite dimensional space , so as to provide the similar methods for the similar work
    另一方面，本文將結(jié)合微分動(dòng)力系統(tǒng)和拓?fù)鋭?dòng)力系統(tǒng)的研究方法，主要從微分動(dòng)力系統(tǒng)的角度，從根本上分析非游蕩算子半群存在的條件，并結(jié)合與此密切相關(guān)的有限維空間的一些成熟的理論，如拓?fù)鋭?dòng)力系統(tǒng)中的拓?fù)浠旌闲缘?，從不同角度試圖解決無(wú)窮維空間的結(jié)論。
14. Linear algebra is mainly a subject which studies the linear structure of finite dimensional linear space and its linear transformation while linear concept is in itself from the old euclid g eometry . the concept of " linear space " is a kind of algebraic abstract . in many fields of modern engineering project and technology , because of the influence of computer and graph showing , the algebraic disposal of geometric questions , the visual disposal of algebraic questions , algebra and geometry are tightly combined
    線性代數(shù)主要是研究有限維線性空間及其線性變換這一代數(shù)結(jié)構(gòu)的學(xué)科，而線性概念究其根源則是來(lái)自古老的euclid幾何，線性空間概念是幾何空間的一種代數(shù)抽象，在現(xiàn)代工程技術(shù)的許多領(lǐng)域里，由于計(jì)算機(jī)及圖形顯示的強(qiáng)大威力，幾何問(wèn)題的代數(shù)化處理，代數(shù)問(wèn)題的可視化處理，把代數(shù)與幾何更加緊密地結(jié)合在一起。
15. After we define the n - numerical range of bounded linear operators on a hilbert space , we find that the n - numerical range have a series properties very similar to that of the quadratic numerical range . at the same time , we prove that under certain conditions , wn ( a ) c w ~ ( a ) and that when h is finite dimensional and dimti = n , we have a ( a ) = wn ( a ) . therefore , it is nature to guess that when h is an infinite dimensional hilbert space , for any space decomposition dn ? ?
    首先給出了n次數(shù)值域的定義，我們發(fā)現(xiàn)n次數(shù)值域不但具有一系列和二次數(shù)值域類似的性質(zhì)，而且在給定的條件下還有n次數(shù)值域包含在二次數(shù)值域當(dāng)中，另外當(dāng)是n維hilbert空間時(shí)，它的n次數(shù)值域就等于它的譜集，前面的結(jié)論促使我們猜想，當(dāng)是無(wú)限維hilbert空間時(shí)，對(duì)的任意的空間分解d _ n ，都應(yīng)該有下面的式子成立： ( a ) = _ ( d _ n d ) w _ ( d _ n ) ~ n ( a ) 。
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