線性代數方程 的英文怎麼說

中文拼音 [xiànxìngdàishǔfāngchéng]
線性代數方程 英文
linear algebraic equation
  • : 名詞1 (用絲、棉、金屬等製成的細長的東西) thread; string; wire 2 [數學] (一個點任意移動所構成的...
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  • : Ⅰ動詞1 (代替) take the place of; be in place of 2 (代理) act on behalf of; acting Ⅱ名詞1 (歷...
  • : 數副詞(屢次) frequently; repeatedly
  • : Ⅰ名詞1 (方形; 方體) square 2 [數學] (乘方) involution; power 3 (方向) direction 4 (方面) ...
  • : 名詞1 (規章; 法式) rule; regulation 2 (進度; 程序) order; procedure 3 (路途; 一段路) journe...
  • 線性 : [數學] [物理學] linear; linearity線性代數 linear algebra; 線性方程 linear equation; 線性規劃 line...
  1. In this method the stress resultants of concrete in the cross section are evaluated by accurate integrating method and the resultants of structural steel and reinforcing bars are obtained using the fiber element method. the final nonlinear algebraic equations are solved using an iterative quasi - newton procedure based on the regula - falsi numerical scheme

    應用該計算機法,截面上的混凝土內力採用精確的積分法求得,結構鋼與鋼筋的內力則由纖維元法計算,而最終的非線性代數方程組由分離變量的擬newton - raphson迭法求解。
  2. By means of idea of the quasi - solution the inverse problem is converted into a sequence of well - posed forward problems and an ill - posed system of algebraic equations

    應用擬解法的思想,把原問題分解為一系列適定的正問題和一個不適定的線性代數方程組。
  3. New algorithm on finding roots of systems of nonlinear algebraic equations

    線性代數方程組求根新演算法
  4. In this paper, it s applications were explained from seven different fields, the common zeros of two polynomials, the multiplicities of roots and the discrimination of a polynomial, searching the equations suitable for a algebraic number, implicating a rational curve over the plane, computing the zeros of a nonlinear algebraic equation and gathering the discrimination surface of the sas in automated theorem proving on inequalities

    本文從7個面闡述了結式的應用,包括判斷2個多項式的公共零點,判定多項式是否有重根,計算多項式的判別式,尋找滿足的,平面有理曲的隱式化,非線性代數方程組求解和不等式機器證明中半系統邊界曲面的獲得等。
  5. The paper summarized the common linear and nonlinear mathematics model in the research of mechanism science, focusing on the comment on the methods to solve nonlinear algebraic system of equations

    文中概述了機構學研究中常見的和非學模型,著重述評了非線性代數方程組的各種解法。
  6. According to test results of three or more than three points of flowing pressure and corresponding liquid output, the regression equations that contained the 3 undetermined coefficients were setup by the least squares method rule, and the undetermined coefficients were solved by the optimization method

    根據3點或更多點穩定工作制度下產量與對應流壓的測試據,建立了確定3個待定系的非線性代數方程組。
  7. The ritt - wu ' s method is a powerful tool for solving nonlinear algebra equations

    吳文俊提出的消元法是求解非線性代數方程組一個強有力的工具。
  8. The system is solved by using wu elimination and exact solitary wave solutions of nonlinear evolution equations are then obtained

    利用吳文俊消元法求解非線性代數方程組,即可得到非演化的精確孤波解。
  9. Based on the saint - venant equations describing the channel flow movement, the nonlinear algebraic equations derived by the use of preissmann weighted implicit four - point scheme are solved with the netwon - raphson method, which raises the accurate of the numerical solution, and the convergence of the numerical solution is discussed, 2

    用newton法直接求解按preissmann加權四點格式離散擴展形式的saint - venant組所得的非線性代數方程組,提高了值解的精確,並對值解的收斂進行了討論。
  10. Row action method for general solution of system of linear algebraic equations

    線性代數方程組行處理法分治策略
  11. Column action method for fundamental system of solutions of homogeneous of linear equations

    線性代數方程組通解行處理法
  12. Pre - symmetry regularized method for positive definite symmetrizable system of linear algebraic equations

    關于正定可對稱化線性代數方程組的預對稱正則化演算法
  13. Such an expansion reduces the original problem to a set of linear algebraic equations from which the solution in the interval of one period can be obtained

    無論哪種諧波平衡法,最終得到的是一組復雜的非摘要周期時變凸輪系統的動力行為研究線性代數方程組。
  14. The usage of preconditioned is to improve the distribution of the eigenvalues. the construction of efficient preconditioned is a hot spot of the study of iterations in these years

    對原線性代數方程組採用預條件技術是解決收斂問題的有效途徑,成為迭法中的研究熱點。
  15. In finite element analysis, the storage needed by a total stiffness matrix for solving a large - scale system of linear equations is related to the sequence determined by numbering of mesh nodes

    摘要在有限元分析中,求解高階線性代數方程組時整體剛度矩陣所需存儲與由網格結點編號決定的順序有關。
  16. The traditional methods are to solve the linear algebra equations directly, based on matrix factorization such as lu decomposition. with this kind of methods, the " true " solution can be derived if there is no consideration of the round error

    線性代數方程組的傳統法是利用lu分解等直接求解,雖然傳統法具有理論上直接得到真解的優點,但當系矩陣條件很大時,存在嚴重的穩定問題。
  17. The high - performance solution of sparse linear algebra equations is very important in solving many problems from science and engineering applications, including computational fluid, simulation and design of materials, data processing in oil exploitation and earthquake prediction, numerical forecast of weather, and numerical simulation of nuclear blast

    稀疏線性代數方程組的高效求解是許多科學與工計算的核心,如計算流體力學、材料模擬與設計、石油地震據處理、值天氣預報從核爆值模擬等都離不開稀疏線性代數方程組的求解。
  18. With the aid of computer algebra system maple, the nonlinear algebra equations corresponding to the nonlinear coupled scalar field equations can be successfully solved this way, and eventually many exact solutions to it can be obtained

    用這種辦法在計算機系統maple上成功地求解了非耦合標量場組所對應的非線性代數方程組,最終獲得了耦合標量場組的眾多精確解。
  19. The mostly conclusion of this part is as follows, on the conditon of travelling wave, the exact solitary wave solutions to some nonlinear wave equations such as sawada - kotera equation, kaup - kupershmidt equation, the fifth order kdv equation, fisher - kolmogorov equation, on the help of the computer algebraic system ( maple ), are explicitly established by making use of the hyperbolic function method. this part is maken up of three sections

    本部分的主要結論如下,利用雙曲函展開法,在行波條件下,對sawada - kotera, kaup - kupershmidt,五階kdv, fisher - kolmogorov,等幾類非波動求解,將其孤立波表示為雙曲函的多項式,從而將非的求解問題轉化為非線性代數方程組的求解問題,並藉助于計算機系統求解非線性代數方程組,最終獲得了這些非波動的若干精確孤立波解。
  20. In the procedure, the column is first divided into a finite number of small segments in equal length. the deflection - curvature relation of each segment is determined using the finite - difference method. the final nonlinear algebraic equations are then obtained by means of the equilibrium condition for each segment

    運用這種法,先將長柱離散成若干等長的柱段,利用差分法求得各柱段截面上的撓度與曲率的關系,再根據各截面上外力與抵抗力的平衡條件,得到一組關于荷載與變形關系的非線性代數方程組;本文對該組採用載荷增量法進行迭求解。
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