共軛級數 的英文怎麼說
中文拼音 [gòngèjíshǔ]
共軛級數
英文
allied series- 共 : 共動詞[書面語]1. (圍繞) surround2. (兩手合圍) span with the hand
- 軛 : 名詞(牲口拉東西時架在脖子上的器具) yoke
- 級 : Ⅰ名詞1 (等級) level; rank; grade 2 (年級) any of the yearly divisions of a school course; gra...
- 數 : 數副詞(屢次) frequently; repeatedly
- 級數 : [數學] progression; series; number of stages; number of steps; stage number級數變換 transformatio...
-
A full mathematical model of optimal flow pattern design withengineering constraints was put forward, based on modern optimal control theory. an optimal flow pattern design was presented for optimizing meridional channel of axial flow turbine. according to integral optimization of turbine stages, a full physical model and mathematical expression were put forward for proposition of optimal flow pattern, including all performance parameters in turbine stages. this problem was further recast into a typical form control to maximize specific performance index such as work or efficiency of stage with given initial state, fixed terminal condition and constraints for part of state terminal variables. the program was also worked out according penalty function method and conjugate gradient method. the optimal distribution of c1ur1 ( r1 ) was obtained according to constraint conditions and maximized objective function
把近代最優控制論方法引入軸流透平葉片的設計,在優化的軸流透平子午通道內,建立包括透平級內所有性能參量的最優流型命題的完整的物理模型及其數學表達式,並歸化為一個在給定初始狀態、自變量終端固定、部分狀態變量終端受有約束的條件下,使級的某一性能指標(如級的功率)達到最優的最優控制問題,應用「代價函數法」及「共軛梯度法」編制計算程序,計算得到符合給定約束條件、並使目標函數取極值的最優環量分佈,結果是令人滿意的。A new method of calculating wave function of degenerate energy level for conjugated molecules
一種獲得共軛分子簡並能級波函數的方法Second, some algorithms of elimination of the conjugate image and the zero - order image are introduced and summarized. at the end of this chapter, the experimental setup of in - line phase - shifting digital holography is described. chapter3 : digital holographic recording and numerically reconstructing process is interpreted as a coherent optical imaging system
第二章論述了同軸相移數字全息基本原理,總結和介紹了消除零級像和共軛像的幾種相移演算法,並較為詳細地介紹了同軸相移數字全息的實驗裝置。
分享友人