1) the divided differential calculus way
分微分法
2) differential integral algorithm
微分-积分法
1.
In this paper,we use differential integral algorithm for optimal design of the binary optics beam splitter.
提出将微分-积分法用于二元光学分束器的设计,以改善其输出对输入变化的敏感性。
3) Differentiating-integrating Method
微分积分法
1.
In this paper,a general method——Differentiating-integrating Method to solve differential equations is used,and accurate images on general solution of Riccati s equations were plotted.
本文利用求解微分方程的通用方法——微分积分法准确地绘制了黎卡提(Riccati)方程的通解的图象,并初步地探讨了该方程的通解的一些几何性质。
4) Differential Method
微分法
1.
Application of Differential Method in Calculating the Positioning Error;
微分法在定位误差计算中的应用
2.
Differential method for calculating the pharmacokinetic parameters of two-compartmental drugs based on the plasma level of the drug after the intravenous bolus injection;
微分法计算二室模型药物静脉推注的药物动力学参数
3.
Furthermore,optimum design on semi-coning of conical die is done with golden section and differential method,and the α_(opt)-μ relation between αopt.
利用最新推导出的考虑缩口变形中弯曲作用,选用幂函数硬化规律的应力应变关系的锥形模缩口力计算公式,结合常用的Q235钢管和T2铜管缩口实验数据,对影响缩口力的因素K、n、t、mN、μ及α,作了单因素影响的更直观分析,进而,分别用黄金分割法和微分法两种不同的方法对锥形凹模半锥角进行了优化设计,获得了使缩口力最小时的αopt-μ的关系式与关系曲线。
5) differentiation
[英][,difə,renʃi'eiʃən] [美][,dɪfə,rɛnʃi'eʃən]
微分法
1.
A New Phase Measuring Profilometry Based on Differentiation;
基于微分法的新相位测量轮廓术
2.
In this paper,the author put forwards the plane dimensional chain and differentiation to solve this problem.
用平面尺寸链微分法求解可提高运算精度并简化计算程序,还有数学美的蕴涵。
3.
According to some usual inequality,a group of interesting inequality is obtained by adopting differentiation and elementary method.
由一些常见不等式出发,采用微分法及初等方法得到了一组有趣的不等式。
6) calculus
[英]['kælkjələs] [美]['kælkjələs]
微积分法
1.
This paper expounds some problems about equation and inequality by applying the functions calculus,and further reveals that functions calculus plays on important role in the solutions of equation and inequality as a basic tool of mathematics.
应用函数的微积分方法讨论了方程与不等式的有关问题 ,进一步揭示了微积分法作为基本数学工具在求解方程和不等式中的重要作
补充资料:比色分析法(见紫外—可见分光光度法)
比色分析法(见紫外—可见分光光度法)
比色分析法见萦外一可见分光光度法。
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