用来解微分方程的一种模拟计算机。
求解动态电路一般是列微分方程,解微分方程。
The typical way to analyze dynamic circuit is writing differential equation, then obtaining the solution.
离散型最小二乘法是解微分方程的加权残值法的一种。
The discrete least square method is one of methods of weighted residual (MWR) for Solving differential equations.
有的级数(如傅立叶级数)用来解微分方程序特别有用。
Such series (e. g., the Fourier series) are particularly useful in solving differential equations.
当你试图接住一个飞行中的球时,是否会通过解微分方程来确定自己的位置?
Do you position yourself to catch a ball by solving differential equations in your head, on the fly?
这类方程组常在主要与用离散数值方法解微分方程有关的实际应用中提出来。
This kind of systems frequently arises in practical applications mainly related to solving differential equations by discrete numerical methods.
利用分段点处电流、电压应用解微分方程算法即可较精确地计算出线路阻抗。
The differential equation algorithm can accurately calculate the impedance from the splitting point to the fault point.
本文主要对积分变换在解微分方程及计算某些实积分方面的应用做了一点浅显的讨论。
In this paper, we mainly discuss the application of integral transformation in solving differential equations and calculating some real integral.
在分析电动机传统的反时限过负荷保护的基础上,提出一种基于解微分方程的过负荷保护新方案。
After analyzing the conventional time-inverse overload protection of the motor, the paper presents a new thermal overload protection scheme basing on the solution of a differential equation.
在研究传统解微分方程距离保护采用固定窗长的基础上,提出了一种基于噪声水平控制的变窗长算法。
This paper presents a novel algorithm for solving differential equation of distance protection which adopts an adaptive window length based on noise level control.
本文针对高压输电线距离保护及故障测距中常用的解微分方程算法,提出了一种零序电流相位修正的方法。
The paper proposes a method which corrects the Angle of zero-sequence current in the algorithm of differential equation used for distance protection and fault location of HV transmission lines.
本文对解微分方程法得到的几个特解进行了较为详细的讨论,从而给出了更接近实际情况的泵阀运动今式,提出了一些新看法。
Some special solutions derived from differential equations are discussed in greater detail and thereafter formulas approaching the actual movements of pump valves are given in this paper.
因此,目前所有的解,均限于差分法及能量法所得的近似解。本文企图直接解微分方程,并满足包括自由角点的边界条件去求解。
As a consequence, the solutions now we have are all limited to such approximate ones as obtained by finite difference method, variational method and the method of finite elements.
在方程课上,我听了一系列未公开的演讲,强调的是微分方程的解的存在证明及其唯一性。
For the equations course, I was given a set of unpublished lectures that emphasized existence proofs and uniqueness of solutions to differential equations.
现在,如果你计算时间,会很接近终端速度,这并不简单,因为你们要解一个,令人厌恶的微分方程。
Now, if you want to calculate the time that it takes to get close to terminal speed, that is not an easy task, because you are going to end up with a nasty differential equation.
这个例子展示了lsode的用法,这是一个常见的微分方程解算器。
This example demonstrates the use of lsode, an ordinary differential equation solver.
区域分解算法是在并行机上求解偏微分方程数值解的一种方法。
The domain decomposition is a numerically approximating solution to partial differential equations on parallel computers.
类似的方法还可以用在其它类型的偏微分方程数值解中。
Similar method may be applied in other types of partial differential equations.
利用不动点理论,给出了一类半线性微分方程有界的调和伪概周期解存在的充分条件。
Using fixed point theorems, in this paper we give sufficient conditions of the existence of bounded mild pseudo almost periodic solution for some semilinear differential equations.
给出了带有双侧共振的非线性微分方程周期解存在性的一个新的结果。
A new result about existence of periodic solutions of nonlinear differential equations with double resonance will be given.
研究抽象空间微分方程周期解的存在性一直是比较困难的问题。
It is a difficult problem studying the existence of periodic solutions of differential equation in abstract Spaces.
目的研究一阶具有分段常数变量的脉冲微分方程的解的性质。
Objective to investigate characters of the solution to first order impulsive differential equations with piecewise constant arguments.
给出了一类具有滞量的微分方程解的部分表达式。
This paper states the expressions of solution of some differential equations with delay.
给出了一类具有滞量的微分方程解的部分表达式。
This paper states the expressions of solution of some differential equations with delay.
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