“微分方程”是个多义词,它可以指微分方程(数学分支), 微分方程(宋迎清等编著数学教材)。
微分方程(Differential Equation)是描述自动 控制系统动态特性的最基本的方法。 一、控制系统微分方程的建立 对系统中每个或某些具体的元器件或环节按照其运动规 ...
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好比将某些办法运用到延迟积分微分方程(DIDEs)中,来研讨其收敛性及稳固性等。而波形松懈法(WR)是二十世纪八十年月被提出的一种静态迭代办法,因为WR办法能将庞杂体系停止解耦...
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常微分方程 ODE ; differential equation ; Diffrerntial Equations
偏微分方程 [数] partial differential equation ; PDE
随机微分方程 [数] stochastic differential equation ; BDSDE ; [数] random differential equation ; Introduction to stochastic differential equations
全微分方程 exact differential equation ; [数] total differential equation
时滞微分方程 ADDE ; Retarded differential equation
积分微分方程 [数] integro-differential equation ; Differential equation
伯努利微分方程 [数] Bernoulli differential equation
椭圆型偏微分方程 [数] elliptic partial differential equation ; partial differential equation of elliptic type
线性代数微分方程 Linear Algebra & Differential Equation ; Differential Equation ; LinearAlgebra& differential equation
Differential equations have wide applications in many fields.
微分方程在实际中有着广泛的应用。
参考来源 - 计算机代数系统在微分方程研究中的应用The use of Partial Differential Equations in image processing is a new research topic.
偏微分方程在图像处理中的应用是一个比较新的课题。
参考来源 - 偏微分方程在图像处理中的几种应用The integral equation method has many advantages when using in resolving the 3D D. C field modeling problems, it can avoid the cumulative error in the transmission the field, which is gained in the differential eguation methods.
积分方程方法是一种在解决三维电场数值模拟时有很多优点的方法,它可以避免微分方程方法中场值传递过程中的误差积累问题。
参考来源 - 直流电场拟解析近似理论实现技术研究·2,447,543篇论文数据,部分数据来源于NoteExpress
这个微分方程的,解法是什么呢?
你们有些人也许已经,解出了微分方程。
我们不再讨论微分方程序。
So, all you will have the opportunity to solve differential equations in your math courses here. We won't do it in this chemistry course. In later chemistry courses, you'll also get to solve differential equations.
你们在数学课中有机会,遇到解微分方程,我们在这化学课里就不解了,在今后的化学课程里,你们也会遇到解微分方程的时候。
This is going to be probably a homework at some point to do this. For now, let's take it for granted. Let's take it for granted that we know how to calculate this derivative from an equation of state like this.
这可能是将来的一个课后作业,现在,请把这当成理所当然的,理所当然地认为我们,知道怎样从一个状态,方程计算这样的微分式。
So here I've written for the hydrogen atom that deceptively simple form of the Schrodinger equation, where we don't actually write out the Hamiltonian operator, but you remember that's a series of second derivatives, so we have a differential equation that were actually dealing with.
这里我写出了,氢原子薛定谔方程的,最简单形式,这里我们实际上,没有写出哈密顿算符,但是请记住那你有,一系列的二次导数,所有我们实际上会处理一个微分方程。
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