微分方程英语怎么说
本文为您带来微分方程的英文翻译,包括微分方程用英语怎么说,微分方程用英语怎么说,微分方程的英语造句,
本文为您带来微分方程的英文翻译,包括微分方程用英语怎么说,微分方程用英语怎么说,微分方程的英语造句,微分方程的英文原声例句,微分方程的相关英语短语等内容。
微分方程的英文翻译,微分方程的英语怎么说?
differential equation
微分方程的英语网络释义
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 ...
微分方程(SDDEs)是对事物变化规律的更真实描述。目前SDEs、SDDEs广泛应用于多个领域的应用研究中,诸.
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...
的对称性的随机常的微分方程(SODES)的分析。这个工作主要集中在后的韦纳过程中保持性能的应用程序的无限小变换。
微分方程的汉英大词典
微分方程
- (式) {数} differential equation
微分方程的英语短语
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
微分方程的英文例句
这个微分方程的,解法是什么呢?
What would a solution be to this differential equation?
我们已经写出了一个微分方程。
We've we've written a differential equation here.
你们有些人也许已经,解出了微分方程。
Some of you may already have solved differential equations.
我们不再讨论微分方程序。
And let's not even talk about differential equations.
这是一个,由电场e确定的偏微分方程。
It is a partial differential equation satisfied by the electric field e.
因此可以马上写下,这个微分方程的,解法。
So you can write down immediately the solution to this differential equation.
对微分方程更近代的研究是关于定性理论。
The more recent research on differential equations is concerned with the qualitative theory .
这是一个非常,简单的微分方程,两边积分。
Namely, this is still a pretty straightforward differential equation. So let's just integrate both sides.
例如,这个解决方案的微分方程是一个功能。
For example, the solution of a differential equation is a function.
得到一个微分方程。
So we have a differential equation.
偏微分方程在科学和工程上有着广泛的应用。
Partial differential equation is widely used in problems of science and engineering.
所以你要做的第一件事是你写下,你的微分方程。
So the first thing you do is your write down your differential equations.
这是个微分方程。
It's a differential equation.
这是整个机理的完整的微分方程,不是它的一部分。
This is the full differential equation for the full mechanism. Not just one part of it.
几个微分方程。
Couple of differential equations.
要完全了解本课程,应必备微积分和微分方程的知识。
Calculus and Differential Equations are highly recommended for full understanding of the course.
这将是对偏微分方程数值分析方法的新的重要尝试。
This is a important attempt for the numerical analysis methods of PDEs.
它满足微分方程,自由边界的条件以及自由角点条件。
It satisfies the differential equation, the boundary conditions of the edges and the free corner conditions.
最后,给出了上述问题在偏微分方程方面的一个应用。
At last, an application of this problem in partial differential equation is also discussed.
好的我们可以看这儿,看这个微分方程,这里没有做近似。
Well we can go look up here, looking at the differential, there are no approximations here.
我们要解决,两个成对的微分方程,这是无法解决的任务。
And so now we have to solve two coupled differential equations, which is a hopeless task.
总的来讲,所有你想解决的问题,都可以用偏微分方程来做。
Basically, to every problem you might want to consider there is a partial differential equation to solve.
在论文的最后,给出了倒向随机微分方程在金融中的几个应用。
At the end of the paper, we give the application of BSDE in finance.
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.
行程化学计量给你一个关系,你可以用来,代入进你的微分方程。
This is what you started with, a, a So stroke stoichiometry give you a relationship, which you can use to plug into your differential equation here.
因此,研究倒向随机微分方程具有重要的理论意义和应用价值。
Therefore, the research on backward stochastic differential equation is of considerable theoretical significance and practical value.
再说明一下,这是关于这两个向量场,多少有点奇怪的偏微分方程。
And just to tell you again that is a strange partial differential equation relating these two vector fields.
常微分方程边值问题是常微分方程理论研究中最为重要的课题之一。
The ordinary differential equation singular boundary value problem is one of the most important branches of ordinary differential equations.
应用基于状态空间法的闭式算法对机构弹性动力学微分方程进行求解。
The State-Space method is applied to compute the differential equation of the elastodynamics of mechanism.
应用基于状态空间法的闭式算法对机构弹性动力学微分方程进行求解。
The State-Space method is applied to compute the differential equation of the elastodynamics of mechanism.
微分方程的原声例句
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。
Not only did he formulate laws of gravitation, he also invented calculus and he also learned how to solve the differential equation for calculus.
他不仅找出了引力定律的公式,还发明了微积分,同时也得出了微分方程的解法
Well we can go look up here, looking at the differential, there are no approximations here.
好的我们可以看这儿,看这个微分方程,这里没有做近似。
You won't have to solve it in this class, you can wait till you get to 18.03 to start solving these types of differential equations, and hopefully, you'll all want the pleasure of actually solving the Schrodinger equation at some point. So, just keep taking chemistry, 18 03 you'll already have had 18.03 by that point and you'll have the opportunity to do that.
你们不用在课堂上就解它,你们可以等到得到18,03之后,再开始解这些类型的微分方程,希望你们都想得到,实际解薛定谔方程的乐趣,所以,保持来上化学课,你们在那个点将会得到,你们有机会做到的。
So, let's say we start off at the distance being ten angstroms. We can plug that into this differential equation that we'll have and solve it and what we find out is that r actually goes to zero at a time that's equal to 10 to the negative 10 seconds.
也就大约是这么多,所以我们取初始值10埃,我们把它代入到,这个微分方程解它,可以发现,r在10的,负10次方秒内就衰减到零了。
But instead in this chemistry course, I will just tell you the solutions to differential equations. And what we can do is we can start with some initial value of r, and here I write r being ten angstroms. That's a good approximation when we're talking about atoms because that's about the size of and atom.
但在这个课里,我会直接,告诉你们微分方程的解,我们可以给距离r一个初始值,我这里把r取10埃,当我们讨论原子时,这是一个很好的近似,因为原子的尺寸。
微分方程的网络释义
微分方程 “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)。
以上关于微分方程的英语翻译来自英汉大词典,希望对您学习微分方程的英语有帮助。