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PDE课件1 - 偏微分方程 李亚纯 2010-2011第二学期 理科班 第一章 绪 偏微分方程( Differential Equations) 偏微分方程(Partial论 ) 指在物理..
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Multivariable Calculus (多变量微积分)【字幕】 Differential Equations (微分方程)【字幕】 Random Structures and Algorithms 2011 (随机结构及算法,2011年会) ..
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... glandular » (形) 腺的; 腺状的 Differential Equations » 微分方程; 微分 My grandma is doing some washing » 我奶奶正在洗衣服 ...
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simultaneous differential equations 联立微分方程 ; 微分方程组 ; 微分联立方程
partial differential equations 偏微分方程 ; 偏微分方程式 ; 数理方程 ; 影印版
Ordinary Differential Equations 常微分方程 ; 常微分方程式 ; 微分方程
Numerical Methods for Differential Equations 微分方程数值解 ; 课程名称
Partial Differential Equations in Engineering 偏微分方程工程应用
theory of differential equations [数] 微分方程论
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微分方程 - 引用次数:1218
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 -
微分方程 - 引用次数:262
The first one is a pair of interacting stochastic partial differential equations (abbr. SPDEs).
第一个模型是一个有交互作用的随机偏微分方程。
参考来源 - 几类随机模型及其在金融中的应用
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双语例句原声例句权威例句
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Couple of differential equations.
几个微分方程。
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And let's not even talk about differential equations.
我们不再讨论微分方程序。
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Some of you may already have solved differential equations.
你们有些人也许已经,解出了微分方程。
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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。
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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。
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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。
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