本文率先将A . B .卡拉乌舍夫扩散模型应用到狭长的河道型水库,而且解的形式简单,便于计算。
As a spearhead, A. B. Kapayms diffuse model is applied in narrow channel reservoir, and the form of solution is so simple that it can be calculated easily.
我将它称为内容管理例解,这是因为用户实际上创建了如何组织网站的示例,而且XM不需要更多配置就可以将它变成真正的网站。
I call this content management by example because the user really creates an example of how the Web site will be organized, and XM needs no more configuration to turn it into the real Web site.
将应用程序的代码和技术解耦很不错,而且是我们应该尽力做到的。
Decoupling application code from technology is good and certainly something we should all strive for.
So, we just want to appreciate that what we'll be using in this class is, in fact, the solutions to the Schrodinger equation, and just so you can be fully thankful for not having to necessarily solve these as we jump into the solutions and just knowing that they're out there and you'll get to solve it at some point, hopefully, in your careers.
所以,我们仅仅想要鉴别,将会在这门课中用到的,事实上就是薛定谔方程的解,而且你们可以非常欣慰,因为你们没有必要去,解这些方程而是直接用它们的解,并且知道这些解出自那里,希望你们在学习生涯中。
We don't always want to go and solve the Schrodinger equation, and in fact, once we start talking about molecules, I can imagine none of you, as much as you love math or physics, want to be trying to solve this Schrodinger equation in that case either. So, what Lewis structures allow us to do is over 90% of the time be correct in terms of figuring out what the electron configuration is.
我们并不想每次都去解薛定谔方程,而且实际上,一旦我们开始讨论分子,我可以想象,你们中没有一个人,不管你有多么热爱数学或物理,会想去解这种情况下的薛定谔方程,总之,路易斯结构能让我们,有超过,90%,的概率判断出正确的,电子排布。
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