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We started talking about these on Wednesday, and what we're going to start with is considering specifically the wave functions for multi-electron atoms.
我们从周三开始讨论这些,而且我们将要以特别地考虑,多电子原子的波函数,为开始。
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we'll start in on discussing chemical equilibrium, does deriving where they lie phase equilibrium?
我们就要开始讨论化学平衡,推导相平衡在什么位置?
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We'll come back to them a little bit later when we start talking about the question, "Could machines be creative?"
稍后再对其继续讨论,当我们开始探讨这样一个问题,机器有创造能力吗
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You can go online and sign up there but you're still shopping so we're not starting sections tonight.
你可以上网去注册一下,不过既然目前还在选课阶段,所以今天晚上我们不开始章节的讨论
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And I'll start with the topic that we'll be covering next week on Monday This is a brain.
我以我们下周一要讨论的主题,作为开始,这是一个大脑
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We're about to start talking about the elements of the language, but to do that, we also need to separate out one last piece of distinction.
我们将会开始讨论,语言的元素,但是为了达到这个目标,我们还需要去做,最后的一个区分。
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We started with this hypothesis of octet stability and I'm talking about properties of ionic crystals.
我们从八隅律的稳定性假设开始,我们讨论到了离子晶体的性质。
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A little bit about the outline of the story, and then we're going to finally have an introduction between God and Moses, Which will I think bring us back to some of the conversations we had at the beginning of the course.
这就是故事的梗概,接着呢,我们最后介绍上帝和摩西之间的契约,我想我们又要回到原来的讨论,在我们课程刚开始进行过的。
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Alright, so maybe a little underwhelming and we saw already what this program is going to do but let's just go through this process once before we start doing more interesting things and then we'll come back and at least give you a hint of what some of these syntactic details are doing.
好吧,这个程序也许太平庸了,让人印象不够深刻,我们也知道这个程序是干嘛的,在我们开始更有意思的事情之前,让我们再来讨论一下整个过程后再回来,这些语法细节到底是在做什么呢?,先给你们一点小小的提示。
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I'm going to stop there and we'll pick up on this topic, not next week, but the week after when we start talking about cell structure.
今天就到这里,我们会继续这个话题的,不是下周,而是在我们开始,讨论细胞结构之后的那个星期
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Certain moral principles have already begun to emerge from the discussions we've had.
某些道德原则,已经随着我们讨论的展开,逐渐开始浮现出来了。
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Well we've talked about some of these already, but there are a ton of ways that inaccuracy can get introduced when you start assessing what people are eating.
我们已经讨论过一些了,但当你开始估算人们的饮食时,有很多方面,会造成误差
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I want to start my lecture today looking back to that handout I gave you -but didn't give you a discussion of--a couple of days ago, ] from that essay Good Readers and Good Writers that I quoted at the very beginning of class this term.
今天我将用几天前发给你们的,却没有进行讨论的资料,开始我们的课程,从那篇叫做“好的作家和好的读者“的文章开始,我曾在本学期课程的最开始引用过它。
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I realize that I'm out of time, and so I'll begin the next lecture by talking about a poem of Yeats called "Lapis Lazuli" written in 1935, in which he talks about the way in which people who build up things that have been destroyed are always "gay."
好像时间差不多了,那么下节课一开始,我们就来,一起讨论叶芝的一首诗,名为《青金石》写于1935年,在这首诗中,叶芝写了那些重建家园,的人们,他们一直很快乐“
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So, one we finish our discussion of how we think about multi-electron atoms, we can go right on and start talking about these other things.
一旦我们结束了,多电子原子的讨论,我们马上就可以,开始讨论这些问题。
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So we haven't gotten to molecules yet, we're just talking about single atoms or single ions, but what's nice is just talking about this very straightforward principle of atomic radius.
我们还没有开始讲分子,我们仍然只是在讨论单个原子或离子,但它的好处在于可以讨论,这个关于原子半径的非常简单直接的原理。
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It's also important, once we start talking about molecules, to have a way to represent them, and also to be able to look at a shorthand notation for a certain molecule and understand what the bond is.
还有很重要一点是,一旦我们开始讨论分子,我们需要有一种表示它们的方法,而且能够从中看出,某些分子的简化符号,并得知键的类型。
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Now, you might think, ? well, didn't we already discuss that when we started thinking about variability?
现在你可能会想,我们不是已经谈过这个了吗,就在我们开始讨论死亡可变性的时候?
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So on Friday, we'll start with talking about the wave functions for the multi-electron atoms.
在周五,我们要开始讨论,多电子原子的波函数。
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I want to flip back to text for a moment before I return to talk about a whole contradictory set of methodologies, or methodologies that pull in another direction. But first I want to get us up to the patriarchs and matriarchs where we're going to be starting off on Monday.
回到谈论一整套相互冲突,截然相反的,研究方法之前,我想跳回到经文部分,首先,我希望你们关注一下宗教创始人的部分,这点我们会在周一开始讨论。
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And we haven't talked about reactions at all yet, so you don't need to worry about the specifics of that exactly, but just that if you have this negative change in energy, you have a more stable product than you do reactant.
当然我们还没有开始讨论反应,所以你不用担心它的细节是怎么样的,你只需要知道,如果能量的变化是负值,那么你将得到一个比反应物更稳定的生成物。
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All right, so now we can move on to the start of today's notes, which is atomic radius.
好,现在我们可以开始讨论今天的讲义了,从原子半径开始。
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We'd started on Monday talking about radial probability distributions for the s orbitals.
我们从星期一开始讨论了,s轨道的径向概率分布。
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So, if we talk about dissociating h 2, we're going from the h 2 molecule, and breaking this bond right in half, so we now have two individual hydrogen atoms here.
那么,如果我们讨论的是离解氢分子,我们将从氢分子开始,使这个键断裂,一分为二,那么就得到了两个分开的氢原子。
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So, let's start our discussion of a bonding orbital.
让我们开始来讨论成键轨道。
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So, if we start instead with talking about the energy levels, we can relate these to frequency, because we already said that frequency is related to, or it's equal to the initial energy level here minus the final energy level there over Planck's constant to get us to frequency.
如果我们从讨论能级开始,我们可以联系到频率上,因为我们说过频率和能量相关,或者说等于初始能量,减去末态能量除以普朗克常数。
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We'll be talking about the Phaedo starting some time next week and we'll continue the discussion of the Phaedo for at least a bit of, maybe all of, the week after that.
我们会在下周开始讨论斐多篇,外加下下周的一部分时间,或者全部时间,继续,讨论斐多篇
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The physical basis for everything that we normally hold dear, like free will, consciousness, morality and emotions, and that's what we'll begin the course with, talking about how a physical thing can give rise to mental life.
我们所拥有的一切的生理基础,如自由意志,意识,道德和情绪,我们的课程将会以此作为开始,讨论生理的东西如何能产生心理活动
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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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