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So, this raises kind of an interesting question in terms of what the difference is between these two cases, and we're talking about numbers of energy.
那么,到这里就出现了一个很有意思的问题,那就是下面这两种情况的区别在哪里?,当然我们关心的是能量的多少。
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I'll give you some of these examples right now.
下面我们就来看几个例子。
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And I'll also remind you, and we're going to see this in the next example, we talked about looking at the worst case behavior. In these cases there's no best case worst case, it's just doing one computation.
我还要提醒大家的就是,我们也会在下一个例子里发现者一点,我们谈到了要去考虑最坏的情况,在下面这些例子里,没有好情况坏情况之分,就只是一次运算。
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Now this is a good place to start, because we are very familiar with ionization energy, we've been talking about it it's that minimum energy required to remove an electron from an atom.
现在这是一个开始下面内容的好地方,因为我们已经很熟悉电离能了,我们从很久以前就一直在讨论,它是从一个原子中,拿走一个电子所需要消耗的最低能量。
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pV=RT p plus a over v bar squared times v bar minus b equals r t. All right if you take a equal to zero, these are the two parameters, a and b. If you take those two equal to zero you have p v is equal to r t.
我们就回到,也就是理想气体,状态方程,下面我们来看看,这个方程。
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I'm going to present you one of the most dramatic examples we've seen of differences in brain activations in these areas, and how these differences can be remedy.
下面我就来给大家展示一下,我们所见过的最令人吃惊的,有关这两处区域活动不同的例子,同时也会介绍如何治疗这些不同。
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So we're going to hear a solo by Louis Armstrong now and let's count along once the phrase begins. I'll get you started and then you count the measures. Here we go.
下面我们听一段路易斯·阿姆斯特的独奏,同时音乐起奏时,我们就开始数,我会提示你们开始,然后你们开始数小节,准备好
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So that were clear from the outset: where we are coming from,where I am coming from, and also so that we can build the foundation of the course.
下面这些问题非常明确:,我们从哪里来,我从哪里来,了解这些后我们就能建立本课程的基础。
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So what we're going to do is we're going to figure out Player 1's best response quantity to each possible choice of Player 2, and then we're going to flip it around and figure out Player 2's best response quantity to each possible choice of Player 1, and then we're going to see where those coincide, where they cross.
下面我们就需要表示出,参与人1对于2不同产量下的最佳产量,然后反过来写出,在参与人1的不同产量下,参与人2的最佳产量,然后再来看看这两者在哪里相交
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I'll give you some examples now.
下面我们就来看几个例子。
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Well, Plato's very next argument attempts to persuade us that indeed we do have reason to believe that the soul is one of the prior-existing pieces.
柏拉图下面一个论证就试着,说服我们有理由相信,灵魂原来就是存在的
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The only thing that's different is that they're one down on the periodic table, potassium is down one row, so it's going to be a little bigger, but when we're thinking about size, it maybe does not seem that significant to talk about the size.
它们唯一的不同点,就在于其中一个在周期表的下面,钾在下一行,因此它要稍微大一些,但是当我们考虑尺寸的时候,似乎讨论尺寸的意义不大。
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I can do that because it's reversible, and I can get a functional form out.
画出路径就意味着过程是可逆的,下面我们来看这条曲线的函数形式。
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If we have a particular rhythm, and this is a rhythm, and here are the beats and the meter underneath, we would be coming along one, two-and, one, two.
如果我们有一段节奏,这里就有一段节奏,而下面标明了节拍和拍子,我们就能一二,一二
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N 2 So any chemist should be able to just look at n 2 and know that it's a triple bond, but that's not something that we've learned how did to do yet, so let's go ahead and start a new topic that's going to allow us to have some sort of sense of what the valence electron configuration, which includes whether something's a single or double or a triple bond can be figured out for any given molecule.
任何一个化学家都应该能够仅仅通过看到2,就知道它有一个三键,但是我们还没学习如何做到这点,因此下面我们就开始进入一个新的主题,它将使我们能够有一定的认识,对于价电子的排布情况,包括可以对任何一个给定分子中的键是单键双键,还是三键作出判断。
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The first one uses something called Z a compressibility factor, z.
下面我们就来看几个例子,第一种办法是引入压缩系数。
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