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OK, what I would like you to see is I've been printing out, as I went along, actually let's back up slightly and look at the code. There's merge sort.
好的,我想让你们看就是我运行过后,打印出来的结果,我们再回头看一下这段代码,这就是归并排序,输入一个列表。
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OK, if you look at that then, let's look at what happened when we ran this.
好的,如果再看一下那个,让我们看一下当我们执行这里时会发生什么。
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Let's talk about pop music for a second: jazz, rock, hip-hop, blues, that kind of thing.
我们再看一下流行音乐:,爵士,摇滚,嘻哈,蓝调,类似这些音乐
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Look again at the sentence that I just read, the last lines: Soon had his crew Op'nd into the Hill a spacious wound And dig'd out ribs of Gold."
再看一下我刚刚读过的句子,在最后几行:,不久,他带去的人马,凿开了那座山,画出一条很大的伤口,挖出黄金的肋条“
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We want to do that in the simplest context, then we can make the example more and more complicated, but the phenomenon will be the same.
我们想举一个最简单的情景,随后我们可以再看一下更复杂的情况,但是万变不离其宗
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Again, this is a highly simplified version of the lifecycle of a virus.
再看一下,这是一个高度简化版的,病毒生命周期示意图
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putting all those things together, if you looked at this question again we'd get 100% on it, 0 9 that our only option here is 0. 9, and that it's not the negative, it's the positive version, because we're talking about how much energy we have to put into the system in order to eject an electron.
把这些放在一起,你们再看一下题目,大家100%都能选对,我们唯一的选择就是这个,它不是负数,它是正的,因为我们说的,是要,把电子激发出来,需要提供的能量。
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And then we're going to look at that Nash Equilibrium and you're going to think, how does that compare to what I saw in the Cournot case we solved.
最后再看一下那些纳什均衡,你们要去思考,那跟我们学过的,古诺模型比较有什么异同
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I have yet to show you the solution to a wave function for the hydrogen atom, so let me do that here, and then we'll build back up to probability densities, and it turns out that if we're talking about any wave function, we can actually break it up into two components, which are called the radial wave function and angular wave function.
我还没有给你们看过,氢原子波函数的解,让我现在给你们看一下,然后再来说,概率密度,实际上,对于任何一个波函数来说,我们可以把它,分解为两部分,分别叫做径向波函数,和角向波函数。
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