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OK, now what I want to do is just describe a little bit of how do you measure all this stuff, right?
好,现在我要做的就是,介绍一下怎样来测量这些东西?
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OK, now what we'd like to do is be able to calculate any of these quantities in terms of temperature, pressure, volume properties.
现在我们想要做的是能够利用,温度,压强和体积的性质,计算上面的物理量。
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OK. Now. This is just sort of bringing us back up to speed and adding a few more details in.
好,现在,我们刚刚回头,过去看了一些,细节问题。
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OK, so now the question is, how do we know the first place that this is a suitable reductant?
好的,现在的问题是,我们如何能知道第一步中,镁是一个合适的还原剂?
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Wow, OK, maybe not so wow, but this is now constant. This is constant time access. So I can do searching in constant time which is great.
喔,当然,可能没那么,但是现在是常数级了,这是常数时间的访问。
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He has it exactly right. OK? Is this smaller than that? No. Now that's a slight lie.
不,这是一个小谎言,抱歉,是一个小错误,如果我要这么说。
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Now, one of things I left hanging is, I said, OK, you build it out of primitives.
现在,我落下的一件事情是,我说过了,好的,你在原始数字之外建造它。
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OK, now this is a point we want to be careful.
这里我们要小心一点。
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OK, now one last thing that he did is that he said, OK, what's going on here?
现在他做的最后一件事就是他说,这儿怎么了?
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OK. So this is, in fact, log. Now, having said that I actually snuck something by you.
就是对数次,我已经教给你们一些。
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So this is still adiabatic. It's insulated, but now it's constant volume, OK.
这仍然是绝热的,是隔热的,但现在它的体积是恒定的。
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OK, now, this is a more formal look at that structure.
对,这是一个更规范的结构。
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Right now, this is just a text file. OK.
好,这就是一个文本文件,好。
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w we have the environment doing work on the system OK, now we've assumed that epsilon prime is greater than epsilon.
大于零,that,is,in,this,one,在这里环境对系统做功,好,现在我们假设,ε’比ε大。
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OK, now, where is my other one?
现在我的另一个呢?
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It could be the pair of none, none, it could be the pair of, you know, whatever the answer was that we put up there. That value comes back out and is now available inside the scope of Barnyard. OK. And Barnyard then uses that. Question?
也可以是,你知道,任何我们在这里得到的答案,这个返回的值在Barnyard范围内,就可以使用了,然后Barnyard就使用了这个值,有什么问题吗?
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