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And we can actually better visualize this if we plot how that energy changes as a function of internuclear distance.
而我们就能更清楚地看到这些,如果我们画出,能量随核间距的变化曲线。
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Each one of those electrodes allows us to measure, we plot voltage verses time, ? this signal coming from the tip of that electrode. Ok?
我们通过每个这样的电极都可以设计一种测量方法,我们设计电压比时间,这一信号源于电极的一端,对吧?
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But story, that's what the plot is about, and if that's what the plot is about, how can we avoid calling it content?
但是情节又都是围绕故事的,所以我们怎么能否认,故事是内容呢?
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So, we could also plot the number of electrons that are ejected as a relationship to the intensity, so that was yet another experiment they could do.
我们还可以画出出射,电子数和光强的关系,这是他们做的。
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As far as the plot goes, we know how it's going to end.
我们知道故事情节将怎样结束。
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Well once again, we can plot that point.
我们再来画一条线,我们先来描点吧
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That is, if you plot the relationships between people We can take each person in this room, find everybody you know and who knows you and draw a line, but if we were to do this you wouldn't find an even mesh of wires.
也就是说如果要划出人们之间的关系,例如这个教室里的人,把互相认识的人用线划出来,如果我们这样做,得到的结果不是一个分布均匀的网状图。
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And then show history is just going to produce a plot We've seen that a million times before.
然后我们的show,history将会产生一个图,我们之前看过这个图很多次了。
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So we can see if we look at the probability density plot, we can see there's a place where the probability density of is actually going to be zero.
就能看到,有些地方,找到一个电子的,概率密度,我们可以考虑。
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So what we should expect to see is one radial node, and that is what we see here 3s in the probability density plot.
个节点,这就是我们,在这概率密度图上所看到的,如果我们考虑。
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And when we're looking at the probability density graphs, it doesn't make a difference, it's okay, It has no meaning for our actual plot there, because we're squaring it, so it doesn't matter whether it's negative or positive, all that matters is the magnitude.
它的概率密度图的时候,两者没什么区别,这是可以的,它对我们画这个图,没有什么意义,因为我们是取平方,所以它的正负,无所谓,只和幅值有关,但当我们说到。
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Now what we do is to record the number of those action potentials in some period of time, and plot them on the graph below.
现在,我们要做的是记录,在一定时间内可能做出的动作,在图表中设计出来。
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So, if we look at the bottom here and the actual plot of the wave function, we see it starts high, very positive, 0 and it goes down 0 and it eventually hits zero, and goes through zero 0 and then becomes negative 0 and then never quite hits zero again, although it approaches zero.
我们看,这下面这是波函数,我们看到它开始很高,是正的,然后降低直到,然后它穿过,变成负的,最后接近,但没达到,在这个。
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This happens in every single episode, so much so that if any of you actually - I mean this might actually be true at Yale-- but if you any of you or the TV guys: if any of you know the guy who writes the plots for this, have him come to the class and get him see the video now and we get some better plot lines in there.
每集都有类似的剧情,如此以至于,我的意思是在耶鲁大学,如果你或者电台的人,要是你们想要写剧本,让他们来上这门课或者回家看视频,这很能启发他的灵感
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Plot, yes, we all agree that's the constructed-ness of the story.
情节是故事的构架。
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All right. In addition to the use of the relationship between plot and story, we also find Brooks using terms that are now, having read Jakobson and de Man, very familiar to us: the terms "metaphor" and "metonymy."
好的,除了运用主题和故事之间的关系,布鲁克斯还会用到很多别的词,等我们读完雅各布森和德曼的作品后会觉得很熟悉:,比如,“比喻“,和,“转喻“
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So, again we can use these probability density plots, which are just a plot of psi squared, where the density of the dots is proportional to the density, the probability density, at that point.
同样的我们可以利用这些概率密度图,这是psi的平方的图,这里面点的密度,正比于概率密度。
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So we can think of a third case where we have the 3 s orbital, and in the 3 s orbital 0 we see something similar, we start high, we go through zero, where there will now be zero probability density, as we can see in the density plot graph.
第三个例子那就是,3s轨道,在3s轨道里,我们看到类似的现象,开始非常高,然后穿过,这里,概率密度是0,就像你们在概率密度图里看到一样,然后我们到负的。
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Then we go negative and we go through zero again, which correlates to the second area of zero, that shows up also in our probability density plot, and then we're positive again 0 and approach zero as we go to infinity for r.
并且再次经过,这和,第二块等于0的区域相关联,这也在,我们的概率密度图里反映出来了,然后它又成了正的,并且当r趋于无穷时它趋于。
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It looks like we hit zero, but we actually don't remember that we never go all the way to zero, so there's these little points if we were to look really carefully at an accurate probability density plot, And then, for example, how many nodes do we have in the 3 s orbital?
但其实没有,记住,我们永远不会到零,如果我们,在概率密度图上,非常细致的看这些点的话,它永远不会到零,在3s轨道里,有多少个点呢?,2个,正确?
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