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If you think about it, every single person in this world has some connection to money, they all hate it.
不妨想一想,世界上的每个个人都和钱,有关系,他们都讨厌它。
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So, let's go ahead and think about drawing what that would look like in terms of the radial probability distribution.
让我们来想一想如果把它的,径向概率分布画出来是怎么样的。
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As you build these kinds of simulations, or anything like this, you need to think through whether things should be multiplicative or additive.
正如你建立各种仿真程序,或者类似的仿真程序时,你应该去想一想,他们应该是用加法还是用乘法。
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The wilderness allows us the opportunity to experience the challenges that come with unpredictable weather, and saying "How do I deal with it?"
荒野给了我们机会,来感受这些挑战,比如难以预测的天气,让我们自己想一想“该怎么做?“
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It's very helpful for me, as I address you, to think about what you're seeing in the text, and that helps me to think about what I want to say to you.
这对我很有用,正如我和你们说的,想一想你们在文章里看到了什么,那会帮助我思考要和你们说什么。
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Think of the delicate, really beautiful sensuality here in Sabrina's speech. I don't think we were expecting this.
想一想Sabrina演说中柔美的淫欲,我想这不是我们所期望的。
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A sign, in other words, is made up of two sides in, as it were, a thought moment: a relationship between that which is signified and that which signifiesit.
所以,一个符号是由两面组成的,想一想,能指和所指,的关系。
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Think for a minute about what happens if you get infected with a virus.
想一想,如果你被病毒感染了会怎么样
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Think about what it's like to see red, the sensation of seeing red.
想一想,看见红色有什么感觉,对红色的知觉是什么样的
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You should think about why that is true.
你应该想一想为什么那是正确的
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All right. So let's think about how to draw the oh, actually, let me let you tell me how we should start this Lewis structure.
好,那么我们来想一想应该怎么画,噢,实际上,我想让大家来告诉我,我们应该怎么开始画这个路易斯结构。
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- And we can think about why -- essentially we have fluorine and now we're adding another electron. So you can picture that fluorine is going to get larger in this case And that would be true for all of the negatively charged ions.
我们可以想一想这是为什么-,本质上来讲我们现在给氟原子加上了,另外一个电子,因此大家可以想象在这种情况下氟将变大,而且这对于其它负离子也是成立的。
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And all ion channels are selective for a single type of ion, and we can think about how that selectivity takes place, and that's where this idea of atomic radius is going to become very important.
所有的离子通道都是仅对某一种离子具有选择性的,而我们可以来想一想这种选择性是如何发生的,这也就是原子半径这个概念将会变得,非常重要的地方。
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Similarly, we find it in table salt, we're taking it in all the time, the same with potassium, think of bananas, were always eating potassium.
同样地,我们发现食盐中含有钠,而我们一直在吃盐,钾也一样,想一想香蕉吧,吃香蕉也就是在吃钾。
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- The answer to that is definitely no -- if they had the same electron configuration, they would, in fact be neon. But we can think about different ions that have this electron configuration.
答案是绝对没有-,如果它们具有相同的电子排布,那么它们,实际上,将都是氖,但是我们可以想一想,有没有其它离子具有这种电子排布呢?
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So we can go ahead and think about, well, are there any other atoms that are going to have the same electron configuration?
那么我们可以开始想一想,好,有没有其它原子,具有相同的电子排布?
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So, let's think of all of the combinations that we could have in terms of this molecule.
那么,让我们想一想这个分子,所有可能的组合方式。
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So I put the electron configurations and actually drew it on an energy diagram here, so we can actually think about why this might be happening.
所以我写出了它们的电子排布,并画成了能级图的形式,这样我们就可以好好想一想,这个问题发生的原因。
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To answer this question you just really want to think about what does electron affinity means.
要想答对这个问题,你只需要好好想一想,电子亲和能的真正意义。
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So, this is first ionization energy, let's think about second ionization energy.
那么,这就是第一电离能,下面让我们来想一想第二电离能。
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So, we can think about the different kinds of interactions that are taking place.
我们可以来想一想,其中可能发生的各种相互作用。
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So, let's consider specifically where these glitches are taking place.
那么让我们来具体地想一想,这些小偏差发生在哪里。
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you know what, actually, let's think about this for a second.
你知道吗,实际上,让我们花一点时间来想一想这个。
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This was eventually taken out, and actually just for your interest, there was no overlap between the time when cocaine was in Coca Cola and lithium was in 7-Up, so there was a few years difference between those two times, but it's amazing to think about what does go into processed foods.
锂最终被去掉了,如果你感兴趣的话,可口可乐中含有可卡因,与七喜中含锂的时代,并没有交集,它们之间还差了几年,但是想一想加工食品里,会加入什么东西还是很令人吃惊的。
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Think about it. What's worth having?
不妨想一想,什么是值得拥有的?
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So let's think about what that means.
让我们来想一想这到底意味着什么
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So let's go a little science fictiony and think about some of the robots that have been shown in science fiction movies, some of the computer programs that have been shown in science fiction movies, science fiction novels, or what have you.
我们来谈一点科幻作品,想一想,在科幻电影中,出现过的一些机器人,在科幻电影,以及科幻小说等其他科幻作品中,出现过的一些计算机程序
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If we had been thinking -- and some of us may well have been thinking and we were right to think provisionally -that Satan was a character that we could actually identify with, if we had been thinking that Satan was in any way a perfect character with some sort of justifiable claim -these thoughts are now being corrected by the means, by the mechanism, of the simile.
如果我们在思考--有些人已经在考虑这些问题,我们的确应该暂时想一想,-撒旦是一个的确可以,如果我们想过撒旦是,一个应当被公正对待的完美的角色的话,-这些想法目前已经得到了,这个机制和比喻的纠正。
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So we can think about what is our most loosely-bound electron, what's that highest energy orbital, and it's going to be the 2 p orbital, that's going to be what's highest in energy.
我们来想一想,它“束缚得最松“的电子是哪一个,能量最高的轨道是哪一个?,它就是,2,p,轨道,是能量最高的轨道。
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So let's think about the energy required now to remove a 2 s electron, let's say we're removing it from boron plus 1 versus neutral boron.
那么让我们来想一想,拿走一个,2,s,电子所消耗的能量,假设一个是从正一价硼离子中拿走1,另一个是从中性硼原子中拿走。
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