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And from that to the further claim that whatever we mix our labor with that is un-owned becomes our property.
再从这更进一步为以下观点,任何施加了我们劳动的无主物品,都是我们的财产。
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So if we're talking about the fourth excited state, and we talk instead about principle quantum numbers, what principle quantum number corresponds to the fourth excited state of a hydrogen atom.
如果我们说的是,第四激发态,我们用,主量子数来描述,哪个主量子数对应了,氢原子的第四激发态?
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That's not really all that important for us because what's important for us is to see at this point, either 200 or 400,what was included and what was not.
这对我们并不怎么重要,因为重要的是在那个时期,即主后两百年或四百年,书目上有哪些书。
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Hear, O Israel! Yahweh is our God, Yahweh alone. You shall love the Lord your God with all your heart and with all your soul and with all your might. Take to heart these instructions with which I charge you this day.
以色列啊!你要听:耶和华我们神是独一的主你要尽心,尽性,尽力爱耶和华你的神,我今日所吩咐你的话都要记在心上。
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One thing to notice is this part of the double helix that we'll call the backbone.
要注意的是,这两股构成双螺旋的链我们称之为主链
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We'll talk about verse and chorus when we get to the issue of form.
我们会谈到主歌和副歌,等我们遇到那种曲式的类型再说
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John Locke said private property arises because when we mix our labor with things, unowned things, we come to aquire a property right in those things.
约翰·洛克说,私有财产权之所以兴起,是因为我们将劳动付诸于无主的事物,所以取得了这些东西的产权。
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We didn't just need that n, not just the principle quantum number that we needed to discuss the energy, but we also need to talk about l and m, as we did in our clicker question up here.
我们不仅需要n,不仅要这个可以,决定能量的主量子数,还需要m和l,就像我们做这道题这样。
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So if we think about, for example, this red line here, which energy state or which principle quantum number do you think that our electron started in?
我们来看看,比如这里的这个红线,它是从主量子数,等于多少的能级发出的?
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I guess it's-- Joy to the world, the Lord has come, don't we sing it as a Christmas carol, or some can sing it as a Christmas carol?
我想是这样弹,普世欢腾,救主临降,我们不是将它做圣诞颂歌来唱的吗,或者有些人将它当做圣诞赞歌来唱
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There are some examples that can bring out the moral intuition that our labor can take something that is unowned and make it ours, though sometimes, there are disputes about this.
有些例子可以说明,在道德上,通过劳动能使无主物品成为我们的所有物,尽管有时,这一点颇具争议。
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So, there are 2 different things that we can compare when we're comparing graphs of radial probability distribution, and the first thing we can do is think about well, how does the radius change, or the most probable radius change when we're increasing n, when we're increasing the principle quantum number here?
当比较这些径向概率分布图,的时候,我们可以比较两个东西,第一个就是考虑当我们增加n,当我们增加主量子数的时候,半径怎么变,最可能半径怎么变化?
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And we can generalize to figure out, based on any principle quantum number n, how many orbitals we have of the same energy, n and what we can say is that for any shell n, there are n squared degenerate orbitals.
我们可以总结出来,在,主量子数为n的情况下,同一个能量上,有多少个轨道,我们可以说,对任何壳层,有n平方个简并轨道。
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