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I'm binding a z to be some value, and then I'm going to run this.
我把z绑定到一个值上,然后运行下代码。
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So, now you have a single molecule, very large molecule, with not just two binding sites but with ten binding sites.
所以如果你体内有一个细胞,一个体积很大的细胞,细胞表面不只有两个抗原结合位点,而有十个抗原结合位点
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We're going to be looking at the solutions to the Schrodinger equation for a hydrogen atom, and specifically we'll be looking at the binding energy of the electron to the nucleus.
我们将研究下氢原子薛定谔方程的解,特别是电子和核子的结合能,我们将研究这部分。
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x It says, take the name x and create a binding for that name to the value of the sub-expression and in fact to do this, to stress a point, let's do that.
它的意思是,创建了一个名字,然后创建了对于这个名字,和子表达式的值的绑定,实际上这么做,我们是为了,要强调一个点,让我们来说说这个点。
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Comes to mind, what happened, even foot-binding, that was something very common practice, basically erased within a generation.
突然想到了缠足这件事,这曾经是很常见的事情,而随着时代的变迁,它也已经淡出历史了。
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And that makes sense, too, because the positive three pulling on minus one has a tighter binding energy than positive one pulling on minus one.
而这也是有意义的,因为+3和-1的相互吸引,产生了比+1和-1的吸引,更强的能量。
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There is generally a concluding invocation of witnesses, usually the gods are invoked as witnesses to a binding oath, some kind of covenantal oath that brings the treaty into effect, and it's witnessed by gods.
一般也包括一段援引见证人的文字,一般是上帝见证一个有约束力的誓言的诞生,这个誓言可以使条约生效,上帝是见证人。
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So, for example, in a hydrogen atom, if you take the binding energy, the negative of that is going to be how much energy you have to put in to ionize the hydrogen atom.
例如在氢原子里面,如果你取一个结合能,它的负数就是。
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There's a region up here called the antigen binding region and those-- and there's two copies of that region and it's responsible for antigen binding.
在图片上部有个区域,被称作抗原结合区,而这些,而这里有两个抗原结合区,主要负责与抗原结合
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And, subsequently, we looked at photoelectron spectroscopy which is a technique that allows us to determine binding energies, ionization energies being just one example.
随后,我们看了光电子谱,这是一种只用一个样品,能够测量结合能,离子化能的技术。
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So if we can figure out the binding energy, we can also figure out how much energy we have to put into our atom in order to a eject or ionize an electron.
所以如果我们可以计算出结合能,我们也可以计算出,我们需要注入多少能量到原子中,去逐出或电离一个电子。
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There's a diverse range of responses that might occur, but that response is initiated by this simple chemical process of a ligand binding to a receptor.
细胞对外界信号可能会发生不同的反应,但这些反应都源自,配体和受体结合这个简单的化学过程
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We looked at the wave functions, we know the other part of solving the Schrodinger equation is to solve for the binding energy of electrons to the nucleus, so let's take a look at those.
我们看过波函数,我们知道解,薛定谔方程的其他部分,就是解对于原子核的电子结合能,所以我们来看一看。
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So I said that this technique was used to experimentally determine what the different binding energies or the different ionization energies are for the different states in a multielectron atom.
我说过,这项技术被用来,在实验上确定多电子原子的,各个不同态相应的束缚能,或者电离能。
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And it should make sense where we got this from, because we know that the binding energy, if we're talking about a hydrogen atom, what is the binding energy equal to?
很容易理解,我们怎么得到这个的,因为我们知道,结合能,如果,对氢原子来说,结合能等于什么?
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And when I create a binding, x I'm taking a variable name, in this case x, stored somewhere in a table, and I'm creating a link or a pointer from that name to that value.
当我创建一个绑定的时候,我有一个变量的名字,在这个例子中是,存在一个表中的某处,然后创建一个连接,或者指针从这个名字指向目标值。
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