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Ritual impurity, which is generally permitted, is distinguished by the characteristics I've quickly jotted down here.
仪式上的不洁,通常是被允许的,它的特征就是我刚刚写在这里的那些。
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So it's... Probably a lot of artists and people on television will live,
所以它是……很多艺术家和电视上的人可能会住在这里,
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When I call or invoke a function, think of it as creating a local table.
当我调用一个函数时,想象一下它是在这里创建了一个局部表。
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All the energies are negative because it is a bound system. I start up here with n equals one.
所有能量级都是负数,因为它是一个束缚系统,在这里我从n等于1讲起。
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This was very big in an ad campaign at least last year, I'm not sure if it still is, with the little butterfly.
它的广告宣传做得很大,至少在去年是这样的,我不确定它现在还是不是,它这里有一个小蝴蝶。
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So a serious thing, a lot of people get put off by notation, it looks scarier than it is, there's nothing going on here except for notation at this point.
很多人面对符号往往都望而却步,看起来它比这个更可怕,而在这里,其实仅仅是符号而已
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Now, incompatibilism, I take it, is probably something like the common-sense view here.
现在,不相容主义,我这样称呼它,在这里大概是像某种从常识出发的观点
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Well, like the rest of the ancient world, Israel had a cultic system, and that cultic system featured a sanctuary: a sacred space with holy objects; sacred objects, where priests performed a variety of ritual acts.
和其他古代世界一样,以色列有一个宗教系统,圣所是这个系统的一个特色:,它是一个布满了神圣物体的地方,祭司会在这里举行一系列的仪式。
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It's a, who lived here a long time ago, cave man and Indians.
它是,很久以前住在这里的穴居人和印第安人。
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I have no idea where that is other than to know that it's up so let's just go ahead and assume that everything over here is the heap so what has just happened?
我不知道它在哪里,只知道它在上面,我们假设这里所有的东西是堆,那么会发生什么呢?
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That's one of its meanings and I think it's the meaning that's relevant here.
这是它的一种释义,我认为这个释义在这里是恰当的
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RT So it's delta u plus RT, we can say T1 is the n temperature we've used here, delta n of the gas.
所以它应该是ΔU加,我们可以在这里用T1,气体的Δ
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The exception is right there. It's an index error, that is it's trying to do something going beyond the range of what this thing could deal with.
但他事实上抛出一个异常,异常就在这里,这是一个下标错误,它是试图去取超出范围的元素造成的。
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So yes, it should be zero at zero, but I made the line too thick.
它在原点处应该是零的,但我这里线画得太粗了。
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But here I want it to be determined, chosen at run time.
但是在这里我想要让它是一个由运行时间。
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We're going to call binary search, it's going to take the list to search and the element, but it's also going to say, here's the first part of the list, and there's the last part of the list, Well, it checks to see, is it bigger than two?
我们将要调用这个二分查找,它将会在列表里面搜索元素,假定这里是,列表的第一个元素,那里是列表的最后一个元素,代码内部到底做了什么?
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Now, the one that we're most interested in ANS is the one where, in fact, it gets out ANS, so you see down here in the code, there's a spot where it's going to return the value of ANS, which is what we want, right? That's the thing that holds the value that we intended to have.
现在我们最感兴趣的是这个,事实上它返回的是,所以你看这段代码,在这里返回ANS值,也就是我们想要的,对吧?,它就承载了我们想得到的值。
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And the thing you should notice here is that it's doing a lot of the same things over 2 1 and over again. So, for example, we'll see 2, 1 2 1 here. And 2, 1 here.
在这里你要注意的是,它不断在重复同样的工作,例如我们看这里的1,还有这里的。
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The answer is, in fact, there is zero, absolutely zero probability of finding a electron here.
实际上它在这里是为零的,在这里找到电子的概率严格等于零。
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If you zoom in up top, which I can't quite do with a keynote here, it says, "This last minute shopping, bargain hunting."
如果你想追根究底,我也不能,在这里做一个主题演讲,它说,“这是最后一分钟购物,特价商品大甩卖“
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it's this paper mend with a plastic cover and there's all these black magnetic particles here.
它是用这种纸以及一种塑料覆在上面,这里还有一些黑色磁性粒子。
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So zero is supposed to be neither positive nor negative, and here I am just simplifying and saying it's actually going to be negative.
所以0不是一个正数,也不是负数,在这里我只是简单地,说明它实际上会是负数。
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That says it's in here. It's in this tri-block. It raised an exception, but it wasn't and I O error.
这在这里它是一个try程序块,它报出异常,但他不是io错误。
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Here we're doing it as part of one algorithm.
在这里我们是把它当作算法的一部分来讲。
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So pictorially, it's as though there's now some other part of the blackboard here, maybe way up here where I can put anything I want that's accessible to main, that's accessible to swap, that's accessible to increment or any other function I might implement because it is, in fact, global.
绘画般地,它是在这里黑板上的其他部分,可能在这里的上面,我在哪里可以放置这些东西,使它们可以被main函数使用,可以被swap函数使用,可以被increment函数使用,或者我所实现的其它函数,因为它实际上是一个全局变量。
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So, for example, we could talk about the n equals 2 state, so that's this state here, and it's also what we could call the first excited state. So we have the ground state, and if we excite an electron into the next closest state, we're at the first excited state, or the n equals 2 state.
例如,我们可以考虑n等于2的状态,它在这里,它也被称作是第一激发态,我们有基态,如果我们把一个电子,激发到它最近邻的态,那就是第一激发态,或者n等于2的态。
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