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It should further be noted that in the first creation account, in any kind of unequal relationship before God.
我们还应该注意第一个创世故事中的描述,说他们在上帝面前有不平等的关系。
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It's one of a lot of varsity teams we have on campus.
这是我们校园众多代表队中的一个。
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Rosenberg is giving us an anecdote from the trenches, and yet it slips very quickly into a sense of fable.
罗宾森给我们呈现战壕中的轶事,它很快成为一个无稽之谈。
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So now I have my first of my two slopes, in terms of something that's related to my system the heat capacity of the system.
好,我们现在得到了,两个微分式中的一个,它等于与系统密切相关的一个量。
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The centrality Aristotle ascribes to politics forces us to consider another question ? namely what is the purpose of this study?
亚里士多德加到政治中的,中心论点迫使我们考虑另一个问题,即这门研究的目的为何?
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So, let's go ahead and make sure we can draw that, if we have interest either in the area of organic chemistry or biochemistry or biology here.
那么,让我们来确认一下我们已经学会怎么画了,如果我们对有机化学,生物化学或者生物学中的任何一个领域感兴趣的话。
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But in the meantime you see that we can't mess with conventional systems by imposing the individuality of our will on them and expecting anything to change.
所以,我们不能,以个人的意志改变,一个事物在惯例中的意义。
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Well, it turns out some of you might recall this silly game from years ago.
这也许可以让我们中的一些人,想起来很多年前的一个很傻的游戏。
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Next we will deal with what's the--arguably-- the single most important thing when we listen to any piece of music and that is its musical form.
接下来我们要处理一个有争议的问题,音乐作品中的最重要的部分是什么,那就是曲式
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Now, think what's at stake here in this worldview, especially as we transition next Thursday to a developing though by no means unanimous or homogenous northern worldview in which reform impulses get embedded.
想想在这种世界观中最薄弱的是什么,特别是我们下周四要过渡到,一个发展中的并非统一或同质的,嵌入了改革的冲动的北方世界观
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And the obvious worry that gets raised in the dialogue at this point is this: How do we know that when the death of the body occurs the soul doesn't get destroyed as well?
在对话中的这个阶段,一个明显的担忧就是,我们怎么知道,当肉体死亡的时候,灵魂不会随之被摧毁
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What caused it? It was caused maybe it's oversimplifying it it was caused by a change in our resolve to let's get inflation under control - and a willingness to accept the recession to stop the advance of inflation.
是什么引发了它,它是因为-也许过分的单纯化它,它是由于一个为了,让我们将通货膨胀控制在手中的解决方案,和一个接受经济衰退的愿望,结束通货膨胀的继续上涨所导致的。
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You'll notice I have the string with the number 1 MIT a string with MIT, and then it just a plain old number, not a string, again it didn't quite give me 3.3 for reasons we've talked before, a and now it in the list a.
你们可以看到这儿有个以字符串1,形式显示的数字1,1个字符串,还有一个非字符串形式的平常数字,结果并不是3。3,原因之前我们,已经讨论过了,还有一个在list中的。
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This is one of a long list of experiments that we can't do anymore.
这只是众多实验中的一个而已,我们没时间讲其他的了。
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Well let's talk about some mechanisms for using this and I'll start with a simple example of how one can detect a gene in a fluid, in a blood sample for example, where that gene is unknown.
我们来说说这项技术在实际应用中的机制,先从一个简单例子着手,如何在一个血样中,侦测是否存在某段基因序列,某段未知基因序列
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This is one of our summer students from this past summer, who is also premed.
这是我们上学期四个夏季学生中的一个,也是医学预科。
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And it turns out that if we're talking about a 2 s orbital in an ion, that means it doesn't have as many electrons in it, so what we're going to see is less shielding.
结果是当我们讨论,一个离子中的,2,s,轨道的时候,这意味着里面没有多的电子,那么电子的屏蔽效应会更小。
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And for each object in 0, we have a value.
对于每个在0中的对象,来说我们会有一个值。
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And when we describe this in terms of talking about chemistry terminology, we would call the first one the 1 s, and 1 is in parentheses because we're talking about the first electron there, and we would multiply it by the wave function for the second one, which is also 1 s, but now we are talking about that second electron.
当我们用化学术语来,描述它的时候,我们称第一个为“1s“,括号中的1是因为我们,在谈论第一个电子,而且我们会用它的波函数,乘以第二个,第二个也是“1s“,但是我们现在谈论的是,第二个电子。
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But one of the teaching fellas also passed long to us recently, a little real world example of what happens when you're not mindful of various data types and you're not mindful of the imprecision that's inherent in representing data in a computer, at least using a language like C and low level primitives like floats and even doubles.
最近有个助教告诉我们,一个现实世界中的例子,当你不注意各种各样的数据类型,也不注意在计算机中表示数据时,其内在的不精确性,至少在用像C语言,和float甚至double型数据时,那将会发生什么?
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So if we do this and we form the molecule ammonia, let's switch to a clicker question, and have you tell me what the bond angle - is going to be in ammonia -- HNH Actually, let me draw it on the board as you look -- actually, can you put the class notes on, since you don't actually have your notes to refer to.
如果这样做的话,我们就可以形成氨分子,让我们来做一个课堂练习,你们告诉我氨分子中的键角是多少-,键角,the,h,n,h,bond,angle。,实际上让我在黑板上画出它来,这样你们可以看到实际上-,你能把课堂讲义放出来吗,因为你们没有讲义可以参考。
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