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Well, it's on one hand a very large idea to take in, particularly I think if one's working in a university.
这是一个很大的话题,不容易理解,对于在大学中工作学习的人尤为如此。
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It's easy for us to say that it was Milton's memory that facilitated his grasp of the Christian and the classical traditions.
我们也可以轻易地说那是弥尔顿的记忆,使他对于基督教和经典传统的理解更为容易了。
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So, when we think about any type of formal charges, we have to assign these based on a formula here, which is very easy to follow.
那么,不管我们要考虑什么样的形式电荷,我们都必须依靠这个公式,它很容易理解。
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If you had a course in probability and statistics, then you'll find it easy to follow, but it's self-contained again.
如果你们学过统计学或者概率论,你们会比较容易理解,也需要你们独立学习
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Everything should be pretty self-explanatory and if you have any questions you can just contact me or ask me questions after class.
这些材料应该都很容易理解,如果有问题的话,可以在课后提问或和我联系
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Once you hear that description, it's easy to write the code, in fact. This is a place where the recursive version of it is much easier to think about than the iterative one.
实际上一旦你听到了大致描述,就能很轻松的写出代码来,在这一点上应用递归来解决问题,比用迭代要容易理解多了。
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So, I will be talking about the overhand stroke, which I find it easier to grasp.
所以我还是假设他们的攻击方式,是自上而下的吧,这样比较容易理解
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Now many of the ideas that you'll encounter in this class are very simple, very accessible.
你们将在本课程中遇到的许多观点都很简单,很容易理解。
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So this is simple.
很容易理解。
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It's very easy to pick up most forms of irony.
大部分的讽刺都很容易理解。
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It's simply a convention established after the fact that allows us to organize material in ways that we can grapple with it ways that we can understand it.
这仅仅是在事后建立的一种惯例,好让我们组织材料,用容易整理的方式,用容易理解的方式
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It's useful to separate these kinds of signals into three categories.
将这些信号分为三大类会比较容易理解
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So these are Coke and Pepsi, that will confuse me less.
那就可口可乐和百事可乐吧,这会更容易理解
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In the case of Russia, it's even easier.
俄罗斯的情况更容易理解
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So let's take a look then at somewhere where this is actually a useful thing to know so this is compare1.c. So, in compare1.c I've stripped out the comments in my version but in your version you do have comments for reference and it's actually pretty self-explanatory if you just read through the code.
那么再然我们看一看,一些有用的东西,这是compare1。c,所以在compare1。c中,在我的版本中,我吧注释去掉了,但是在你们的版本中是有注释的,这是相当容易理解的,如果你通读这段代码。
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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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I think it might actually be the more obvious meaning, which is "to hinder" or "to preclude."
我认为那可能是更容易理解的意思,“阻碍“或“妨碍“
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It will make more sense when we can show you one where it does have that area.
当我给你们展示有这种地方,的情形时会更容易理解。
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and so I trust that it's easily intelligible as I read it to you now.] In fact, however, we have given up the claim to find, in the past, any truth valid and intelligible for ourselves.
所以我相信现在我读的时候大家一定会更容易理解],事实上,我们已经放弃了从过去中寻找,对于自己来说靠得住的,可以理解的事实。
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It's even easier to follow if we know what all of those stand for.
如果我们知道这些代表的是什么,它就更容易理解了。
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Restriction enzymes have names, The names all look - they're all italicized and they're capital letters and small letters so that they won't be easy for you to understand, but they are - if you know the nomenclature, easy to understand.
限制性内切酶有自己的名字,名字看起来都很--,都是斜体的,大写小写字母混合,你们不太容易理解,但它们都是--如果你懂命名法,是很容易理解的
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So the idea behind valence bond theory is very easy to understand.
价电子成键理论,非常容易理解。
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If you had to pick a central focus of where the Greeks were, it would be in the Aegean Sea. So that's useful to remember.
如果你要在古希腊寻找一中心位置,那就是爱琴海,所以这很容易理解
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I ought to say a word about death, in order to comprehend what the Greeks thought. You know, different peoples have had different ideas about them.
我得说一下有关死亡的事儿,好让你们更容易理解希腊人的思维,你们知道,不同人对于死亡的观念是不同的
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it's an easy calculation -- we're just taking the negative of the binding energy, again that makes sense, because it's this difference in energy here. So what we get is that the binding energy, when it's negative, the ionization energy is 5 . 4 5 times 10 to the negative 19 joules.
这个计算很简单-我们,只需要取结合能的负值,同样这很容易理解,因为这就是这的能量差,所以我们得到的就是结合能,当它取负值,电离能就是5。45乘以。
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Because of that you can do the following experiment, and it's a simple experiment, it's simple to understand, but the concept is very important so I encourage you to think about it and make sure you understand it.
我们可以做一个实验,这是一个非常简单容易理解的实验,但是这个实验验证的概念非常重要,我希望你们能够仔细思考,并且能够掌握
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Something I'll also point out as you see these dashed line that tell you where the individual molecular orbitals are arising from, as you get to higher and higher atomic numbers of molecules that you're making, it makes a lot more sense to look at a diagram when you draw these dotted lines in, because they can start to get a little bit confusing.
我要指出的是,你们看这些虚线,它们告诉你,每个分子轨道的起源是什么,当你的原子数,越来越高的时候,画出这些点线,使图更容易理解,因为现在开始变得有一点混乱了。
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We'll talk about cells and how they work, how cells in different parts of the body are different, why, and how they contribute to tissues at a very sort of simple level so that you can understand this as we start thinking about using cells for engineering purposes.
我们将会谈论细胞,它们如何工作,身体不同的部位细胞有怎样的不同,为什么它们有所不同,以及这些细胞如何,以十分简单的方式形成组织,这样当我们开始考虑用细胞,来满足工程目的时,你会更容易理解
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So, we can do that by using this equation, which is for s orbitals is going to be equal to dr 4 pi r squared times the wave function squared, d r.
用这个方程,对于s轨道,径向概率分布,4πr的平方,乘以波函数的平方,这很容易理解。
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This should make sense to you, because they don't, in fact, want to gain another electron, because that would mean that electron would have to go into a new value of n, a new shell, and that's really going to increase the energy of the system.
这对大家来说应该容易理解,因为它们实际上不想得到另一个电子,因为这意味着这个电子不得不,到一个新的,n,值更大的壳层上去,这将会增加系统的能量。
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