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She wanted me to havethe finest education so she to ok me tothe Greenbow County Central School.
VOA: standard.other
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And then, so OK so we have all these people then, like how do you come watch what they're doing and I'm not trying to control too much what they're doing.
当你拥有自己的团队之后,你需要做好监督工作,但不要过分控制你的下属。
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Am I going to a class? Oh no. Ok, so the program that I'm in is, it's a program for undergraduate.
去上课?不是。我参加的是一个本科生的项目。
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Ok So, according to this model, 90° what we're seeing is a bond angle of 90 degrees.
我听到不同的答案,OK,,I,hear,a,mix。,根据这个模型,我们看到键角是。
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OK, so what we have to do is get back underneath this reaction, and see what the molar quantities are.
我们应该做的是,再回到这个反应,看看摩尔量是多少。
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OK. So if we have variables, one of the questions we can ask is, what's the type of the variable.
好,如果我们有了一个变量,我们要问的问题之一就是,这个变量的类型是什么?
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OK, so w, first of all, work is being done to the system on the left hand side here.
好的,首先,我们通过左边对系统做功。
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You can interpret it as "Ok, so what have I learned?
你可以解读为“我学到了什么?
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Ok. So, I did a degree in mechanical engineering and I did another degree in art history,
我在机械工程专业获得了一个学位,在艺术史专业也获得了一个学位,
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OK, so now the question is, how do we know the first place that this is a suitable reductant?
好的,现在的问题是,我们如何能知道第一步中,镁是一个合适的还原剂?
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OK. So let's actually go to a clicker question now on radial probability distributions.
好,让我们来做一个关于,径向概率分布的题目。
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OK, so let's go through this and see what we would do which is to calculate the heat and the work. This is well insulated.
好的,让我们开始然后看看,我们该怎样计算热量和功的大小,这是完全绝热的,所以。
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OK, so we have constant temperature, because it's isothermal.
好,现在系统有恒定的温度,因为它是绝热的。
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OK, so this, what I've sketched here would be a constant pressure calorimeter. There's a reaction.
好,我画的就是一个恒压量热计,其中进行一个反应。
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OK. So this is, in fact, log. Now, having said that I actually snuck something by you.
就是对数次,我已经教给你们一些。
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U OK, so let's look at delta u. Delta u is q plus w.
好的,让我们看看Δ
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OK, so two, that's the crucial part.
好,那么第二步,这是关键的部分。
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OK, so it's time to stop, I did, in fact, get caught up.
好,时间要到了,我最终还是讲完了。
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OK, so here is just an engine like what we've already seen, and I'm going to specify that this is a Carnot engine which is to say all the results that we just derived hold for this case.
这一个热机,跟我们以前见过的差不多,我们把它确定为,卡诺热机,所以我们之前得到的结果都对它适用。
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Well let's see. My fall back is, I could just do linear search, walk down the list one at a time, just comparing those things. OK. So that's sort of my base. But what if I wanted, you know, how do I want to get to that sorted list? All right?
我只能做线性搜索了,一次遍历一遍列表,一个一个比较,但如果我想要,那怎样得到有序的列表呢?,现在的一个问题是,我们排序之前?
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OK, so that's a quick statement of what happened last time.
好,复习完了,上节课的内容。
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OK, so adiabatic.
这些条件。
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OK. So we should be able to figure this out for any orbital that we're discussing, and when we can figure out especially radial nodes, we have a good head start on going ahead and thinking about drawing radial probability distributions.
我们可以将这种方法,用于任何轨道,当我们可以算出有多少个径向节点的时候,我们就为画出径向概率分布,开了个好头。
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p1 V1 OK, so in my diagram now, I have p1, V1 for my gas.
于是可以画出现在的p-V图。
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OK, so what do we know so far?
好,现在我们讲到哪了?
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OK. So, let's look at an example.
好的,让我们看一个例子。
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It's the same thing. You're saying, OK, so what?
好,那又怎么样呢?
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. OK. So we can have this orbital here.
.OK,所以我们有这个轨道。
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OK, so that's why we're dealing with that.
好了,这就是我们为什么要处理它的原因。
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OK, so let's do some thermochemistry.
好,让我们来做一些热化学。
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