We can write and send lots and lots of emails!
我们能写并且发送好多好多的电子邮件!
We can replace our concentrations here with, and so if you write equal to zero here, then we can write it as equilibrium right here.
我们可以代替这里的浓度,如果你这里写等于零,那么我们可以在这把它写作平衡状态。
These days, we can write down a story, or record information, without using pictures.
这些天里,我们可以不用图片来写故事或记录信息。
It turns out, we can write it out fully.
结果是,我们可以把它,完整的写下来。
我们能写诗。
So we can write any of these functions in terms of G.
所以能够利用G写出任意一个热力学函数。
We can write letters. It's cheaper than calling.
我们可以写信就好,那比打电话便宜。
Using a "static" approach, we can write a function like.
使用“静态”方法,可以编写如下的函数。
We can write the partition function as a sum over energy level.
我们可以把配分函数写成,对能级的求和。
Maybe we can write a report to the boss to see what can be done.
或许我们可以写份报告给老板,看看能怎么办。
We can write in literary language, but we seldom speak that way.
我们会用文学语言写文章,却很少用文学语言讲话。
What can we do with it, assuming we can write some simple programs?
假设我们会写一些简单的程序,那我们可以对它来做些什么呢?
We can write the probabilities of the occupancies in the same way, too.
我们也可以把状态被占据的概率,写成这种形式。
And then we can write, if we turn the crank, we get an equation that looks like this.
我们可以这么写,得到这样子的形式。
If we paint the house with Liquid Paper, we can write it off with an office expense.
如果我们用液体纸来油漆房子,那就可以把费用划在办公费用里了。
As long as we've got the content, we can write the code so that the format is easy to change.
一旦我们得到了内容,就可以开始写代码,使格式易于修改。
Leadership is a big, vague, amorphous topic. We can write about great leaders at great length.
“领导力”是一个宏大、模糊而虚无的话题,我们可以为优秀的领导者写出连篇累牍的传记。
So this is the fundamental equation that we can write that describes how neutrons in fact do accumulate.
所以,这是基本的等式,那是我们能写下来描述中子如何,积累的过程。
We can write out what it is for any certain atom or ion x, X so it's just x plus an electron gives us x minus.
我们可以用,X,来表示一个任意的原子或离子,因此可以写成,X,加一个电子等于负一价的。
When we need a robot for a task, we can use the standard model, or we can write a specification for a new model.
当我们需要一项任务的机器人,我们可以使用标准模式,或者我们可以写一个新的模式规范了。
So we already know that. So now we can write CpdT or differential dH as Cp dT plus dH/dp, pdp constant temperature, dp.
我们已经知道了这个,所以我们现在,可以写出H的微分式:dH等于,加上恒温时的偏H偏。
z z So the charge is actually just equal to z, +2e we can write plus 2, or you can write plus 2 e, e he charge on an electron.
是多少呢?是的。,What,is,z?,Yup,,so,it’s,plus,2。,它是+2所以电荷量实际上仅仅等于,我们可以写+2或者你可以写,仅仅指一个电子电荷量,e,just,means,the,absolute,value,of,t,的绝对值。
With the information we glean from this difficult experience, maybe we can write a book, Anyway, don’t you want to glimpse the heavens?
有了从这次艰苦的经历中 收集 到的资料,也许我们可以写一本书。无论如何,难道你不想看一眼天空吗?
And so, we can immediately write this du and then we can write du for the universe, which is system plus surroundings is equal to zero.
因此,我们可以立刻写出这个等式,然后可以写出总的的,也就是系统加环境的du,等于零。
So we can write out what the electron configuration is here, and I think that I have already written that out for you in your notes.
我们可以在这里写出电子构型,我觉得我已经在你们,讲义上写出来了。
First we can do that by knowing the electron configuration, we can write it out just by going up the table here, up the energy levels.
首先我们知道了电子构型,我们可以从,能量最低处开始填。
First we can do that by knowing the electron configuration, we can write it out just by going up the table here, up the energy levels.
首先我们知道了电子构型,我们可以从,能量最低处开始填。
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