They are quite distinct from each other, and you should be able to manage with that final exam without undue difficulty.
它们都各有特点,你需要在期末考之前解决所有困难。
maybe you're practicing English with a native speaker and you didn't quite catch what the other person said.
也许你正和一位母语为英语的朋友练习英语口语,但你没能很好地理解那个人在说什么。
And as an aside, those in the room who are among those more comfortable, even if we're not quite filling in blanks today, realize we will very quickly entice you with details that you don't already know.
说句题外话,你们中有一些,看起来聚精会神,实际上开小差的同学,也许我还不能对号入座,但这些人必须意识到,我会一笔带过,一些你们可能不懂的问题。
So, that is just a quick example for some of you, you might be very familiar with ion channels, others might not know what these are, so I'll just tell you quite briefly that ion channels are these very massive transmembrane proteins.
这对你们中的某些人来说仅仅是个小例子,有些人可能已经非常熟悉离子通道这个概念了,但有些人可能还不清楚,那么就让我来简单地介绍一下离子通道,就是这些巨大的跨膜蛋白。
Quite often, you guys come up with questions that never cross my mind, so it's very interesting.
你们经常能提出,非常有创造力的问题来,这非常有意思
Absolutely. But that's a quite different thing and I completely agree with you on that.
的确,这个我讲的是不同的事情,但我完全同意您的观点。
You take your room temperature liquid helium and you cool it with liquid nitrogen to 77 degrees Kelvin, the new, you're not quite there yet 77k unfortunately right? Then you take hydrogen you cool it would liquid nitrogen to 77, then you can use your hydrogen gas.
首先要有常温的氦气,拿液氮把它冷却到77k,那个新来的7,你不坐在那儿,对吧?,然后用液氮把氢气降温到,然后就可以使用这个氢气了,想要用氢气来做焦耳-汤姆孙实验。
You seem quite familiar with the museum.
你看起来对这个博物馆很熟悉。
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“
I think most and you are familiar with the Aufbau or the building up principle, you probably have seen it quite a bit in high school, and this is the idea that we're filling up our energy states, again, which depend on both n and l, one electron at a time starting with that lowest energy and then working our way up into higher and higher orbitals.
我认为你们大多数熟悉奥弗堡,或者构建原理,你们可能,在高中见过它,又一次,这是我们填充能级的观点,与n和l有关,一个电子每次从,最低的能级开始,然后以我们的方式上升到,更高更高的轨道。
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