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So we can't actually see any of that, it's too high energy for us to see. So everything we see is going to be where we have the final energy state being n equals 2.
所以我们是看不见它的,它能量太高了,我们能看见的,都是终态等于2的情况。
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So, what we're saying is that we have n equals to 4, and m sub I being equal to negative 2.
我们说的是n等于4,ml等于-2
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So I propose this as a new algorithm for sorting N elements and being 8 in this case or really a thousand in the case of the phonebook, or anything of larger size.
所以我提出一种新的算法,来解决N个元素的排序问题,在这个问题中N是8,在电话簿的问题中N是一千,或者是大规模的任何问题。
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And when we talk about size, I'm again just going to say the stipulation we're not talking about an absolute classical concept here, but in general we're going to picture it being much further away from the nucleus as we move up in terms of n.
当我们说到尺寸时,我们只是说――,经典的绝对的概念,而是它大约,离原子核有多远。
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We'll get to discussing that, but what I want to point out here again is the fact that instead of just being dependent on n, the energy level is dependent on both n and l.
我们将要讨论它,但是我想指出的是事实上能级不只是与n有关,而是与n和l都有关系,而且n不再是。
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