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Electron Orbital Stuff (1 Viewer)

Dreamerish*~

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Can anyone explain to me how the electron orbital configuration stuff works? The 2p2 1s3 ... etc? (I just made that up) I thought I'd ask the student I'm tutoring today ... but it doesn't seem fair for him to pay me for teaching me.

My school never taught us, and I thought I'd never need it. I was very wrong.
 

Riviet

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Just did a quick search on Wikipedia for you and it came up with this. ;)
 

XcarvengerX

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Some easy examples for you:
1H = 1s1
2He = 1s2
3Li = 1s2 + 2s1
4Be = 1s2 + 2s2
5B = 1s2 + 2s2 + 2p1
6C = 1s2 + 2s2 + 2p2
7N = 1s2 + 2s2 + 2p3
8O = 1s2 + 2s2 + 2p4
9F = 1s2 + 2s2 + 2p5
10Ne = 1s2 + 2s2 + 2p6
11Na = 1s2 + 2s2 + 2p6 + 3s1
12Mg = 1s2 + 2s2 + 2p6 + 3s2
13Al = 1s2 + 2s2 + 2p6 + 3s2 + 3p1
14Si = 1s2 + 2s2 + 2p6 + 3s2 + 3p2
15P = 1s2 + 2s2 + 2p6 + 3s2 + 3p3
16S = 1s2 + 2s2 + 2p6 + 3s2 + 3p4
17Cl = 1s2 + 2s2 + 2p6 + 3s2 + 3p5
18Ar = 1s2 + 2s2 + 2p6 + 3s2 + 3p6
19K = 1s2 + 2s2 + 2p6 + 3s2 + 3p6 + 4s1
20Ca = 1s2 + 2s2 + 2p6 + 3s2 + 3p6 + 4s2

Are you getting this? I hope so.:)
For more complex examples, see Wikipedia that Riviet has linked for you.
 
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Dreamerish*~

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Ohh, I get it now! That's not so bad.

My lecturer made them sound so hard.

Thanks a lot for your help! You too, Riviet. :)
 

sikeveo

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XcarvengerX said:
Some easy examples for you:
1H = 1s1
2He = 1s2
3Li = 1s2 + 2s1
4Be = 1s2 + 2s2
5B = 1s2 + 2s2 + 2p1
6C = 1s2 + 2s2 + 2p2
7N = 1s2 + 2s2 + 2p3
8O = 1s2 + 2s2 + 2p4
9F = 1s2 + 2s2 + 2p5
10Ne = 1s2 + 2s2 + 2p6
11Na = 1s2 + 2s2 + 2p6 + 3s1
12Mg = 1s2 + 2s2 + 2p6 + 3s2
13Al = 1s2 + 2s2 + 2p6 + 3s2 + 3p1
14Si = 1s2 + 2s2 + 2p6 + 3s2 + 3p2
15P = 1s2 + 2s2 + 2p6 + 3s2 + 3p3
16S = 1s2 + 2s2 + 2p6 + 3s2 + 3p4
17Cl = 1s2 + 2s2 + 2p6 + 3s2 + 3p5
18Ar = 1s2 + 2s2 + 2p6 + 3s2 + 3p6
19K = 1s2 + 2s2 + 2p6 + 3s2 + 3p6 + 4s1
20Ca = 1s2 + 2s2 + 2p6 + 3s2 + 3p6 + 4s2

Are you getting this? I hope so.:)
For more complex examples, see Wikipedia that Riviet has linked for you.

They should actually be using a noble gas at the front to shorten the whole thing. Makes it much easier.
 

mitochondria

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XcarvengerX said:
Some easy examples for you:
1H = 1s1
2He = 1s2
3Li = 1s2 + 2s1
4Be = 1s2 + 2s2
5B = 1s2 + 2s2 + 2p2
Just a note due to fussiness on the notation: we don't usually write electronic structures with + signs in between the orbitals.


Dreamerish*~ said:
Ohh, I get it now! That's not so bad...
Taking this a little further down the periodic table, you might also want to take note of the electronic structures of of Chromium and Coppper. If you follow the filling order, the EC you will get for Cr is:

Cr = [Ar] 4s2 3d4 ; and
Cu = [Ar] 4s2 3d9

However, there is also a rule (can't remember whose rule :p) that says when the d orbital is half-filled or fully-filled the 3d orbital becomes lower in energy than the 4s orbital. In the case of Cr and Cu, one electron will "drop" from the 4s orbital to the 3d orbital, giving you:

Cr = [Ar] 4s1 3d5 -------> half-filled 3d orbital (two half filled orbitals)
Cu = [Ar] 4s1 3d10 ----------> fully-filled 3d orbital (a half filled 4s and fully-filled 3d)

Now you might be tempted to ask: what about Vanadium and Nickle?

Well, the same thing does not happen to those two elements. The 4s and 3d orbitals don't have a big difference in energy. It turns out that leaving everything just as it is is more favourable energy-wise. :)

Why am I telling you these? EC for Cr and Cu (along with Fe2+ and other ions that are isoelectronic to Cr and Cu) are common exam questions :D :D :D

Have fun!

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