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So today in physics we were talking about the bastard children of cosine or sine waves and decaying exponentials.
Anyway, as in my notes:
The second bound state has a sine function. Its E is bigger than the cosine, so the wave penetrates deeper into the forbidden region.*
It didn't help that for the rest of the class, the Prof kept using the phrase "penetrates the forbidden region" to describe the little tail pieces of the graphs. I am too immature for this stuff.
And then, in chem, I read slash undertones into orbital theory. Sigh. Electrons with the same spin state can't go in the same orbital. It's Forbidden. (Except when it isn't.)
Forget "Empirical evidence" in Harry Potter - you know you're corrupted when...
Right now, I should be studying this fun stuff, instead of playing with LJ and listening to random songs and trying to make music vids in my head. Endless entertainment. (Even if it doesn't work well with comics.)
But, okay, has anyone ever heard "On the way up" (Peter Mulvey)? So Crowley & Aziraphale's theme song.**
On the way up - I felt clean
Driving along in a waking dream
The rollingest hills I'd ever seen
Felt like the best me I'd ever be
On the way up I just knew
The night before, I'd been good and true
And honest and brave and over you
It was the easiest thing to do
But I'm going down
I'm going down to where my demons are
I'm going down
I'm going down
Wave if you see me from afar I'm going down
On your way up
On your way up, understand I'm going down
I wish I'd put so much more in your hand
The better pat of this heart's bitter land
I swear there is more here than sand
On your way up, think of me
I'll think of you I guess that we'll think of we
And you will always mean what you mean to me
I hope one day we'll look back and see
but I'm going down
I'm going down to where my angels live
I'm going down
Please, remember; please, forgive
Can't you just see how the vid would go? Crowley in the Bentley, the sun glinting off his glasses as he drives by, and the camera pulling away like a car commercial, leaving us with a painfully bright view of the English countryside and a lone black car vanishing in the distance. Aziraphale in the dusty store, carefully shelving books, looking thoughtful and not quite content. And scenes from the Last Days, ducks and wine, and facing the apocalypse with a flaming sword and tire iron, and a Young boy smiling in a way that wouldn't be disturbing on anyone else.
*Not an exact quote, but I figured no one but me would see hilarity in the math part.
**If, you know, they needed one. Which they don't.
Anyway, as in my notes:
The second bound state has a sine function. Its E is bigger than the cosine, so the wave penetrates deeper into the forbidden region.*
It didn't help that for the rest of the class, the Prof kept using the phrase "penetrates the forbidden region" to describe the little tail pieces of the graphs. I am too immature for this stuff.
And then, in chem, I read slash undertones into orbital theory. Sigh. Electrons with the same spin state can't go in the same orbital. It's Forbidden. (Except when it isn't.)
Forget "Empirical evidence" in Harry Potter - you know you're corrupted when...
Right now, I should be studying this fun stuff, instead of playing with LJ and listening to random songs and trying to make music vids in my head. Endless entertainment. (Even if it doesn't work well with comics.)
But, okay, has anyone ever heard "On the way up" (Peter Mulvey)? So Crowley & Aziraphale's theme song.**
On the way up - I felt clean
Driving along in a waking dream
The rollingest hills I'd ever seen
Felt like the best me I'd ever be
On the way up I just knew
The night before, I'd been good and true
And honest and brave and over you
It was the easiest thing to do
But I'm going down
I'm going down to where my demons are
I'm going down
I'm going down
Wave if you see me from afar I'm going down
On your way up
On your way up, understand I'm going down
I wish I'd put so much more in your hand
The better pat of this heart's bitter land
I swear there is more here than sand
On your way up, think of me
I'll think of you I guess that we'll think of we
And you will always mean what you mean to me
I hope one day we'll look back and see
but I'm going down
I'm going down to where my angels live
I'm going down
Please, remember; please, forgive
Can't you just see how the vid would go? Crowley in the Bentley, the sun glinting off his glasses as he drives by, and the camera pulling away like a car commercial, leaving us with a painfully bright view of the English countryside and a lone black car vanishing in the distance. Aziraphale in the dusty store, carefully shelving books, looking thoughtful and not quite content. And scenes from the Last Days, ducks and wine, and facing the apocalypse with a flaming sword and tire iron, and a Young boy smiling in a way that wouldn't be disturbing on anyone else.
*Not an exact quote, but I figured no one but me would see hilarity in the math part.
**If, you know, they needed one. Which they don't.
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Okay, hopefully I've got this sorted in my head properly.
We're looking at the d-block transition elements in particular, which have five outer (d) orbitals, with a total of 10 possible electrons. And there is a long explanation about the relative orientation of different orbitals and how they therefore interact in complexes, but basically there's two different energy levels among the d orbitals, like so:
So, say you have 1 d electron. It would probably go in the lower energy orbital:
Okay, but say you have five d electrons (and the complex would rather fill the higher energy orbitals than deal with the energies between paired electrons):
If you were to fire some photons at this one, increasing the energy, you would expect one of the electrons in the lower orbitals to move into the higher orbitals, right? But, all the electrons have the same spin state (as per some orbital filling rule we covered last year that I can't remember right now) and we know there can't be two electrons with the same spin state in the same orbital, so this is a "Spin-Forbidden Transition."
At this point my prof got a strange smile, and explained that just because something is forbidden doesn't mean its not going to happen. It just isn't going to happen very often (and only, you see, when the electrons think they can get away with it). It doesn't happen all that often, but given how many electrons and molecules are in stuff, it happens often enough.
Now, I might have mislead you a little, because I didn't think everybody would have appreciated this whole explanation when I might have simplified into a sentence. There can't be two electrons in a given orbital, for reasons we're going to (I hope) gloss over in quantum mechanics, so what really happens is one of them flips spin:
Now, see, I was sitting through this in lecture form, and somehow saw the dirty bits. I'm not sure that's right. (And will not subject the world to doomed-romance-between-electrons-until-one-of-them-undergoes-a-spin-change-operation-so-that-the-world-will-let-them-be-together fic things. Be glad.)
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I would totally read an electron-doomed-love fic.