You *know* you're a chemistry nerd when... (1 Viewer)

Jumbo Cactuar

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You know you are a chem nerd when ...

... you get an second year organic chem assignment and on the first night you are already writing to the lecturer-in-charge telling them how the assignment is flawed. The again maybe I am crazy. hmmm... where the hell has my C13 NMR nitrile singlet gone? Give it back you bastards!
 
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you think this is bad? i spent a few hours talking to people about my chemistry trial exam :(
 

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Not necessarily chemistry, but discussing the causes of seizures and the causes, symptoms and treatment of viral and bacterial meningitis during recess.
 

nit

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Originally posted by nit, 5th August 2005, 08:21 PM
when you post in a chemistry nerd thread
^It's been done before :cool:

Edit: Jumbo - a.) what would you say the 1H spectrum of o-hydroxyacetophenone looked like; b.) what would you say would give you a higher Rf value in 85:15 Hexane:Ethyl acetate solvent in a TLC analysis - o-hydroxyacetophenone or o-benzoyloxyacetophenone?
 
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Jumbo Cactuar

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nit said:
^It's been done before :cool:

Edit: Jumbo - a.) what would you say the 1H spectrum of o-hydroxyacetophenone looked like; b.) what would you say would give you a higher Rf value in 85:15 Hexane:Ethyl acetate solvent in a TLC analysis - o-hydroxyacetophenone or o-benzoyloxyacetophenone?

a:
http://www.aist.go.jp/RIODB/SDBS/cg...pe=disp3&imgdir=hsp&fname=HSP01163&sdbsno=724

b:
Whichever has a higher affinity for the stationary phase.

Hexane and ethyl acetate are both relatively insoluble in water. O-hydroxyacetophenone has the ability to hydrogen bond whereas o-benzoyloxyacetophenone is a fat bastard molecule. So assuming the TLC was carried out with some forethough and the stationary phase is polar, the o-hydroxyacetophenone has a better affinity for the stationary phase.

So o-hydroxyacetophenone should have a longer retention time.

PS: You may or may not know that the ortho (o) position notation of benzene disubstitution is equivelant to the 2 notation used in the spectra.
 
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nit

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^^We were given a spectrum for part a.) - I just wanted your thoughts on how the aromatic protons would get split up - I speculated on some resonance downshifting the protons ortho and para to the acetyl group and upshifting those ortho and para to the hydroxy, but yeh.

For b.) I reasoned the same way, but in fact it was the o-hydroxyacetophenone that rose higher, suggesting a better affinity for the mobile phase, which confused me - then again, both molecules are fairly large, so the ability to act as an H-bond donor for 1 H atom is not going to be that significant - I speculated on the acidic ability of phenol derivatives, with affinity for the slightly basic ethyl acetate, but neither is a strong enough acid/base for that too be meaningful.
 

Jumbo Cactuar

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You'd get the most constructive peak dispersion if your disubstitued benzene had the two electron withdrawing groups in the meta position. As they are ortho you get a mess, since their affect is competing.
 

nit

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the -OH group isn't technically completely electron-withdrawing though - there are inductive donation effects competing with that. So if you draw the resonance forms out, you can delocalise a negative charge at the ortho and para positions, which would suggest a downshifting in the spectrum.
 

Jumbo Cactuar

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And with regard to the peaks themselves;

If you could analyse each peak individually you would have 4 aromatic peaks each intergrating for 1, two of which are doublets and two of which are singlets. Also the downfield peak of CH3 integrating for 3 and the OH integrating for 1, both singlets. The aromatic hydrogens interfere with each other when there are 'on top of each other', so only a skilled and experienced nmr analyst would recognise the mess you have... :)

With regards to my last post if you want to see the effect of cooperative disubstitution use the organic database and search o-nitroaniline, since the nitro is e. withdrawing and the amine is e. donating. The peaks there are very nice indeed!
 

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You know your a chemistry nerd when

you find yourself doing soil analysis of samples found on the floor
 

Shell

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then you pretend your a CSI, and start deducing who murdered who... when no murder took place
 
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you know you're a chem nerd when you hope all the ozone stays in the stratosphere and not in the troposphere!
 

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