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Topic: Stability of carbocations  (Read 3172 times)

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Offline eXpertiz

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Stability of carbocations
« on: February 09, 2014, 10:24:17 AM »
Hi guys!

I have a question and exam is closing in really fast. I hope you can help me :)

The problem is as follows: Arrange the carbocations by increasing stability.



Thanks and cheers!

Offline PhDoc

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Re: Stability of carbocations
« Reply #1 on: February 09, 2014, 11:48:31 AM »
eXpertiz,

You need to go back to basics. Term I of organic chemistry, and really understand carbocations. Then you need to review resonance structures.
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Offline eXpertiz

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Re: Stability of carbocations
« Reply #2 on: February 09, 2014, 03:35:12 PM »
I understand most of the basic pre-reactions organic chemistry. I've mastered resonance just recently. I just don't now how to apply these terms when it comes to stability. Could you be more specific, please? :)

Offline PhDoc

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Re: Stability of carbocations
« Reply #3 on: February 09, 2014, 09:59:39 PM »
This is a question whose foundation lays in resonance and induction. Show some work.
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Offline orgopete

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Re: Stability of carbocations
« Reply #4 on: February 10, 2014, 01:12:58 AM »
I understand most of the basic pre-reactions organic chemistry. I've mastered resonance just recently. I just don't now how to apply these terms when it comes to stability. Could you be more specific, please? :)

In that case draw all of the resonance structures for the given compounds. Are any of the structures particularly unstable or stable (more completed octets)?
Author of a multi-tiered example based workbook for learning organic chemistry mechanisms.

Offline eXpertiz

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Re: Stability of carbocations
« Reply #5 on: February 10, 2014, 11:40:27 AM »
Resonance structures of the first example have always 1 incompleted octet rule, when the bonds ie. pi electrons are transfered around the ring and thus the positive charge. Hence, the structure is unstable.

For the second example, resonance structures exist where there are 2 incompleted octets, one positive charge is transfered around the ring while the other stays on the CH2 group. Hence, the structure is very unstable.

And for the third example, there exists a resonance structure, where there are 0 incompleted octets, the positive charge is on oxygen of the OMe group, but oxygen fulfills the octet rule. Thus, this is the most stable carbocation.

The order of increasing stability is as follows: 2. example < 1. example < 3. example.

Is this understanding correct by any chance? :)


Offline orgopete

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Re: Stability of carbocations
« Reply #6 on: February 10, 2014, 05:58:00 PM »
That is the order I had as well and you figured it out yourself. Kudos.
Author of a multi-tiered example based workbook for learning organic chemistry mechanisms.

Offline eXpertiz

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Re: Stability of carbocations
« Reply #7 on: February 10, 2014, 10:03:10 PM »
Thank you! :)

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