NMR Coupling Constants in Organic Chemistry
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- Опубліковано 5 жов 2024
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why cant my university explain concepts simply like this... great video
Same question 🤔 in my head
😆 LOL
Point to point details. Thank you sir
Hello sir
All ur videos are top class ...
Just wants to request to please a video on nuclear overhauser enhancement n it's origin...pls I m not getting that concept...pls help
Fluorine influence Will be there in splitting
Yes! Fluorine splits both doublest in both compounds. We will have in each compound dd and dd. I am surprised by this error of the lecturer! If F is Cl the reasoning will be correct. Even in Plovdiv Uni (Bulgaria, not so developed country) I teach my students of heteronuclear Js.
I see that the J value is larger for trans than it is for cis alkenes, and I've seen that the karplus equation predicts this result: that J is larger for a dihedral angle of 180° than it is for one of 0°, but this equation and other variants have empirical constants and are good approximations of J for specific dihedral angles and electronegativities to match what is observed.
However, I still do not understand what is physically occurring to make this happen. I don't believe it's an anisotropic effect because in both cases, the protons are equidistant from the double bond ring current. I don't believe it's a through-bond interaction (exclusively fermi contact, Pauli exclusion principle and hund's rule) because the bond length is the same. I am left to believe that it is simply spatial- that cis protons have a larger effect on one another than trans. But my intuition following this is that a larger effective Bo from vinylic protons would result in a larger energy difference between the parallel and antiparallel nuclear spins observed (a larger difference in energy and so a larger J)
Any help with understanding of the physical mechanism would be greatly appreciated. By me as well as others asking similar questions here, I'm sure. Thank you
I also do not understand this at all, which is why I watched the video in the first place. Might have to ask an NMR expert because I've asked around and people cannot explain it to me in a satisfactory way. As of now I am stuck with: the larger the E diff between the protons and the larger the interaction, the bigger the Jc. Perhaps the cis protons are closer and have a stronger interaction through space but it is offset by a smaller E diff, giving the trans protons a larger Jc still. Or there really also is a stronger interaction through the pi bond in a trans manner, stronger than the cis arrangement. It does feel like that would make sense as the trans protons and the pi bond are roughly on a straight line whereas the cis arrangement is bend. But I have no idea really.
Looks like my intuition was somewhat correct!
ua-cam.com/video/WU4IVGvqj5U/v-deo.html
Informative From Qatar..
Thank you so much for your descriptive explanation. sir may i know why the coupling constant for trans is higher than cis isomer.
Prabjot Ghumman
same ques I have...have u got the answer ? If then pls xplain
I believe in this case, the B effective magnetic field on a&b in Trans is less, so the J value is high for Trans and the vice-versa for Cis.
Thank you sooo much sir for a brilliant explanation
Thanks i got inc grade and this helps
Nice vedio clear lot off concept
Brilliant explanation!
But what about those cases when geminal H-atoms have different shifts but are attached to the same carbon? Will the J-coupling constant be the same for these two? If it will, how can we tell that two signals with different chemical shifts are signals for H-atoms that are adjacent to each other and not bonded on the same carbon?
সেরা সেরা। thanks
For example it's value for boron is 3/2,for oxygen it's value is 5/2 ???
you're amazing
So to do this, i would need to know the distance in ppm?
Thank you.
How do we find the value of resultant nuclear spin??
thanks a lot !
same question: why trans coupling constant is higher than cis coupling constant
shivangi verma you’ll want to look up the Karplus relationship, which shows that if the dihedral angle is close to 0 or 180 degrees, coupling is the strongest. If the dihedral angle is 90 degrees, coupling is almost 0 Hz
thank you!
You're welcome!
Nice
thanku sir
Supertop
Thanks
tq very much
Spectroscopy ma different hota h ya same organic type
sir non first order spectra
thanks