A brief introduction to 1,3-diaxial interactions
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- Опубліковано 8 вер 2024
- Professor Davis gives short introduction to diaxial interactions in cyclohexane. These diaxial interactions can strongly affect conformational preferences (and therefore reactivity) of such compounds. Cyclohexane and methylcyclohexane are both discussed.
This video is a life saver for those of us who didn't understand this in lecture. Thank you!
This video is so lit, I signed in just so I could comment, great job.
Thanks! Don't forget to check out the rest of my channel! www.UA-cam.com/chemsurvival
Excellent explanation. Your video deserves more views!
Rory Marrast Thanks! Please help me get those views by sharing :-)
Thank you, in orgo 1 and my teacher just skimmed through this quickly. This video really helped me to understand what's going on bc of the visuals.
Hey Frank! Thanks for the encouragement. I can't wait to see how the Vespr videos stack up. Cheers, buddy!
You and your great explanations Ron... too good! *2 Thumbs Up* If only I had this when I was learning it haha. The number of headaches I could have avoided.
Omg, this explanation is SOOOOO Clear!!!! -Thank you!!!
If you have a Ball & Stick Model, create it....It is NOT a waste of time (I thought it would be till I did it....do it!)
Beautifully explained!
Thank you so much! This was a great explanation, exactly what I needed.
Thank you, from Switzerland! ;)
Thanks a lot
No problem. :)
very well explained, thanks
My pleasure. Glad the explanation helped!
that's awesome.. thank you so much
I'm so glad it helped!!
Thank you. You save me 🥺
After calculating the equilibrium constant, how did you end up stating that 19 or 20 will be in the equatorial conformer and one in the axial? Thanks :)
thanks
animations😍
Awesome/