i barely comment on youtube but sir, i'm amazed! i have my advanced in 1.5 months and from now on, i'll revise concepts from this channel for chemistry! thank you so much sir
Sir, last ke liye ye explanation sahi hai na ki 👇 "b is Anti aromatic while 'a' and 'c' are aromatic so 'b' will be least stable so it has the most heat of hydrogenation. Now, in 'a' and 'c'.... c has more π bonds... So it's heat of hydrogenation is more than a's.... Hence, b>c>a (heat of hydrogenation)"
Finally understand after watching 3 videos, this video explain in the best way and tells the reason why, other videos only says that it depends on pie bond and stability of alkene but didn't explain why it is so.
i barely comment on youtube but sir, i'm amazed! i have my advanced in 1.5 months and from now on, i'll revise concepts from this channel for chemistry! thank you so much sir
where are you now
@@JEE-oq1memoye moye
Where are u now aspirant ?
Where are you????
Very simple and nice explanation sir varna log to confuse hi kar dete hai
That last exception bring me here😢😢😢😢
Sir first wale questions me b>a>c hoga na
Stability b ki km h kyuki usme sirf 2 alpha hydrogen h
Bro b me resonance ek hi direction me ho raha hai aur a me opposite direction me....isliye stability b ki zyada hai
Sir ne pehle padhaya hua hai
Bhai a me resonance ho hi kaha rha ,vo bonds conjunction me nhi hai@@sulakshybeniwal8220
Sir, last ke liye ye explanation sahi hai na ki 👇
"b is Anti aromatic while 'a' and 'c' are aromatic so 'b' will be least stable so it has the most heat of hydrogenation.
Now, in 'a' and 'c'.... c has more π bonds...
So it's heat of hydrogenation is more than a's....
Hence, b>c>a (heat of hydrogenation)"
Only c is aromatic, b and a are non aromatic not anti aromatic
@@infinx9997you are right... Thank you for correcting me.
Amazing video!
Best lecture on TH-cam.
Thanks you sir
Thanku sir
Finally understand after watching 3 videos, this video explain in the best way and tells the reason why, other videos only says that it depends on pie bond and stability of alkene but didn't explain why it is so.
First comment
Good explanation 👍
Tysm
❤️
I think you're wearing a Movado
Thanks sir 🙏
Thank you sir