So it’s difficult to achieve a transition for an alkane since it is so far into UV, what types of compounds can go into VIS wavelengths? I’m assuming compounds with a higher number of pi bonds/higher degree of conjugation? For a compound with a dozen conjugated double bonds, is the wavelength of the energy needed to perform a pi to pi* transition the same for each of those double bonds? Like can you consider all the pi bonds in a molecule as the same pi bond?
I've one request,if possible plz make aa video on WHY PHENOPHTHALEIN DOES NOT CHANGE COLOR IN ACIDIC MEDIUM? I mean what's the basic principle or reason that electrons are not excited in acidic medium
I was looking for this concept from a couple of days,coincidentally,I came across this video,you solved my biggest problem,THANKS ALOT
amazing Sir
Thanks a lot very easy teaching
Thanks.. very clear and easy to understand
Very helpful video. Thanks!!
「明確なメッセージ、明確な構造、理解しやすい、ありがとう」、
Subhan Allah ! thanks
Great job explaining this concept! Thanks so much!
InstaBlaster.
Ok that was good dude
So it’s difficult to achieve a transition for an alkane since it is so far into UV, what types of compounds can go into VIS wavelengths? I’m assuming compounds with a higher number of pi bonds/higher degree of conjugation? For a compound with a dozen conjugated double bonds, is the wavelength of the energy needed to perform a pi to pi* transition the same for each of those double bonds? Like can you consider all the pi bonds in a molecule as the same pi bond?
I've one request,if possible plz make aa video on WHY PHENOPHTHALEIN DOES NOT CHANGE COLOR IN ACIDIC MEDIUM? I mean what's the basic principle or reason that electrons are not excited in acidic medium
this was very informative thank you very much
great video. i think your pi antibonding symbol is missing the star symbol.
Helpful👍