Pretty simple and straight forward. I never understood this all through my undergraduate days. But with this video, I can say I know molecular orbital. Thank you so much!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
MIchel, I want to thank you for these videos. I'm currently doing a chemistry degree in my spare time while working up to 50 hours a week for a pharmaceutical company. Studying in my spare time with little tutor support is very difficult when I haven't done chemistry since school almost 13 years ago. I was becoming increasingly frustrated with molecular orbital theory and drawing energy level diagrams as I just didn't understand it. One watch of this video and bang, I got it! Many thanks for this and keep up the good work. I would have loved to have a chemistry teacher like you when in school!
I have a question: for example for copper which has 29 electron and it incorporates also 3d¹⁰ 4s¹ how the molecular orbital is done? Because I tried to understand why copper is conductive and what I saw on the internet they say that condcutive band and valence band is superimposed. Is true that valence band is bonding electrons and conductive band is antibounding electrons and in case of copper they are superimposed? Thank you!
When looking at the electron configuration of copper you'll find that there is only one electron in the 4S orbital, which means that it is easily removed with a small amount of potential difference, which allows that electron to move easily from atom to atom.
The high energy photons, strike the molecule and break the tipple bond of the nitrogen molecule, and gives the two nitrogen atoms a lot of kinetic energy, thus absorbing the photon
@@MichelvanBiezen What is the difference between nitrogen and something else. Does remaining photon has lower frequency in case of nitrogen? Or no photon remains?
incase you haven't noticed the other complaints, this video has a wrong concept, where in O2, F2 and Ne2 the sigma2p is to be exchanged with pie2p 0. please apply correction or notifi the viewer within the video.
Pretty simple and straight forward.
I never understood this all through my undergraduate days. But with this video, I can say I know molecular orbital.
Thank you so much!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
Thanks alot sir...♥️This helped me alot.
MIchel, I want to thank you for these videos. I'm currently doing a chemistry degree in my spare time while working up to 50 hours a week for a pharmaceutical company. Studying in my spare time with little tutor support is very difficult when I haven't done chemistry since school almost 13 years ago. I was becoming increasingly frustrated with molecular orbital theory and drawing energy level diagrams as I just didn't understand it. One watch of this video and bang, I got it! Many thanks for this and keep up the good work. I would have loved to have a chemistry teacher like you when in school!
Wow! You have quite a load. Glad these videos are helping.
sir but there is a small mistake , after nitrogen the pi bonds will have higher energy than the sigma bonds
only in O2 and F2
But why
Yah because 2(7)=14 so sigma comes before pi
does that still apply to neon?
You made this seem so incredibly easy, thank you for helping me attempt to get through my chemical engineering degree
Keep working hard on your degree and good luck.
Thankyou sir ❤ aap ne bahut aache se samjhaya h
Thank you. Glad you found our videos.
Very helpful.. your effort is appreciated sir
What a awesome video!
very very very very very very helpful! Thanks a lot!!!!
Thank you sir, u saved my life Did you fall from paradise😍
Excellent, only thing that is missing is the structural differences in the MO between B,C,N and O,F,Ne.
I have a question: for example for copper which has 29 electron and it incorporates also 3d¹⁰ 4s¹ how the molecular orbital is done? Because I tried to understand why copper is conductive and what I saw on the internet they say that condcutive band and valence band is superimposed. Is true that valence band is bonding electrons and conductive band is antibounding electrons and in case of copper they are superimposed? Thank you!
When looking at the electron configuration of copper you'll find that there is only one electron in the 4S orbital, which means that it is easily removed with a small amount of potential difference, which allows that electron to move easily from atom to atom.
@@MichelvanBiezen Thank you !
Sir ,I have a doubt...Do anti bonding orbitals change their positions or not?....please solve my question..please sirr...
I'm feeling happy that I understood it
How exactly is radiation absorbed by nitrogen bonds?
The high energy photons, strike the molecule and break the tipple bond of the nitrogen molecule, and gives the two nitrogen atoms a lot of kinetic energy, thus absorbing the photon
@@MichelvanBiezen What is the difference between nitrogen and something else. Does remaining photon has lower frequency in case of nitrogen? Or no photon remains?
The photon is absorbed. (Essentially it is the energy of the photon).
thanks sir for your lecture it saved my exam
Excellent. Many thanks.
But won't sigma 2px orbital move before pi2py and pi2pz incase of oxygen molecule?
emeğinize sağlık.çok teşekkür ederim.dilinizi anlamasam da şekillerden çok iyi anladım.Allah sizinle olsun:)
Nevertheless the whole explanation cleared my concept. Thanks!..
Thank you sir!
Thanks so much for this!
thank you sir .it is very helpful
Really helpful and thanks a lot.
really helpful
incase you haven't noticed the other complaints, this video has a wrong concept, where in O2, F2 and Ne2 the sigma2p is to be exchanged with pie2p 0. please apply correction or notifi the viewer within the video.
Thank you so much..
Thank you!!
thank you for this :)
Mo diagram should be different for oxygen and heavier elements with lighter elements like N , c etc
Thanks
but MO structure of N and C is different
thanks a lot
THANK YOU
Boom goes the dynamite
appreciated
Wrong!!!!!cin these molecules O2 F2 and Ne2 sigma2p comes first!!!! Than pi2p
agreed
Gonçalo Gold doesn't matter much mate
wrong !!!
exactly!
Hindi pls
Wrong!!!
The digram of O2,F2,Ne2 are different. I recommend people to see other explanations!
Thank you very much
Thanks