I like the lectures! I found it confusing though that you left the electrons in the mid-section of the wave-diagram. It looks like there are 4 electrons in the h2... :)
What does it mean that electrones are in a destrictive phase, is it that electrones of Hidrogen are in diferent places in the atom so they can not bond?
Could you help me to solve this question: how many atomic orbitals are required to construct the molecular orbital for 1.CH3- ,C2H2(ACETYLENE), CH2O(FORMALDEHYDE) by using STO-3G basis set ?
So the bond order in the ionised hydrogen molecule H2+ is 0.5 because the bond order is the number of electrons in bonding molecular orbitals subtracted from the number of electrons in the anti bonding molecular orbitals divided by 2 and if there is only one electron in the bonding molecular orbital and none in the anti bonding molecular orbitals 1-0 = 1/2 =a bond order of 0.5.
just one question, PLEASE ANSWER if only 1 electron is moved to antibonding molecular orbital by absorbing energy, would it break the bond? or both electrons needs to be in antibonding orbital for the bond to be broken?
I bet this is the best explanation ever
I was really confused and tried to search for vedios ending up hear thank you soooooooo much
that's a very good explanation.can understand your language pronounce very well
Wow. Outstanding video. The textbook is so much more confusing.
it made my understanding of MOT , more clear
Good
These lectures are very useful and easy to understand...sir, can u upload pericyclic reactions?thank you so much...
Wow this video was so insightful, thank you
You are very welcome
Where are the notes
I like the lectures! I found it confusing though that you left the electrons in the mid-section of the wave-diagram. It looks like there are 4 electrons in the h2... :)
many thanks , this's magnificent
Superb exposition, as always.
Now, I understand the concept of MOT
What does it mean that electrones are in a destrictive phase, is it that electrones of Hidrogen are in diferent places in the atom so they can not bond?
Could you help me to solve this question: how many atomic orbitals are required to construct the molecular orbital for 1.CH3- ,C2H2(ACETYLENE), CH2O(FORMALDEHYDE) by using STO-3G basis set ?
So the bond order in the ionised hydrogen molecule H2+ is 0.5 because the bond order is the number of electrons in bonding molecular orbitals subtracted from the number of electrons in the anti bonding molecular orbitals divided by 2 and if there is only one electron in the bonding molecular orbital and none in the anti bonding molecular orbitals 1-0 = 1/2 =a bond order of 0.5.
Thank youuuuu God bless your life
just one question, PLEASE ANSWER
if only 1 electron is moved to antibonding molecular orbital by absorbing energy, would it break the bond? or both electrons needs to be in antibonding orbital for the bond to be broken?
yes, it'll break the bond.
Very nice content....
Thank you so much!!!!!!
I hope you can teach me HOMO / LUMO!!
Great explanation
good mng
so helpful
Electrons rule!