Is the Born-Oppenheimer approximation valid/reliable only for the calculation of ground-state electronic states not for the excited states...Please clarify
Sir could you upload videos related to questions that can be asked from this topic ? Like 4-5 questions more . ABC are correct but I am not sure about the last statement. Since it won’t be accurate if the system has more that 2 electrons .
A, B, C are correct sir... D, I think it may correct because we learnt that way... Have to think about the other possibilities too sir... So please inform us about option D sir. Thank you sir... No words can be enough to thank you for this video sir...
a,b and c are correct according to Bohrn Oppenheimer equation
I have read it in Mcquarie but I didn't gave much attention at that time.. now I get it and I will again study that from the book... Thank you sir❤️
Sir please upload more frequent videos on new topics for gate exam it is really helpful anyway thankyou 😊
A b c are correct not d bcoz for one electron many nuclei system also this approximation can be used
Just beautiful explanation ❤
Thank you, Now I Understand :)
Sir.. Ur vdo is very helpful to me🥰
Thanks sir आपका कार्य सर्वोत्तम है 🙏
Thank you so much. Plz post more problems sir. 😊😊😊
A b c are correct
Super se bhi uper... 🙏 🙏 🙏 🙏 🙏
What are Za and Zb? Nuclear charges A & B? And why does (1/r12) represent potential energy? The inverse distance and PE are not the same thing?
Look in levine book ...charges of electrons are not mentioned here but it should be e2/r12 ..but its ok
Cleared all confusions through this video only for you
Thanks plzzz upload more videos about computational chemistry,
Sir pls explain some questions with the theory part regarding to the newly added gate topics
All are correct except option D. D is wrong I think so far. Hope you will justify my answer.
Thnk you so much sir
You made it so easy
Superb sir
All options are correct
Sir, all the options are correct.
a,b,c option are correct
All points are correct
Thank u sir
Graet sir i am your big fan
Nice explanation sir
Is the Born-Oppenheimer approximation valid/reliable only for the calculation of ground-state electronic states not for the excited states...Please clarify
Sir didn't understand, the relationshi, how you relate Electronic wavefunction of electron and potential energy of the nucleus.
please make videos for break down of born oppenheimer also
Thanku
Super sir
B, c, d are correct
thanku sir..feeling confident
All of them are correct sir
Pls upload some more pbm its also very useful
Nice explination
Thank you sir 🙏 and all the options are correct. If I am not right Plz let me know
Sir please also tell the book to follow for each new topics!
A B nd C are correct...
A,b,d,are correct
Sir plz make a video on salc
It's ("Oppen" "Haai" "mer")
Sir could you upload videos related to questions that can be asked from this topic ?
Like 4-5 questions more .
ABC are correct but I am not sure about the last statement. Since it won’t be accurate if the system has more that 2 electrons .
all of them are correct
Puri sharma pathania mai kaun se chapter mai milega born appohamiar approximation
Sir plz try to explain in a easy way.
From general aptitude nat type questions can be asked?
A, B, d are correct
Abcd sir Thank you sir
A,B,C are correct
A.b d correct
Abcd all are correct statements
a,b&c are correct...am I right sir?
A, B, C are correct sir... D, I think it may correct because we learnt that way... Have to think about the other possibilities too sir...
So please inform us about option D sir. Thank you sir...
No words can be enough to thank you for this video sir...
a, b, c, d - all are correct
Hindi mai acha or jldi samjh ata h
B , C
b?
Sir plz give it's ans..
Sir... please give the correct answer.
A, B, C are correct
@@AllBoutChemistry thank you sir.
b and c
all of them r correct
A,d
Abcd
Hello sir good morning how are you
Hi good morning
Sir hindi mai padao na plz
1234
Thanks sir
A,B,C are correct
a b c d are correct
Thanx a lot sir
thankx alot sir
a,b,c are correct
a,b,c are correct