I curse my luck for only finding your channel now, I was fr going crazy pulling my hair getting none of Quantum Physics You are the messiah, the lisan al-gaib 🙏🙏
This is a great way to introduce yourself to quantum. So often people dive into solutions to the Schrödinger equation before even discussing what it means, and it's properties. You are doing a great job with this series.
I can't believe this channel hasn't blown up yet. I've been with you since before your 1k subscribers, and you've always been one of the best UA-cam channels on mathematics.
Good day. Thank you for the great explanation. In minute 10:30 you talk about an initial condition. Could you please just clarify what condition this refers to?
Well here he is talking about the 0 spread in total energy of any stationary states. As the variance comes out to be 0 and any dynamical variable should not have any dependence on time so we can take up that condition to show which state to choose as soln of TISE and which to not
This is totally ASMR I was struck with couple of paragraphs of Griffiths about what does the physical representation of time independent Schroedinger's equation show. But you cleared my concept like Water of Baltic sea. I humbly request you to upload more videos maybe you'll not ended up making more money but you'll ended up making the Dirac's Heisenberg's of this generation
Not quite: first of all, position and momentum cannot be simultaneously definite by the uncertainty principle. Second, the energy discussed here isn't directly related to position or momentum (by virtue of the fact that it includes the potential in addition to a momentum term in the kinetic energy). That's why a definite energy does not necessarily correspond to a fixed x or p. Hope that helps!
hello hello thank you so much for this amazing serie that u made it's an art for real , i have a qs please on the last video u find a expression for the time dependence eq T(t)= A exp(-iEt/h) but what about the psi(x) function i feel like u ignore it on this video thank u again
I curse my luck for only finding your channel now, I was fr going crazy pulling my hair getting none of Quantum Physics
You are the messiah, the lisan al-gaib 🙏🙏
'Messiah' is an overkill term for me lol; I'm just a random UA-camr that makes Physics videos, but thank you so much for your support!
This is a great way to introduce yourself to quantum. So often people dive into solutions to the Schrödinger equation before even discussing what it means, and it's properties. You are doing a great job with this series.
I can't believe this channel hasn't blown up yet. I've been with you since before your 1k subscribers, and you've always been one of the best UA-cam channels on mathematics.
Brilliant as always!
Sir, where is next video? I'm not able to find it. Your series is really helping everyone. I actually followed whole two playlists of QM...
excellent video as always!
Good day. Thank you for the great explanation. In minute 10:30 you talk about an initial condition. Could you please just clarify what condition this refers to?
Well here he is talking about the 0 spread in total energy of any stationary states. As the variance comes out to be 0 and any dynamical variable should not have any dependence on time so we can take up that condition to show which state to choose as soln of TISE and which to not
I am not understand but your teaching is amazing 😊❤❤
Thanks! But is there anything I can clarify?
I think we deserve a video on toplogy (:
This is totally ASMR I was struck with couple of paragraphs of Griffiths about what does the physical representation of time independent Schroedinger's equation show. But you cleared my concept like Water of Baltic sea. I humbly request you to upload more videos maybe you'll not ended up making more money but you'll ended up making the Dirac's Heisenberg's of this generation
Is it correct to say if a system has constant and well-defined energy then it will also have a well-defined position or momentum?
Not quite: first of all, position and momentum cannot be simultaneously definite by the uncertainty principle. Second, the energy discussed here isn't directly related to position or momentum (by virtue of the fact that it includes the potential in addition to a momentum term in the kinetic energy). That's why a definite energy does not necessarily correspond to a fixed x or p. Hope that helps!
pro trick : watch series on flixzone. I've been using it for watching loads of movies lately.
@Wade Jeremy Yea, been watching on Flixzone} for years myself =)
You are alway right on time with the topics I have for my exams!
What app do you use to write your notes?
Me too i want to know
What books do you follow for quantum mechanics?
If you could do a video about the harmonic oscillator and some about angular momentum, I would be super happy :)
Where is the next series of lectures?
The link for previos videos playlist is broken. Can you pls fix that
It works for me?
@@FacultyofKhan Still not working for me. Is it becoz of location. Am in Canada
The first 1000 people to use the link will get a free trial of Skillshare Premium Membership: skl.sh/facultyofkhan12201
hello hello thank you so much for this amazing serie that u made it's an art for real , i have a qs please on the last video u find a expression for the time dependence eq T(t)= A exp(-iEt/h) but what about the psi(x) function i feel like u ignore it on this video
thank u again
wow!
When even the math professor is recommending this channel because he knows he isn't skilled enough to educate others
Bro's just quoting Griffiths, thanks though
why you just coping the book without your own idea to teach