Absolutely beautiful exposition of Group and Phase velocity! Those slanted lines were great!

I believe I heard it from the Leonard Suskind lectures about how classical physics is what emerges when you take the collective averages into consideration. and you kind of demonstrated that here with the k bar at 30:30. Amazing.

Check your understanding: 1) False: for k

Yet another superb video. This is a really interesting series, very well explained and described. Thank you professor once again.

what is the answer to the "check your understanding" qst. Its pretty hard to check ones understanding not knowing the answer.

Did I just watch a twisted derivation of the Fourier Transform? :O

Thanks ... I really liked the introduction of wave packet ....

excellent work about group velocity and phase velocity understood it at right the last animation thanks so much

Thank you very much!! beautifully explained.

18:25 Check your understanding: I simplified my answer down to (1/(2*sqrt(pi * a))) * (ike^(ika) - ike^(-ika)). 35:45 Check your understanding: All false, but that's a Hail Mary from me. I have no idea about this part, I'll appreciate anyone who can explain (for me and those who come after). Let me know if anyone differs in answers, thanks!

Great course! Thanks a lot man

28:24 that should have a t (as corrected later at 30:12)

21:54 Quantum Mechanics in a nutshell

Why did you assume k_1 is approximately equal to k_2 at the end there? What would happen if you assumed the difference between k_1 and k_2 is arbitrary?

Many thanks! it helps me a lot :D

thanx a lot :)

There is a mistake: Integrate(exp(ikx) exp(-Ik'x))=2 Pi delta(k-k'), not just delta(k-k')

Seriously this person is very confusing.