@ 12:26 You can think of it like that, but that's not what's happening in this model. Everything is stationary. By the way, a single particle represented by a plane wave??? Mr Zwiebach is an expert in quantum-mechanical fairy tales.
i don't hear him mentioning plane waves in this situation but yes generally single free particles are described by plane waves. btw no idea what you mean by everything is stationary. only fairy tale is you thinking you know physics
@@skippyjacksonthesecond Haha, an energy eigenstate is a stationary state. However, in scattering this is rather strange (14:33) because scattering is a kind of perturbation. So using energy eigenstates here is fairy-tale like. P.S. One day you will understand this ;-)
Thanks 🤍❤️
4:58 hadrons*
15:07 -new- *do*
This is helpful ❤️🤍
@ 12:26 You can think of it like that, but that's not what's happening in this model. Everything is stationary. By the way, a single particle represented by a plane wave??? Mr Zwiebach is an expert in quantum-mechanical fairy tales.
He is taking baby steps in a lecture. Fairy tales are useful in such cases.
@@SSNewberry Aha ;-)
i don't hear him mentioning plane waves in this situation but yes generally single free particles are described by plane waves. btw no idea what you mean by everything is stationary. only fairy tale is you thinking you know physics
@@skippyjacksonthesecond Haha, an energy eigenstate is a stationary state. However, in scattering this is rather strange (14:33) because scattering is a kind of perturbation. So using energy eigenstates here is fairy-tale like. P.S. One day you will understand this ;-)
With all due respect you should start monetizing your video that will also help you
That's MIT they don't have any financial problems & the adds would reduce the value of the lects..
@@dm3248 how exactly would it reduce the value?
@@abhishektyagi4428 Because I don't want to be interrupted by someone trying to sell me some crap while I'm studying
@@maellaouiti8763 ayo 😒😂
@@maellaouiti8763 Just use an Add-blocker.