Schrödinger equation: Difference between revisions
Jump to navigation
Jump to search
No edit summary |
|||
| Line 11: | Line 11: | ||
H^=−ℏ22me(∇21+∇22)+V(r1)+V(r2)+V(r12) | H^=−ℏ22me(∇21+∇22)+V(r1)+V(r2)+V(r12) | ||
Variable assignment: | Variable assignment: | ||
r1 = key.x1 | <nowiki> | ||
let r1 = Math.sqrt(key.x1^2 + key.y1^2); | |||
let r2 = Math.sqrt(key.x2^2 + key.y2^2); | |||
let me = key.maxFreq * key.maxAmp; | |||
let e = eigenfunction; | |||
Revision as of 15:34, 18 February 2023
| EditDate | 2023/02/18 |
|---|
Related Threads:
I want to incorporate the Schrödinger equation into my visualizations.
Hope to better understand the Schrödinger equation and improve the visualizations.Web References https://en.wikipedia.org/wiki/Schr%C3%B6dinger equation
Torn between Bounce and black light.
Schrödinger equation For Multi-Electron Atoms
Want to incorporate this equation:
H^=−ℏ22me(∇21+∇22)+V(r1)+V(r2)+V(r12)
Variable assignment:
<nowiki>
let r1 = Math.sqrt(key.x1^2 + key.y1^2); let r2 = Math.sqrt(key.x2^2 + key.y2^2); let me = key.maxFreq * key.maxAmp; let e = eigenfunction;