stem/Quantum/Wave Function.md
andy 64276f270d vault backup: 2023-05-23 17:05:48
Affected files:
.obsidian/graph.json
.obsidian/workspace-mobile.json
.obsidian/workspace.json
STEM/AI/Literature.md
STEM/AI/Neural Networks/MLP.md
STEM/AI/Properties.md
STEM/Quantum/Orbitals.md
STEM/Quantum/Schrödinger.md
STEM/Quantum/Wave Function.md
STEM/Signal Proc/Convolution.md
STEM/Signal Proc/Image/Image Processing.md
STEM/img/hydrogen-electron-density.png
STEM/img/hydrogen-wave-function.png
STEM/img/orbitals-radius.png
STEM/img/radial-equations.png
STEM/img/radius-electron-density-wf.png
STEM/img/wave-function-nodes.png
STEM/img/wave-function-polar-segment.png
STEM/img/wave-function-polar.png
2023-05-23 17:05:48 +01:00

21 lines
558 B
Markdown

$$\psi(r,\theta,\phi)=R(r)\cdot Y_{ml}(\theta, \phi)$$
Wave functions are products of
Radial Function
- $R_{n,l}(r)$
Spherical Harmonic
- $Y_{ml}(\theta, \phi)$
Forms [[Orbitals]]
Absolute value of wave function squared gives probability density of finding electron inside differential volume $dV$ centred on $r, \theta, \phi$
$$|\psi(r,\theta,\phi)|^2$$
![[wave-function-polar.png]]
![[hydrogen-wave-function.png]]
![[wave-function-polar-segment.png]]
![[wave-function-nodes.png]]
![[hydrogen-electron-density.png]]
![[radius-electron-density-wf.png]]