this post was submitted on 19 Mar 2024
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Petulant electrons, I guess.
This meme is about the difference in scales. When your electron's delocalization is much greater than other scales in your system, the electron behaves like a wave. Otherwise if the electron's delocalization is the smallest scale, it behaves like a particle.
If you can look at the setup of an experiment with your bare eyes, the electron behaves like a particle. If you cannot - it may behave like a wave.
You can see wave properties from a double slit setup with your bare eyes. Here's someone who did it with a cardboard box.
https://youtu.be/Iuv6hY6zsd0?si=TIlEJa4AJQhh8da4
If you setup a detector that measures which path the particles took, the interference pattern disappears- again something you can see with your bare eyes.
For electrons you can't do it. Either way the interference is not a quantum effect and the detector that you are talking about is a simple reemiting device that detects the wave vector and creates the wave in the same direction. Now live with that.
https://www.researchgate.net/figure/Electron-Fringe-Pattern-after-a-10-electrons-b-100-electrons-c-3-000_fig2_253550263
Why are you giving me a theoretical paper? It doesn't even have sizes, but I assume that the distance between two holes is about 1um, which you cannot see with your bare eyes
https://www.hitachi.com/rd/research/materials/quantum/doubleslit/index.html
So bacteria don't exist either because you need a microscope to see them?
Wtf are you assuming
Yeah 😞