Wolfram Physics Project: Working Session Thursday, May 7, 2020 [Quantum Effects | Part 2]
ฝัง
- เผยแพร่เมื่อ 6 พ.ค. 2020
- This is a Wolfram Physics Project working session on Bell's-like inequalities and other quantum effects in the Wolfram Model. Begins at 10:05
Originally livestreamed at: / stephen_wolfram
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![Wolfram Physics Project: Working Session Tuesday, May 5, 2020 [Finding Black Hole Structures]](http://i.ytimg.com/vi/L71ieCgJuLI/mqdefault.jpg)
![Wolfram Physics Project: Working Session Thursday, May 21, 2020 [Quantum Computing in Our Models]](/img/n.gif)
Download the notebooks for this session!
It seems to me that quantum entanglement can be achieved by physical reality only being made of classical waves. Think of particles with definite positions in spatial 3D and then transform it into a frequency 3D space with a Fourier transform. The sine waves making up the spectrum are nonlocal in the sense that they span the whole 3D space. And the localities of the particles are simply a result of adding these nonlocal sine waves together. And a single sine wave can be a component of two or more particles, so when the sine wave changes, all those particles change instantly and nonlocally.
Good luck on this project.
Any sequence has a trivial single threaded rule, namely itself.
Can be the cosmic microwave background image be used to compare automatic generated rules in the search for "the rule" in the first fractions of time of the universe? (Sorry for my english)
2:31:05
start @