Sci.Physics.Foundations

Joy Christian wrote: ↑Tue Sep 03, 2024 8:11 pm

FrediFizzx wrote: ↑Tue Sep 03, 2024 6:48 pm

Joy Christian wrote: ↑Tue Sep 03, 2024 1:55 pm
As I said, lambda can be anything you like. ...

And that would be manifestly wrong! I think we found your problem.
.

What problem? [... snip nonsensical rant ...]

FrediFizzx wrote: ↑Tue Sep 03, 2024 6:48 pm

Joy Christian wrote: ↑Tue Sep 03, 2024 1:55 pm

FrediFizzx wrote: ↑Tue Sep 03, 2024 1:26 pm Sorry, lambda can't be anything. It can't be a "factor that is accounted for in the standard quantum mechanics framework."

So, not really a precise mathematical definition.

As I said, lambda can be anything you like. ...

And that would be manifestly wrong! I think we found your problem.
.

Joy Christian wrote: ↑Tue Sep 03, 2024 1:55 pm

FrediFizzx wrote: ↑Tue Sep 03, 2024 1:26 pm Sorry, lambda can't be anything. It can't be a "factor that is accounted for in the standard quantum mechanics framework."

So, not really a precise mathematical definition.

As I said, lambda can be anything you like. ...

FrediFizzx wrote: ↑Tue Sep 03, 2024 1:26 pm Sorry, lambda can't be anything. It can't be a "factor that is accounted for in the standard quantum mechanics framework."

So, not really a precise mathematical definition.

FrediFizzx wrote: ↑Tue Sep 03, 2024 10:16 am

Joy Christian wrote: ↑Mon Sep 02, 2024 2:36 pm

FrediFizzx wrote: ↑Mon Sep 02, 2024 1:02 pm "In quantum physics, a **hidden variable** refers to an underlying deterministic factor that is not accounted for in the standard quantum mechanics framework. The idea is that the probabilistic nature of quantum mechanics could be explained by these hidden variables, which determine the outcomes of quantum events in a predictable way."

Does anyone disagree with this definition of hidden variable?

Correct but quite a vague definition. I have a mathematically precise definition of what is meant by "hidden variables" in Section II of this paper.

Oh boy, you really got sucked into the hidden variable nonsense big time! However, I didn't find any math expression for what lambda is equal to.
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Joy Christian wrote: ↑Mon Sep 02, 2024 2:36 pm

FrediFizzx wrote: ↑Mon Sep 02, 2024 1:02 pm "In quantum physics, a **hidden variable** refers to an underlying deterministic factor that is not accounted for in the standard quantum mechanics framework. The idea is that the probabilistic nature of quantum mechanics could be explained by these hidden variables, which determine the outcomes of quantum events in a predictable way."

Does anyone disagree with this definition of hidden variable?

Correct but quite a vague definition. I have a mathematically precise definition of what is meant by "hidden variables" in Section II of this paper.

FrediFizzx wrote: ↑Mon Sep 02, 2024 1:02 pm "In quantum physics, a **hidden variable** refers to an underlying deterministic factor that is not accounted for in the standard quantum mechanics framework. The idea is that the probabilistic nature of quantum mechanics could be explained by these hidden variables, which determine the outcomes of quantum events in a predictable way."

Does anyone disagree with this definition of hidden variable?

FrediFizzx wrote: ↑Mon Aug 26, 2024 2:54 pm

Joy Christian wrote: ↑Mon Aug 26, 2024 1:07 pm

FrediFizzx wrote: ↑Mon Aug 26, 2024 10:29 am
LOL! "5. **Oxford Handbook of the History of Quantum Mechanics**: This resource provides a detailed account of Einstein's presentation of a hidden variable theory at the 1927 meeting of the Prussian Academy of Sciences⁵." Which he sub-sequentially withdrew. Probably realized it was a bunch of nonsense. You will eventually realize that also. You just have to give up some of your stubborn notions.
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Ok. So, quote Einstein's exact words from that source that include the phrase "hidden variables." I claim that he never used those words, ever.

In any case, I have no problem with hidden variables, and no intention to give them up.

Double LOL! You just don't "get it" at all do you? Still clinging to stubborn notions. It doesn't matter if he never used those words. He obviously knew about it if he presented a hidden variable theory! Apparently, he quickly realized it was nonsense. And..., you will eventually realize it is pure nonsense. Probably will take a while though.
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Joy Christian wrote: ↑Mon Aug 26, 2024 1:07 pm

FrediFizzx wrote: ↑Mon Aug 26, 2024 10:29 am

Joy Christian wrote: ↑Sun Aug 25, 2024 6:32 pm .
Garbage produced by copy-a-lot. But even that genius AI bot cannot find a direct quote from Einstein using the words "hidden variables."

No AI bot can rival my 40 years of expert knowledge in the foundations of quantum mechanics. Surely, you, of all people, know that.

LOL! "5. **Oxford Handbook of the History of Quantum Mechanics**: This resource provides a detailed account of Einstein's presentation of a hidden variable theory at the 1927 meeting of the Prussian Academy of Sciences⁵." Which he sub-sequentially withdrew. Probably realized it was a bunch of nonsense. You will eventually realize that also. You just have to give up some of your stubborn notions.
.

Ok. So, quote Einstein's exact words from that source that include the phrase "hidden variables." I claim that he never used those words, ever.

In any case, I have no problem with hidden variables, and no intention to give them up.

FrediFizzx wrote: ↑Mon Aug 26, 2024 10:29 am

Joy Christian wrote: ↑Sun Aug 25, 2024 6:32 pm .
Garbage produced by copy-a-lot. But even that genius AI bot cannot find a direct quote from Einstein using the words "hidden variables."

No AI bot can rival my 40 years of expert knowledge in the foundations of quantum mechanics. Surely, you, of all people, know that.

LOL! "5. **Oxford Handbook of the History of Quantum Mechanics**: This resource provides a detailed account of Einstein's presentation of a hidden variable theory at the 1927 meeting of the Prussian Academy of Sciences⁵." Which he sub-sequentially withdrew. Probably realized it was a bunch of nonsense. You will eventually realize that also. You just have to give up some of your stubborn notions.
.

Joy Christian wrote: ↑Sun Aug 25, 2024 6:32 pm .
Garbage produced by copy-a-lot. But even that genius AI bot cannot find a direct quote from Einstein using the words "hidden variables."

No AI bot can rival my 40 years of expert knowledge in the foundations of quantum mechanics. Surely, you, of all people, know that.

Joy Christian wrote: ↑Sun Aug 25, 2024 12:39 pm

FrediFizzx wrote: ↑Sun Aug 25, 2024 12:18 pm

Joy Christian wrote: ↑Sat Aug 24, 2024 11:12 pm
Einstein never mentioned "hidden variables" anywhere in his writings. He didn't like Bohm's hidden variable theory and called it "cheap." The phrase "hidden variable" became popular later, especially after the pioneering work by von Neumann in 1932, but his treatment concerns dispersion-free states that do not necessarily involve hidden variables. In any case, I am perfectly happy with hidden variables since the 3-sphere model is a hidden variable model. The first successful "hidden variable theory" was statistical mechanics that explained thermodynamical behavior (such as Brownian motion) in terms of microstates.

That quantum mechanics is an incomplete theory of objective reality was first demonstrated by Einstein, Podolsky, and Rosen in 1935 without mentioning hidden variables or dispersion-free states. It is a logically impeccable argument. There is no way out of the fact that quantum mechanics is "incomplete."

"Einstein famously referred to the phenomenon of quantum entanglement as “spooky action at a distance,” suggesting that hidden variables must be at work to explain how information about one particle could instantaneously affect another particle, even if they were light-years apart."

https://scienceworld.wolfram.com/physic ... ables.html

It doesn't matter if QM is complete or not, Classical mechanics is probably incomplete also. Together they give a good description of Nature.

What is a hidden variable in the 3-sphere model?

Wolfram does not know what he is talking about. Einstein never used the words "hidden variables", ever, in his writings. This is quite well known.

I am not answering your question about the hidden variable in the 3-sphere model again. We have discussed it at length before and we disagree.

FrediFizzx wrote: ↑Sun Aug 25, 2024 12:18 pm

Joy Christian wrote: ↑Sat Aug 24, 2024 11:12 pm

FrediFizzx wrote: ↑Sat Aug 24, 2024 3:16 pm It is pretty unbelievable that a genius like Einstein got sucked into the hidden variable nonsense but then along comes another genius, Bell, and makes it worse by also getting sucked into it.
.

Einstein never mentioned "hidden variables" anywhere in his writings. He didn't like Bohm's hidden variable theory and called it "cheap." The phrase "hidden variable" became popular later, especially after the pioneering work by von Neumann in 1932, but his treatment concerns dispersion-free states that do not necessarily involve hidden variables. In any case, I am perfectly happy with hidden variables since the 3-sphere model is a hidden variable model. The first successful "hidden variable theory" was statistical mechanics that explained thermodynamical behavior (such as Brownian motion) in terms of microstates.

That quantum mechanics is an incomplete theory of objective reality was first demonstrated by Einstein, Podolsky, and Rosen in 1935 without mentioning hidden variables or dispersion-free states. It is a logically impeccable argument. There is no way out of the fact that quantum mechanics is "incomplete."

"Einstein famously referred to the phenomenon of quantum entanglement as “spooky action at a distance,” suggesting that hidden variables must be at work to explain how information about one particle could instantaneously affect another particle, even if they were light-years apart."

https://scienceworld.wolfram.com/physic ... ables.html

It doesn't matter if QM is complete or not, Classical mechanics is probably incomplete also. Together they give a good description of Nature.

What is a hidden variable in the 3-sphere model?
.

Joy Christian wrote: ↑Sat Aug 24, 2024 11:12 pm

FrediFizzx wrote: ↑Sat Aug 24, 2024 3:16 pm It is pretty unbelievable that a genius like Einstein got sucked into the hidden variable nonsense but then along comes another genius, Bell, and makes it worse by also getting sucked into it.
.

Einstein never mentioned "hidden variables" anywhere in his writings. He didn't like Bohm's hidden variable theory and called it "cheap." The phrase "hidden variable" became popular later, especially after the pioneering work by von Neumann in 1932, but his treatment concerns dispersion-free states that do not necessarily involve hidden variables. In any case, I am perfectly happy with hidden variables since the 3-sphere model is a hidden variable model. The first successful "hidden variable theory" was statistical mechanics that explained thermodynamical behavior (such as Brownian motion) in terms of microstates.

That quantum mechanics is an incomplete theory of objective reality was first demonstrated by Einstein, Podolsky, and Rosen in 1935 without mentioning hidden variables or dispersion-free states. It is a logically impeccable argument. There is no way out of the fact that quantum mechanics is "incomplete."