[effie]

> there are no hidden variables such that a particle really took only one path to a point and we just don’t know which one it was.

We don't know that. It is a statement of your belief in such interpretation of quantum theory.

But I wasn't suggesting hidden variables predict which path will be taken - that is a different idea. I admit my description was somewhat confusing. My point is that retrodiction of trajectory is much easier than prediction of trajectory, because of records of the past. In other words, past is constrained by existing records of the past, while future is not constrained by records of the future, because those do not exist yet.

This retrodicted past is still loaded with uncertainty stemming from the records having uncertainty, and is speculative and not experimentally testable, of course.

> It really did go through all of them. All the ones that are consistent with the current state of the system.

This is also a speculative statement that is experimentally untestable. And I agree it is consistent with quantum theory, if we add "...and consistent with records of the past". So both stances are just an interpretation of what is going on, there is no experimentally testable idea here.

[fallingfrog]

>We don't know that. It is a statement of your belief in such interpretation of quantum theory.

No, Bell’s Theorem conclusively proved it.

From Wikipedia: “To date, Bell tests have consistently found that physical systems obey quantum mechanics and violate Bell inequalities; which is to say that the results of these experiments are incompatible with any local hidden-variable theory.”

[effie]

Bell's Theorem does not prove that. It is a theorem itself, so this theorem has been proven using quantum theory and other assumptions in Bell's paper.

In the quote, notice "Bell tests...have consistently found" and the word local. So not the Theorem, but the "Bell test" experiments' results, when interpreted using theorems like the Bell theorem and similar, show nature manifests non-local behaviour. They do not prove your belief that hidden variables do not exist.

More details on this:

http://www.scholarpedia.org/article/Bell%27s_theorem#Missing...

Also, I recommend using more reliables sources than Wikipedia to argue a point about physics. It is not a reliable source, even though it is useful for discovery and occasionaly is correct.

[fallingfrog]

Oh ok. So bells theorem is wrong and I have to cite scientific sources to convince some random person on the internet.

Look: i have a degree in physics, and I also don’t have time to argue with you. You don’t want to learn? Your loss.

You’re one of those people for whom “winning” is more important than the truth, I think.

You know what? You win. You’ve outlasted me. You’ve successfully learned nothing, and nobody will ever care about your statements about bells inequality because they’re laughably wrong and nobody will read this anyway. Victory is yours!

[effie]

> So bells theorem is wrong

I didn't say that, and I think that statement is wrong.

> i have a degree in physics

Oh my. You lose credibility in an argument about physics when you fall back on authority, and even more, when that authority is supposed to be you.

> I also don’t have time to argue with you. You don’t want to learn? Your loss.

But if you don't have time to argue your point, why did you post it and defended it, and only pull this lack of time now? I would like to learn something from your posts, but so far, you regurgigated the usual incorrect/misleading claims about quantum theory and what the Bell theorem and related experiments imply. So then I thought it is you who may learn something new - please check the article I gave you above. If you do not want to take it from me, take it from people in academia who are better experts on this topic.

> You win. You’ve outlasted me. You’ve successfully learned nothing, and nobody will ever care about your statements about bells inequality because they’re laughably wrong and nobody will read this anyway. Victory is yours!

I disagree, because my aim was to learn or make you learn something I know, and so far I think I didn't succeed in any of those. So, please check the article in the link, if you have genuine interest in this topic.