Is reality at quantum level just probablilistic?

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Discussion Overview

The discussion centers on the nature of reality at the quantum level, specifically whether it is fundamentally probabilistic or if this probabilistic understanding is merely a limitation of human knowledge. Participants explore concepts from quantum mechanics, including randomness in observations and the implications of various theorems.

Discussion Character

  • Exploratory
  • Debate/contested
  • Technical explanation

Main Points Raised

  • Some participants assert that observations in quantum mechanics are inherently random and that this randomness is the best knowledge available to us.
  • Others question whether there might be deterministic processes underlying the apparent randomness, suggesting that current interpretations may not capture the full picture.
  • References to Bell's Theorem and the EPR Paradox are made, with some arguing that these suggest quantum mechanics is not a deterministic process as traditionally conceived.
  • One participant introduces Gleason's Theorem, positing that it indicates a fundamental stochastic nature of quantum events and challenges the notion of hidden variables in quantum mechanics.
  • There are suggestions that quantum mechanics might represent a new theory of probability, diverging from classical interpretations.

Areas of Agreement / Disagreement

Participants express differing views on whether the probabilistic nature of quantum mechanics reflects an inherent feature of reality or if it is a limitation of human understanding. There is no consensus on the existence of deterministic processes behind quantum phenomena.

Contextual Notes

Some arguments depend on interpretations of quantum mechanics and the implications of various theorems, which remain unresolved and open to debate.

Moris526
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Hi. First of all English is not my native language and i am a layperson, so I hope i can explain my self.

It is said that reality at the quantum level is probabilistic, not determined.

My question is : That is really the case or a probabilistic knowledge is the best we can get as humans?

And, if it is probabilistic, how do we know?
 
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Best to leave the word 'reality' out of it I think. That word has a lot of baggage associated with it.

Within quantum theory 'observations' (I'll use this word instead of reality), observations are random. They are inherently random. The probability we will observe a particular value is the best we, and anyone or anything can know, its the best that can be known. We know this from many experiments, from the double slit experiment to tests of the Bell Inequalities. Understanding these experiments and what they entail can be confusing. But what they do entail is that observed quantities are random.
 
Hi. Modus.

The values observed are random but how do we know that there is not a deterministic proceses behind the apparent random value?. Like a random emulation in a computer program.

Thanks for the answer.
 
Moris526 said:
Hi. Modus.

The values observed are random but how do we know that there is not a deterministic processes behind the apparent random value?. Like a random emulation in a computer program.

When you have a chance, search the web for "Bell's Theorem" and "EPR Paradox".

The EPR paper (written by Einstein, Podolsky, and Rosen in 1935) made a very strong argument that there should/must be such a deterministic process underlying QM; or as they phrased it, 1935-vintage QM is "incomplete".

In 1964 John Bell discovered his theorem, which basically says that any theory that Einstein and company would have accepted as complete must necessarily disagree with the predictions of quantum mechanics under some circumstances. Over the next few decades, various experiments have tested these predictions under those circumstances, and the QM predictions have been confirmed.

So, despite ongoing metaphysical debate about what quantum mechanics IS, there is general agreement that it IS NOT a deterministic process of the type that EPR had in mind and that (I think) you are thinking of.

Your analogy with a computer program emulating the randomness is good - take a moment to google for "DrChinese Challenge" and "Quantum Randi Challenge".
 
Moris526 said:
My question is : That is really the case or a probabilistic knowledge is the best we can get as humans?

As humans, yes.

If there is a deterministic set of laws for the universe, they are certainly outside the realm of science. If such laws do exist, even knowing them would not help us better predict experiments than we already can.
 
There seems to be a very deep feature of nature that at a fundamental level it is probabilistic. Check out Gleasons Theorem:
http://en.wikipedia.org/wiki/Gleason's_theorem
Gleason's theorem highlights a number of fundamental issues in quantum measurement theory. The fact that the logical structure of quantum events dictates the probability measure of the formalism is taken by some to demonstrate an inherent stochasticity in the very fabric of the world. To some researchers, such as Pitowski, the result is convincing enough to conclude that quantum mechanics represents a new theory of probability. Alternatively, such approaches as relational quantum mechanics make use of Gleason's theorem as an essential step in deriving the quantum formalism from information-theoretic postulates.
The theorem is often taken to rule out the possibility of hidden variables in quantum mechanics. This is because the theorem implies that there can be no bivalent probability measures, i.e. probability measures having only the values 1 and 0. Because the mapping is continuous on the unit sphere of the Hilbert space for any density operator W. Since this unit sphere is connected, no continuous function on it can take only the value of 0 and 1. [2] But, a hidden variables theory which is deterministic implies that the probability of a given outcome is always either 0 or 1: either the electron's spin is up, or it isn't (which accords with classical intuitions). Gleason's theorem therefore seems to hint that quantum theory represents a deep and fundamental departure from the classical way of looking at the world, and that this departure is logical, not interpretational, in nature.

Also check out:
http://arxiv.org/pdf/quant-ph/0101012v4.pdf

It seems QM is pretty much the only theory possible if you require the possible states to continuously change to other states - which if you think about it is basically what you want of physical systems.

Thanks
Bill
 

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