QM and Free Will: Can They Coexist?

In summary, the conversation discusses the idea of free will and determinism in the context of quantum mechanics. Some argue that there is a possibility for free will to exist within a deterministic universe, while others suggest that the uncertainty principle and Bell's theorem imply a certain level of indeterminism. The concept of particle consciousness is also brought up, with some proposing that each quantum particle may possess a small amount of consciousness. However, this idea is still debated and not widely accepted in the scientific community. Ultimately, the conversation highlights the ongoing discussion and exploration of the relationship between free will and determinism in the realm of physics.
  • #1
agnostictheist
57
0
can these things go together, for me - how can one have free will without excerising the abliity to use there will in actions, that not to say that all actions thus are a result of ones will, for example other peoples might interfere, or even other events, but there seems that on some level and does not need to be universal some form of determinsim is required, unless anyone has any ideas how this might not be the case, please present them!

So the universe might not hold to cause and effect of determisn, however on some level cause and effect does exist in a local fashion this might be an result of a habit has hume said, or maybe how our minds etc actually can effect reality?

the question I am asking.. is does QM or any other phyiscs at presnt dis regard the possiblity of free will?
 
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  • #2
That is conceivable. There was a recent paper from a well known physicist, expert in Quantum Mechanics, Bernard d'Espagnat: Consciousness and the Wigner's friend problem where the inherent QM indeterminacy is proposed as the leverage by which the consciousness may affect physical reality. Another well known physicist and a QM expert speculating along the similar lines is Henry P. Stapp, e.g. in paper Quantum theory and the role of mind in nature. While I don't personally agree with either, it is a possibility.
 
  • #3
Free will and predestination are relative concepts. They only apply to things existing within time. Furthermore, We know that for anything to be "predesined" there must be a "predestiner." Basically, the microcosm (spiritual reality) has absolute free will and the macrocosm (physicsal matter and time) are absolutely predestined. This explains astrology, i-ching, tarot cards, runes, etc.

The Hiesenberg uncertainty principle implies that the cosmos in not totally deterministic. A;lthough even complete chaos is a flavor of complete determinism. It isn't that either.
 
  • #4
Originally posted by elwestrand
The Hiesenberg uncertainty principle implies that the cosmos in not totally deterministic. A;
No it doesn't imply indeterminism since it is a property of Fourier transforms valid for any wave theory (such as classical electrodynamics, a perfectly deterministic theory). In the early years of QM, the HUP was informally thought to imply indeterminism but Einstein's and Schroedinger's critique (based on entangled states) has made such interpretation of HUP untennable.

Subsequently, it was believed for couple decades that von Neumann's proof (1932) of impossibility of Hidden Variables shows fundamental indeterminism of QM. That proof was found inadequate in early 1950s when Bohm created deterministic theory which reproduced all predictions of conventional Quantum Mechanics, providing a direct counterexample to von Neumann's proof. Another proof, seemingly stronger was produced by Kochen & Specker, but that one was inadequate as well.

In early 1960s, J.S. Bell came up with a weaker substitute for von Neumann's & Kochen-Specker's HV impossibility proofs. Bell's proof claimed to demonstrate impossibility of a local deterministic theories only (but it allows for non-local deterministic theories). The experiments so far, after over three decades of attempts, haven't been able to establish the violation of Bell's inequalities (which would indicate impossibility of local deterministic theories). Another thread ***EPR Experiment with Pool Balls*** has much more details and links on this topic.
 
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  • #5
"free will"

Originally posted by nightlight
No it doesn't imply indeterminism since it is a property of Fourier transforms valid for any wave theory (such as classical electrodynamics, a perfectly deterministic theory). In the early years of QM, the HUP was informally thought to imply indeterminism but Einstein's and Schroedinger's critique (based on entangled states) has made such interpretation of HUP untennable.

Subsequently, it was believed for couple decades that von Neumann's proof (1932) of impossibility of Hidden Variables shows fundamental indeterminism of QM. That proof was found inadequate in early 1950s when Bohm created deterministic theory which reproduced all predictions of conventional Quantum Mechanics, providing a direct counterexample to von Neumann's proof. Another proof, seemingly stronger was produced by Kochen & Specker, but that one was inadequate as well.

In early 1960s, J.S. Bell came up with a weaker substitute for von Neumann's & Kochen-Specker's HV impossibility proofs. Bell's proof claimed to demonstrate impossibility of a local deterministic theories only (but it allows for non-local deterministic theories). The experiments so far, after over three decades of attempts, haven't been able to establish the violation of Bell's inequalities (which would indicate impossibility of local deterministic theories). Another thread ***EPR Experiment with Pool Balls*** has much more details and links on this topic.

Bells theorum implies particle wisdom. This seems to imply a "free will" choice. On the last page of this thread is more info.
https://www.physicsforums.com/showthread.php?s=&postid=148829#post148829
 
  • #6


Originally posted by Rader
Bells theorum implies particle wisdom. This seems to imply a "free will" choice. On the last page of this thread is more info.
https://www.physicsforums.com/showthread.php?s=&postid=148829#post148829

No, Bell's theorem and the subsequent experiments do not imply particle wisdom. The quantum mechanical concept of the entangled state is perfectly clear and doesn't require either particle to "know" about the other. If you separate a pair of gloves, and send one to each of two separated friends, then the one who receives the left handed glove can conclude that the other friend received the right handed glove. Do the gloves "know" about each other? Rather the information inheres in the set-up of the experiment, just as Bohr claimed against Einstein.

On the other hand d'Espagnat's paper, linked by nightlight above, does assume particle consciousness, or rather concludes it on the basis of a careful analysis of the Wigner's friend thought experiment. Each quantum thingy is supposed to have a little bit of consciousness, but being quantum that consciousness is not predictive. But with many particles comes decoherence, and some kind of mean field predictiveness that is much more accurate, and thus to us. Read the whole thing
 
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  • #7
something missing

selfAdjoint
For some reason the server of nightlight denies me acces to the sites that are linked from this part of the world. Could that info be linked another way so i could read it.

I have been thinking about this paradox for some time. You know the experiment with polarized light using three filters. How can a photon pass through a vertical filter, diagonal filter horizontal filter in line? According to QM diagonally polarized light, is not a mixture of horizontally polarized light, or vertically polarized light. How can we say that the horizontal components of diagonally polarized light passed through the horizontal polarizer and the vertical components of the diagonally polarized light passed through the vertical polarizer? According to QM, diagonally polarized light is a separate thing in itself. How can a separate thing in itself get through all three filters but not through two? Is light, particle or wave or something else? How can a photon be broken down into horizontal polarized component or vertical polarized component? It should not be possible. The paradox seems to be, the difference between quantum logic and classical logic. Could it be, because, our thought processes, are following the laws of classical logic? Do what we see, we know to be impossible. Polarization of light is one way or another. We are in effect, ignorant of the fact what is seen. Experience does not follow the rules of classical logic, it follows quantum logic. Nothing is either this or that in quantum logic or the realm of experience, it is much more.

Maybe light that is wave or particle is neither wave or particle, we just think it is and is just "quantas", Could not then that third possibility, of not either or be the "free will choice"

Let me know if this seems at all coherent? This topic is way out of my ballpark but is of utmost interest to me.
I have just found thïs. http://www.poco.phy.cam.ac.uk/~mjd1014/stappr.html [Broken]
http://www-physics.lbl.gov/~stapp/stappfiles.html
 
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  • #8
Rader, on getting d'Espagnat's paper, it is quant-ph/0402121 on the preprint arxiv, http://arxiv.org, [Broken] perhaps you have a mirror site?

On the polarization question, the z-direction polarization would be charaterized by a photon state (0,0,1), the y-direction by (0,1,0), and the 45 degree orientation by [tex] (\surd{2}, \surd{2}, 0)[/tex]. Together with the rules for adding angular momentum, this should give the classic polarization results.
 
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  • #9
Flying a kite here. Is this right or wrong?

In regard to 'microphenominalism' (particle wisdom) it is interesting that the only two examples of probablistic behaviour of which we know are that of micro-phenomena and that of conscious beings. All other examples are a just a function of our lack of knowledge of the determining parameters.

It might be objected that conscious behaviour is strictly physically determined, but at the moment that is a conjecture. It appears to be probablistic, hence the primacy of statistical data in sociology etc. rather than individual cases.

Are there any other cases of probablistic behaviour? If not then it would seem that we have some strange and rare property in common with electrons.

Then again this might be nonsense.
 
  • #10
On this issue of "other conscious things" I have a problem with d'Espagnat. He says that as decoherence increases, accuracy of microconscious prediction gets better, and that's how microconsciousness becomes macroconsciousness. But by the time you have Avogadro's number of atoms or molecules - a tiny drop of water, say - you have matter that behaves classically. In other words, decoherence has maxed out. So is a drop of water macroconscious? Is a rock? According to d'Espagnat, it seems to me, they would be.
 
  • #11
Originally posted by selfAdjoint
On this issue of "other conscious things" I have a problem with d'Espagnat. He says that as decoherence increases, accuracy of microconscious prediction gets better, and that's how microconsciousness becomes macroconsciousness. But by the time you have Avogadro's number of atoms or molecules - a tiny drop of water, say - you have matter that behaves classically. In other words, decoherence has maxed out. So is a drop of water macroconscious? Is a rock? According to d'Espagnat, it seems to me, they would be.
I don't have the knowledge to entirely understand d'Espagnat's article, although as far as I do it seems to make a lot of sense. I didnt notice any implication that drops of water are conscious. I assumed that large collections of microscopic consciousness entities become a single 'classical' entity due to statistical probability, not shared consciousness. But I may well have misunderstood.

I'm not clear exactly what he means by the term 'predictive consciousness'. If you are can you clarify it for me?
 
  • #12
Does d'Espagnat have a website. I can not get to any of the links or mirror sites posted on this thread. I would like to read this and comment on it. d'Espagnat's paper, it is quant-ph/0402121
e-mail: matthew.donald@phy.cam.ac.uk
address: Dr. Matthew J. Donald,
The Cavendish Laboratory,
Madingley Road,
Cambridge, CB3 0HE,
Britain.
web site: http://www.poco.phy.cam.ac.uk/~mjd1014 [Broken]
The physics e-print server does have a Spanish mirror which is at http://es.arXiv.org/
abstract for d'Espagnat's paper at http://es.arXiv.org/abs/quant-ph/0402121
These links work in Europe if anyone has the same problem.
 
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1. What is quantum mechanics and how does it relate to free will?

Quantum mechanics, also known as quantum physics, is a branch of physics that studies the behavior of matter and energy at a very small scale, such as atoms and particles. It describes the probabilistic nature of particles and their interactions. The concept of free will, on the other hand, refers to the ability of an individual to make choices and decisions that are not predetermined by external factors. Some theories in quantum mechanics suggest that particles behave in a probabilistic manner, which raises questions about the existence of free will.

2. Can quantum mechanics explain the existence of free will?

There is no consensus among scientists about whether quantum mechanics can fully explain the existence of free will. Some argue that the probabilistic nature of particles allows for the possibility of free will, while others believe that free will is purely a biological and psychological phenomenon that cannot be explained by quantum mechanics.

3. What evidence supports the coexistence of quantum mechanics and free will?

Currently, there is no scientific evidence that definitively proves or disproves the coexistence of quantum mechanics and free will. Some studies have shown that quantum effects can have an influence on biological processes, which could potentially play a role in decision-making and free will. However, more research is needed to fully understand the relationship between quantum mechanics and free will.

4. Are there any philosophical implications of the coexistence of quantum mechanics and free will?

The coexistence of quantum mechanics and free will has sparked many philosophical debates and discussions. Some argue that if quantum mechanics can explain free will, it would challenge the traditional determinism of classical physics. Others believe that even if quantum mechanics can explain free will, it does not necessarily mean that free will exists in the way we commonly perceive it.

5. How does the interpretation of quantum mechanics affect the concept of free will?

The interpretation of quantum mechanics is a highly debated topic among scientists and philosophers. Different interpretations, such as the Copenhagen interpretation and the many-worlds interpretation, have different implications for the concept of free will. Some interpretations suggest that free will may be possible, while others argue that it is an illusion. Ultimately, the relationship between quantum mechanics and free will is still a complex and ongoing topic of discussion.

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