Interesting question! My answer is basically a long warning about essentialism: this question might seem like it’s stepping down from the realm of human models to the realm of actual things, to ask about the essence of those things. But I think better answers are going to come from stepping up from the realm of models to the realm of meta-models, to ask about the properties of models.
At the most basic level of description, things—the quantum fields or branes or whatever—just do what they do. They don’t do it nondeterministically, but they also don’t do it deterministically! Without recourse to human models, all us humans can say is that the things just do what they do—models are the things that make talk about categories possible in the first place.
Any answer of the sort “no, things can always be rendered into a deterministic form by treating ‘random’ results as fixed constants” or “yes, there are perfectly valid classes of models that include nondeterminism” is going to be an answer about models, within some meta-level framework. And that’s fine!
This can seem unsatisfying because it goes against our essentialist instinct—that the properties in our models should reflect the real properties that things have. If water is considered wet, it’s because water has the basic property or essence of wetness (so the instinct goes).
Note that this doesn’t explain any of the mechanics or physics of wetness. If you could look inside someone’s head as they were performing this essentialist maneuver, they would start with a model (“water is wet”), then they would notice their model (“I model water as wet”), then they would justify themselves to themselves, in a sort of reassuring pat on the back (“I model water as wet because water is really, specially wet”).
I think that this line of self-reassuring reasoning is flawed, and a much better explanation of wetness would be in terms of surface tension and intermolecular forces and so on—illuminating the functional and causal story behind our model of the world, rather than believing you’ve explained wetness in terms of “real wetness”. Also see the story about Bleggs and Rubes.
Long story short, any good explanation for why we should or shoudn’t have nondeterminism in a model is either going to be about how to choose good models, or it’s going to be a causal and functional story that doesn’t preserve nondeterminism (or determinism) as an essence.
I think there’s an interesting question about physics in whether or not (and how) we should include nondeterminism as an option in fundamental theories. But first I just wanted to warn that the question “models aside, are things really nondeterministic” is not going to have an interesting answer.
At the most basic level of description, things—the quantum fields or branes or whatever—just do what they do. They don’t do it nondeterministically, but they also don’t do it deterministically
How do you know? If that claim isn’t based on a model, what is it based on?
much better explanation of wetness would be in terms of surface tension and intermolecular forces and so on
Why? Because they are real properties? Are you saying that only some properties are real, or no properties are real?
Long story short, any good explanation for why we should or shoudn’t have nondeterminism in a model is either going to be about how to choose good models, or it’s going to be a causal and functional story that doesn’t preserve nondeterminism (or determinism) as an essence
Why not? You can explain away some properties in terms of others, but there is, going to be some residue. How do you know that (in)determinism is doomed to be explained away, in advance of a final TOE? What’s wrong with waiting to see what happens?
“At the most basic level of description, things—the quantum fields or branes or whatever—just do what they do. They don’t do it nondeterministically, but they also don’t do it deterministically”
How do you know? If that claim isn’t based on a model, what is it based on?
I’m happy to reply that the message of my comment as a whole applies to this part—my claim about “what things do at a basic level of description” is a meta-model claim about what you can say about things at different levels of description.
It’s human nature to interpret this as a claim that things have some essence of “just doing what they do” that is a competitor to the essences of determinism and nondeterminism, but there is no such essence for the same reasons I’m already talking about in the comment. Maybe I could have worded it more carefully to prevent this reading, but I figure that would sacrifice more clarity than it gained.
The point is not about some “basic nature of things,” the point is about some “basic level of description.” We might imagine someone saying “I know there are some deterministic models of atoms and some nondeterministic models, but are the atoms really deterministic or not?” Where this “really” seems to mean some atheoretic direct understanding of the nature of atoms. My point, in short, is that atheoretic understanding is fruitless (“It’s just one damn thing after another”) and the instinct that says it’s desirable is misleading.
“much better explanation of wetness would be in terms of surface tension and intermolecular forces and so on”
Why? Because they are real properties?
Because they’re part of a detailed model of the world that helps tell a “functional and causal story” about the phenomenon. If I was going to badmouth one set of essences just to prop up another, I would have said so :P
You can explain away some properties in terms of others, but there is, going to be some residue
My point is that this residue is never going to be the “Real Properties,” they’re just going to be the same theory-laden properties as always.
What makes a theory of everything a theory of everything is not that it provides a final answer for which properties are the real properties that atoms have in some atheoretic direct way. It’s that it provides a useful framework in which we can understand all (literally all) sorts of stuff.
I’m happy to reply that the message of my comment as a whole applies to this part
I found parts of your comment as a whole to be unclear or underargued,which is why I asked the questions l.
—my claim about “what things do at a basic level of description” is a meta-model claim about what you can say about things at different levels of description.
I don’t see how you can know what the most basic level of description looks like. (I previously phrased that as a question, which did me no good).
A claim to the effect that no theoretical term applies atheoretically might prove too much - - it might be more of a general point than the OP was getting at.
We might imagine someone saying “I know there are some deterministic models of atoms and some nondeterministic models, but are the atoms really deterministic or not?”
Well, there a kind of fake indeterminism based on an observers lack of information. Someone could asking a question about that rather than what is true atheoretically.
Because they’re part of a detailed model of the world that helps tell a “functional and causal story” about the phenomenon. If I was going to badmouth one set of essences just to prop up another, I would have said so
You seem to be happy enough with functional and causal.
My point is that this residue is never going to be the “Real Properties,” they’re just going to be the same theory-laden properties as always
Are you arguing it or stating it?
What makes a theory of everything a theory of everything is not that it provides a final answer for which properties are the real properties that atoms have in some atheoretic direct way. It’s that it provides a useful framework in which we can understand all (literally all) sorts of stuff
Maybe. Physicalism asserts the opposite, so an argument would be helpful.
I completely agree with the answer above. I’ll also add that, on an object level, all of the models agree about the outcomes of every experiment we’ve ever been able to do. It really doesn’t matter whether you think of an isotope as having a 50% chance of decaying within 12 years, or whether you think of yourself as having a 50% amplitude, over the next `12 years, of branching into universes where the nucleus has decayed. As Feynman put it, “shut up and calculate”—the models work, but asking what they mean is a one-way ticket to epistemology.
Interesting question! My answer is basically a long warning about essentialism: this question might seem like it’s stepping down from the realm of human models to the realm of actual things, to ask about the essence of those things. But I think better answers are going to come from stepping up from the realm of models to the realm of meta-models, to ask about the properties of models.
At the most basic level of description, things—the quantum fields or branes or whatever—just do what they do. They don’t do it nondeterministically, but they also don’t do it deterministically! Without recourse to human models, all us humans can say is that the things just do what they do—models are the things that make talk about categories possible in the first place.
Any answer of the sort “no, things can always be rendered into a deterministic form by treating ‘random’ results as fixed constants” or “yes, there are perfectly valid classes of models that include nondeterminism” is going to be an answer about models, within some meta-level framework. And that’s fine!
This can seem unsatisfying because it goes against our essentialist instinct—that the properties in our models should reflect the real properties that things have. If water is considered wet, it’s because water has the basic property or essence of wetness (so the instinct goes).
Note that this doesn’t explain any of the mechanics or physics of wetness. If you could look inside someone’s head as they were performing this essentialist maneuver, they would start with a model (“water is wet”), then they would notice their model (“I model water as wet”), then they would justify themselves to themselves, in a sort of reassuring pat on the back (“I model water as wet because water is really, specially wet”).
I think that this line of self-reassuring reasoning is flawed, and a much better explanation of wetness would be in terms of surface tension and intermolecular forces and so on—illuminating the functional and causal story behind our model of the world, rather than believing you’ve explained wetness in terms of “real wetness”. Also see the story about Bleggs and Rubes.
Long story short, any good explanation for why we should or shoudn’t have nondeterminism in a model is either going to be about how to choose good models, or it’s going to be a causal and functional story that doesn’t preserve nondeterminism (or determinism) as an essence.
I think there’s an interesting question about physics in whether or not (and how) we should include nondeterminism as an option in fundamental theories. But first I just wanted to warn that the question “models aside, are things really nondeterministic” is not going to have an interesting answer.
How do you know? If that claim isn’t based on a model, what is it based on?
Why? Because they are real properties? Are you saying that only some properties are real, or no properties are real?
Why not? You can explain away some properties in terms of others, but there is, going to be some residue. How do you know that (in)determinism is doomed to be explained away, in advance of a final TOE? What’s wrong with waiting to see what happens?
I’m happy to reply that the message of my comment as a whole applies to this part—my claim about “what things do at a basic level of description” is a meta-model claim about what you can say about things at different levels of description.
It’s human nature to interpret this as a claim that things have some essence of “just doing what they do” that is a competitor to the essences of determinism and nondeterminism, but there is no such essence for the same reasons I’m already talking about in the comment. Maybe I could have worded it more carefully to prevent this reading, but I figure that would sacrifice more clarity than it gained.
The point is not about some “basic nature of things,” the point is about some “basic level of description.” We might imagine someone saying “I know there are some deterministic models of atoms and some nondeterministic models, but are the atoms really deterministic or not?” Where this “really” seems to mean some atheoretic direct understanding of the nature of atoms. My point, in short, is that atheoretic understanding is fruitless (“It’s just one damn thing after another”) and the instinct that says it’s desirable is misleading.
Because they’re part of a detailed model of the world that helps tell a “functional and causal story” about the phenomenon. If I was going to badmouth one set of essences just to prop up another, I would have said so :P
My point is that this residue is never going to be the “Real Properties,” they’re just going to be the same theory-laden properties as always.
What makes a theory of everything a theory of everything is not that it provides a final answer for which properties are the real properties that atoms have in some atheoretic direct way. It’s that it provides a useful framework in which we can understand all (literally all) sorts of stuff.
I found parts of your comment as a whole to be unclear or underargued,which is why I asked the questions l.
I don’t see how you can know what the most basic level of description looks like. (I previously phrased that as a question, which did me no good).
A claim to the effect that no theoretical term applies atheoretically might prove too much - - it might be more of a general point than the OP was getting at.
Well, there a kind of fake indeterminism based on an observers lack of information. Someone could asking a question about that rather than what is true atheoretically.
You seem to be happy enough with functional and causal.
Are you arguing it or stating it?
Maybe. Physicalism asserts the opposite, so an argument would be helpful.
I completely agree with the answer above. I’ll also add that, on an object level, all of the models agree about the outcomes of every experiment we’ve ever been able to do. It really doesn’t matter whether you think of an isotope as having a 50% chance of decaying within 12 years, or whether you think of yourself as having a 50% amplitude, over the next `12 years, of branching into universes where the nucleus has decayed. As Feynman put it, “shut up and calculate”—the models work, but asking what they mean is a one-way ticket to epistemology.