bradrn wrote: ↑Mon Feb 27, 2023 7:28 am
zompist wrote: ↑Mon Feb 27, 2023 1:36 am
I'm not sure what you mean by "non-intuitive geodesics, which is where gravity comes from"
To simplify: a ‘geodesic’ is the shortest path between two points. On the Cartesian plane, these are straight lines. But they don’t have to be: on the surface of a sphere, the geodesics are great circles. (And to be perfectly clear, the surface of a sphere is a 2D coordinate system! The geodesics may look straight when you embed that surface in 3D, but not when you e.g. look at a map projection onto a 2D Cartesian plane.)
Yes, Brad, I've been reading physics books for fifty years. That's why I mentioned that coordinate systems can be curved.
[Coordinate systems are] mathematical abstractions and don't exist. You can create any wacky coordinate system you want, and it won't respond to gravity, or create gravity, because mathematical abstractions are not physical things.
Now we’re getting into philosophical territory. Are mathematical abstractions physical things? I tend to reject such questions entirely as being category errors — that pesky word ‘are’ causes trouble when we’re trying to be precise. I prefer to say that ‘mathematical abstractions
describe physical things’, and leave it at that.
Honestly if you're going to nitpick the word "is", you're simply looking to attack, not to converse. Yes, I could have put in all sorts of nuances about what "existing" means. Nothing you've said acknowledges
what I was saying, which is that gravity does not affect mathematical objects. Nothing about the number two changes if it's "near" a large mass... it can't be near
anything except another number. That is
not how spacetime works.
No one understands why gravity can affect spacetime itself …
Another category error. Gravity does not ‘affect’ spacetime — gravity
is spacetime! (Or at least, part of spacetime.)
That's one way of looking at it, but a) it doesn't deal with why spacetime is deformed by mass, and b)
as you agreed, we don't really understand gravity, so saying "what it is" is overblown.
Analogies can be misleading, but let's try: if you were a sailor you'd see the ocean as a curved 2-D surface, and the shortest path to your destination is a curve. For purposes of surface navigation, you never need to wonder why all paths are curved— you make your spherical model and you're done. But we can ask
why you can't actually go in a straight line, and provide an answer (there's a planet in the way). On another level, we can explain why planets have the shape they do.
Math is not physics.
True, but physics is maths. Specifically, physics is merely the mathematics which describes physical phenomena (plus associated experiments, of course).
I understand what you mean, but I hope you realize that math is not philosophy, and when scientists try to do philosophy of science, they're as able to tie themselves in knots as anyone else. E.g. look at the last hundred years of argument over measurement and QM. And you do know that physics is not just math, because you later talk about falsification, which is humanistic procedure, and ultimately ethical.
As I said, I've read physics, so I totally get the feeling that we should forget the words and just
grok the underlying equations. But I'm sorry, it's a feeling, not even a philosophical stance. Once you start saying that the equations "are" anything, you're deep in ontology.
And just to be clear, gazing at the equations
can keep you out of some trouble— that was one of Feynman's points. If you start reifying Ψ, you end up confusing probabilities with actual particles and may end up believing Everett. (Apologies if you're an Everettian— but if you are, many-worlds is not math, it's philosophy.) But, you know, Feynman was also very good at using words, at relating the math to actual things in the world (something students memorizing the equations don't always grasp), and for that matter invented what he called a "dippy process" to make QED actually calculable. (Renormalization is more difficult for your "physics is math" position than Ψ, because the whole point is that there is a whole series of possible renormalizations, depending on what you use as a lower bound on distance— and if you try to extrapolate to infinitesimals, the whole things blows up. Which renormalization process is "real"?)
This is actually a really important point, because it allows us to talk about falsification. I could never say that, for instance, ‘serial verb clauses do not exist’, because ‘serial verb clause’ never referred to any one specific thing in the first place.
You should really know more about linguistics by this point! Linguists also talk, possibly way too much, about philosophy of science. Now, it's highly questionable to try to treat all science as if it's physics— see Ernst Mayr, a biologist, on this. But yes, linguistics can make predictions, and those can be verified or not. And if you think the problem is that terms are not defined, you obviously haven't read Chomsky. I mean, that's probably a good life choice, but on the plus side Chomskyans usually do have definitions of their terms, expressed in structural terms.
That is, Einstein’s ‘new ether’ becomes just another word for ‘spacetime plus the energy within it which causes its curvature’. In other words, it was crucially different to the previous notion of the aether (which I’d summarise as ‘a substance at rest which acts as a medium for electromagnetic waves’), because it had nothing to do with electromagnetic waves, and was barely even a ‘substance’ — insofar as that last term means anything anyway. I find it telling that no other physicist adopted this terminology, even though it was proposed by Einstein itself and came not long after the heyday of aether theories. (And the suggested use of ‘aether’ for the vacuum state runs into all the same issues.)
Thank you for showing my point so exactly. Physicists could have adopted Einstein's redefinition; if they did, all your books would talk about ether rather than (or in addition to) spacetime, and they'd say that Einstein redefined how the ether was understood, and
all the underlying math would be the same. The world would not be worse, and perhaps better, in that people would be a little less tempted to dismiss Einstein's achievements as just "proving that ether doesn't exist."
