this post was submitted on 12 May 2025
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Physics is not math, you can't "prove" a physical theory. You make predictions and through experiment or observation Nature has the last word.
Quick, get in contact with the physicists, they need the insight that you got from thinking about a sentence in a pop sci article for 30 seconds.
I am a physicist. String theory already unified QFT and GR and that doesn't mean it's a verified physical theory, you need to validate it through experiment. It's physics 101. Just watch some Sabine H. videos to see how she speaks about string theory being a failure besides being mathematically consistent.
Nothing has unified gr and qft and you're a liar
"The bonus of string theory is that it has the tenets of a unified theory of all interactions, electro-magnetism, weak and strong interactions, and gravitation" https://arxiv.org/pdf/0809.1036
"tenets"
No string theory has unified them, it hasn't been verified. I'm not familiar with the intricacies of string theory, but presumably it is logically consistent. Or "proven".
It hasn't been experimentally verified
You have extraordinarily loose standards. Sad.
What? How do you mean.
I said it was logically consistent, which if it wasn't no one would be shouting from the hills about it, since it would be the same as saying that 5 = 4.
It might be fictious, I.e. the equations don't relate to reality, but it is good fiction, in that it doesn't produce nonsense.
You can produce any equation that proves anything. Which is in no way related to physical reality. Get a grip.
This isn't a theory, it isn't a hypothesis. It's the raging of a drunken mind looking for funding sources.
Well I never commented on what it was, although I agree with you on the latter point, string theory doesn't to the best of my knowledge appear to be testable, so its a bit of a waste of time.
If you get ahold of them, I need to tell them why they're wrong because of this one time I watched star trek while I was baked.
They are talking about mathematical proofs here. Once the mathematical proof is complete, we can look at the application, i.e. using it to make predictions and seeing how well they do.
Yes but you can prove that something is true given your set of assumptions about the universe.
A very loose example would be light being constant which could be an assumption, and then you can show that from that relativity is a natural conclusion. Or proof it formally, resulting in the Einstein's equations.
You have no idea what you are talking about. You can't prove mathematically Einstein's equations. No fundamental equations in physics were proved mathematically.
I said they could be proved from assumptions. In the same fashion as mathematical proofs, they aren't actually 100% true, they merely say that given these assumptions, the following is true. In maths the assumptions are so acutely obvious, or essentially definitions that we rarely rewrite our proof as the tautologies that they actually are
I agree with you that the you can't prove a physical theory, but you can TRY to axiomize it. Which is what Hilbert's 6th problem was.
In this way you can show that the equations you have are logically consistent - not that they are 100% true.
The crux of this argument is defintional, not factual, you take proof in an experimental way, as such no theory can be proven. I take proof to mean proven logically consistent. As such any good theory should be 100% proven, otherwise 1 might as be 0.
That's not how physics works. If you are really interested in such issues read a book on foundations of physics or history of physics to see how physicists arrived at the most famous equations (Einstein,Dirac, Schroedinger or Newton), they are basically "bets" guided by physical and mathematical assumptions, but that is far from being "proved" or "derived", there are no rigorous proofs or derivations involved. The uncertainty remains until an experiment or observation confirms it or rejects it. There's no such a thing as "proving" a physical theory, for the simple reason that any physical theory works in a limited regime or range of validity. Newtonian gravitation and General Relativity are both valid and succesfull theories within their range of validity, but they contradict each other mathematically, in one theory gravity is a scalar field and in the other is a tensor field, so you could use the mathematics of one theory to refute the other, so it makes no sense the concept of proving a physical theory mathematically. You only try to axiomize a theory once is well established, but it's irrelevant concerning its validity.
Right you are putting words in my mouth.
I never said that you derive it from axioms first, although I'm sure there exist theories which were derived from previous work especially some classical theories. The point I'm making is that a set of equations has to be self consistent, and sovlable, both of which are provable properties of those equations. That says NOTHING about the physical validity of the equations. However if you can't prove those properties on some level, you have a pretty nonsense set of equations.
Like I said you aren't "proving" that the theory is what governs whatever phenomenon, rather that it is consistent with itself.
As for finding the range of validity, again I agree with on that point, although I'm 100% sure there exists cases where you can predict the theory breaks down - just from looking at the equations, or deriving the bounds. But like I said, the equations still have to be non contradictory and solvable. In fact if they aren't solvable you cannot begin to verify them.
I completely appreciate that you are right about unable to prove a theory like you said. I'm pointing out that most people use proof to refer to showing that the equations aren't contradictory, again that doesn't prove the theory, but we know a good theory doesn't contradict itself, and hopefully it doesn't contradict other stuff, although relativetivity contradicts quatuam, indicating something else is going on.