I believe in helium balloons too. Does that mean I don’t believe in gravity?
Physics can explain helium balloons really well. There’s no mystery here. And they’re certainly not disproving gravity.
Einstein didn’t even get a nobel prize for special relativity because it was considered too radical at the time.
Einstein had no easily repeated experiments to show off. You’re claiming ghosts are measurable in a repeatable way - simple enough to be explained in a book for laypeople . At least after the third or fourth study with robust methodology the scientific community would be talking about nothing else. And I know that because I am surrounded but the kind of reaearchers you’re thinking of when you say “scientists”. They’re a bunch of nerds, they love that stuff. And they research ominous stuff all the time, a biology professor here spent 3 years studying healing crystals in drinking water. Disappointingly they found nothing.
And why do you assume this science has gone ‘unnoticed’? We’re talking about it, aren’t we?
Well to be fair we’re talking about a claim that such research exist, which is miles off from discussing actual research, which would be done by scientists in order to validate it’s operationalisation and discuss their findings.
The thing is: extraordinary claims require extraordinary evidence. A book simply isn’t that. It’s way too easily faked, isn’t subject to the scientific method, peer review, any form of control or critical oversight and at the end of the day profits not from the truth but from being sold. And you are here doing advertising for them, so it seems like they are succeeding at that.
I’m not trying to persuade you. I believe that would be hard to do at this point. What I’m trying to say here: It’s not unreasonable to think that you, and everyone else being convinced by a very entertaining and captivating book outside of the actual scientific method, are unreasonable.
One book simply shouldn’t be this convincing.
bunchberry@lemmy.world 1 hour ago
He shouldn’t have gotten one for SR specifically anyways because Hendrik Lorentz had already developed a theory that was mathematically equivalent and presented a year prior to Einstein.
The speed of light can be derived from Maxwell’s equations, which is weird to be able to derive a speed just by analyzing how electromagnetism works, because anyone in any reference frame would derive the same speed, which implies the existence of a universal speed. If the speed is universal, what it is universal to?
Physicists prior to Einstein believed there might be a universal reference frame which defines absolute time and absolute space, these days called a preferred foliation. The Michelson-Morley experiment was an attempt to measure the existence of this preferred foliation because most theories of how it worked would render it detectable in principle, but found no evidence for it.
Most physicists these days retell this experiment as having debunked the idea and led to its replacement with Einstein’s special relativity. But the truth is more complicated than that, because Lorentz found you could patch the idea by just assuming objects physically contract based on their motion relative to preferred foliation. Lorentz’s theory was presented in 1904, a year before Einstein, and was mathematically equivalent, so it makes all the same predictions, and so anything Einstein’s theory would predict, his theory would’ve also predicted.
The reason Lorentz’s theory fell by the wayside is because, by being able to explain the results of the Michelson-Morley experiment which was meant to detect the preferred foliation, it meant it was no longer detectable, and so people liked Einstein’s theory more that threw out this undetectable aspect. But it would still be weird to give Einstein the Nobel prize for what is ultimately just a simplification of Lorentz’s theory.
But there are also good reasons these days to consider putting the preferred foliation back in. The Friedmann solution to Einstein’s general relativity (the solution associated with the universe we actually live in) spontaneously gives rise to a preferred foliation which is actually empirically observable. You can measure your absolute motion relative to the universe by looking at the cosmic dipole in the cosmic background radiation. Since we know you can measure it now and have actually measured our absolute motion in the universe, the argument against Lorentz’s theory is much weaker.
An even stronger argument, however, comes from quantum mechanics. A famous theorem by the physicist John Bell proves the impossibility of “local realism,” and in this case locality means locality in terms of special relativity, and realism means belief that particles have real states in the real physical world independently of you looking at them (called the ontic states) which explain what shows up on your measurement device when you try to measure them. Since many physicists are committed to the idea of special relativity, they conclude that Bell’s theorem must debunk realism, that objective reality does not exist independently of you looking at it, and devolve into bizarre quantum mysticism and weirdness.
But you can equally interpret this to mean that special relativity is wrong and that the preferred foliation needs to put back in. The physicist Hrvoje Nikolic for example published a paper titled “Relativistic QFT from a Bohmian perspective: A proof of concept” showing that you can fit quantum mechanics to a realist theory that reproduces the predictions of relativistic quantum mechanics if you add back in a preferred foliation.
ageedizzle@piefed.ca 1 hour ago
Thank you for this haha. Its very interesting and a nice break from arguing with everyone here