In magnetism where the Photon(LOL) is the carrier, what interacts?
We can go on like this forever, but why did you choose the PHOTON?
Why do you expect magnetic fields should kill the frog? Light passing through glass doesn’t destroy the glass. Light passing through my hand doesn’t destroy my hand. (Have you ever tried covering a flashlight completely with your hand in a dark room? Or tried sticking it in your mouth?) Your conclusions do not follow from the premises you’re presenting, to the degree that it’s actually possible to extract your premises from your “stream-of-consciousness” posts.
Trumpet and putamn … yeah. I think my contribution ends here.
Do you remember Elon Musk - this is not close as it. But so far, thanks for your contribution.
Charged particles interact with magnetic fields.
Bumper sticker.
What do you mean here?
If you like, read this wikipedia article on Maxwell’s equations (Maxwell's equations - Wikipedia):
If you read that, and understand what Maxwell showed with his theories, then you can start critiquing them. And know that people did find ways that these theories didn’t quite precisely match up with experimental results, and were found to be only an approximation. And so we have the funky world of quantum electrodynamics.
But still, take a look at that article, which is a better summation than an ad hoc explanation on a message board. If your eyes glaze over when you hit the equations (you’re not alone, mine do too), then congratulations, you’re like most people. However, to critique these equations you have to understand them first, right? You can’t just declare it’s all bullshit, because you don’t understand it, right?
- First understand it
- Then show why it’s wrong.
Number 1 is pretty hard. Like, years of work hard. Number 2 is gonna be even harder, so good luck with that.
Photons are a byproduct of nuclear decay. For example, when a proton and an anti-proton annihilate, two photons are released. Also, when merging two protons in a nucleus of deuterium to create a helium nucleus, photons are released. A photon is, in fact, an elementary particle and the quantum of the electromagnetic field.
It is a bit more involved then that, and photons are actually what “touches” when two electrons approach each other, or when electrons fall to a lower energy level when orbiting a nucleus. They are also produced from black body radiation, which relates to the ultraviolet catastrophe that actually lead to the discovery of the quantum nature of light.
The photons that come from orbital decay are probably best thought as a result of those underlying changes in energy state than being a product of decay. Not that it is improper to think of them in that way when it fits a model you are working on.