Ferrite particles and rare earth magnets can have plenty of force between them. That is easy to see if you have a ferromagnetic fluid full of microscopic ferrite; a magnet will make it distort. There are a number of videos out there showing that.
Iron in blood is quite different magnetically because the electrons are bound differently.
Anyway, I have a vial of ferromagnetic fluid and a strong magnet easily sticks to even small drops of it.
At vaccination, perhaps there’s a temporary magnetized concentration that disperses with time. As for the physics of it, I agree that it needs solid numbers for me to believe entirely. Skepticism is healthy until the facts emerge.
I’m going to be very dismissive here so just know that.
Exactly how much holding force do you think nanoparticles have?
We’re talking microscopic specks.
So small the vaccines are clear.
Exactly how much holding power could microscopic specks have?
Enough to hold a magnet that’s billions of times their size?
Absolutely not.
If that were true, there would already be enough iron in your blood for magnets to stick to you.
Think this through.
It’s beyond ridiculous.
Ferrite particles and rare earth magnets can have plenty of force between them. That is easy to see if you have a ferromagnetic fluid full of microscopic ferrite; a magnet will make it distort. There are a number of videos out there showing that. Iron in blood is quite different magnetically because the electrons are bound differently. Anyway, I have a vial of ferromagnetic fluid and a strong magnet easily sticks to even small drops of it.
At vaccination, perhaps there’s a temporary magnetized concentration that disperses with time. As for the physics of it, I agree that it needs solid numbers for me to believe entirely. Skepticism is healthy until the facts emerge.