06-20-2021, 04:46 PM
(06-20-2021, 03:06 PM)Margan Wrote: Magnets react to iron, is that correct? Omcasey, you seem to have a lot of scientific knowledge stemming also from your medical profession. Would you say, there is interaction going on with the blood iron, the red blood cells?
And if indeed the body is magnetized, and even more so thru these particles you mentioned, could that mean that exposure to electromagnetic fields will trigger a stronger reaction?
Thank you very much, I like your carefully worded elaborate postings
Not a doctor, but I have fixed a bunch of stuff myself that doctors couldn't or wouldn't thru my own research and efforts.
Magnets can react to two things generally. The opposite pole of another magnet, or to iron or any other molecule or element which allows the orientation of the atoms to be moved to a position where the magnetic fields align with the external field. Typically this is Iron, Cobalt, Nickel, and Neodymium. Natural magnets are made of magnetite which is a Iron and Oxygen compound. Any material containing a ferromagnetic metal in sufficient quantity can be made into a magnet. Mechanics have used this for years to magnetize a screwdriver head to fish a dropped bolt out of an engine.
Animals typically exhibit diamagnetic properties on the macro scale, meaning they weakly repel magnets. Weak enough not to be felt. There is no reason a magnet should naturally be attracted to a person.
The body itself should not be magnetized, and if it was given a strong enough magnetic moment to be able to attract or repel metals with the entire body, it would probably cause the brain and CNS and muscles to seriously malfunction. Heme in blood is iron and it is what carries oxygen to your cells. Cobalt and nickel are also present. Electrical signals also produce magnetic effects which would be affected by a strong magnetic field.
What is more likely is that the vaccine contains some type of magnetic metal in significant enough amounts, and that this metal does not leave the injection site very easily. Cobalt or nickel seem more likely than iron to my untrained mind, simply based on the body would likely be able to deal with iron fairly quickly and easily especially given how fast it oxidizes.