No, the Covid-19 vaccines will not make you magnetic. here’s why


So how do you get there? Simple: you use another magnet. Placing a strong magnet near these unaligned areas will force them to align. It is actually possible to find rocks in the ground that are both ferromagnetic and have their domains aligned. We call these magnetites. They may have been magnetized by the strong magnetic fields created during a lightning strike.

Do magnets interact with all metals?

If you catch a bunch of metal objects in your home, most are probably steel (an alloy made of iron) or aluminum, copper, or brass. Oh, and your cast iron pot is of course made of iron. Of these, only iron and part of the steel are attracted to the magnets.

Video: Rhett Allain

It is important to remember that magnets only interact with ferromagnetic materials. If you were truly a magnetic human, only a steel or iron spoon would stick to your head. The silver ones wouldn’t work.

Do Covid vaccines contain metals?

One of the arguments made by people in these spoon videos is that Covid-19 vaccines contain metal. In the list of ingredients from the Center for Disease Control and Prevention for the three Covid vaccines that have received an authorization for emergency use in the United States, the agency specifies in particular:, electrodes, carbon nanotubes or semiconductor nanowires.

But the list shows that all three contain some form of sodium, including sodium chloride or sodium acetate, and one of them contains potassium chloride. Potassium and sodium can be metals– does that mean there’s some kind of metal in there after all?

No, writes Naomi Ginsberg, associate professor of chemistry and physics at UC Berkeley. “Potassium and sodium are only metallic in solid form, but they are not solid as additives in the injected solution,” she told WIRED in an email. “The individual ions are dispersed throughout the solution, a liquid composed mostly of water and sparse, individual potassium and sodium ions, in addition to the active components of the vaccine. The ions in this solution are basically like dissolved salts, such as in Gatorade or Pedialyte, which our bodies need to function properly but which get exhausted during exercise.

And, of course, neither potassium nor sodium is ferromagnetic. They could not cause magnetic interaction with normal objects.

So how did they do it?

Don’t these videos of someone with a spoon on their head prove they are magnetic? No, they don’t. You can make an object, metal or not, stick to human skin just because our sweat makes us a little sticky. (Some of us are clingier than others.) An object with a large, flat surface that has a larger surface contact with the skin will be more likely to stick. But no magnet is involved.

Are you sure it won’t work?

OK, let’s take the iron. It is a ferromagnetic material that many people get into their bodies every day from fortified breakfast cereals. Yes, there is actually iron in most of them, and to prove it, here is a classic science experiment at home you can try. Get your favorite cereal and grind it up. Put it in a cup with a little water. Then place a magnet. The magnet will attract the pieces of iron in the cereal and you can pull them out. If you have a super strong magnet, it will work a lot better.

Here is the iron that I was able to harvest from a type of cocoa grain that I found in my house. (I put aluminum foil on the magnet so that I could easily remove the iron afterwards.)

Photography: Rhett Allain

So here’s your metal. It’s good for you. Plus, no matter how much grain you eat, it doesn’t make you magnetic.


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