Lol I’m 40% sure this is a joke, but in case it isn’t: if you place conductors in the microwave: sometimes it’s a spoon, sometimes it’s the silver lining on a plate, or you can go overboard and throw actual aluminum foil in there for good measure…the microwaves drive a current in the conductor **, which creates sparks from lots of tiny arcs…lightning indeed my friend :D
Suggestion: Forks are particularly spectacular too
PS: the foil should act as shielding against the microwaves, so I predict that the content won’t warm up, but maybe the hole is enough to let it heat it a bit :)
** If a conductor is not convex (e.g. fork, crinkled aluminum foil), each crease acts as a capacitor, so when the microwaves drive (through resonance) a current and overcharge the capacitor plates, they short the dielectric (the air in this case) and create the arcs.
Lol I’m 40% sure this is a joke, but in case it isn’t: if you place conductors in the microwave: sometimes it’s a spoon, sometimes it’s the silver lining on a plate, or you can go overboard and throw actual aluminum foil in there for good measure…the microwaves drive a current in the conductor **, which creates sparks from lots of tiny arcs…lightning indeed my friend :D
Suggestion: Forks are particularly spectacular too
PS: the foil should act as shielding against the microwaves, so I predict that the content won’t warm up, but maybe the hole is enough to let it heat it a bit :)
** If a conductor is not convex (e.g. fork, crinkled aluminum foil), each crease acts as a capacitor, so when the microwaves drive (through resonance) a current and overcharge the capacitor plates, they short the dielectric (the air in this case) and create the arcs.
I’m surprised you’re only giving it 40% chance of a joke
It was before I scrolled down. After reading the other comments, I’m now at 80% (still) 😅