There’s none other than localized heating effects, and yes, it’s laughed out of the room.
So, obviously you don’t want to microwave your eyeballs, but you’d feel that in other nearby tissues as heat. If you don’t feel heat from a non-ionizing RF source, you’re not getting cooked. In any case, the amount of infrared coming off an incandescent lightbulb is about 3 orders of magnitude higher than the energy coming off a WiFi router antenna. If being in the room with a lightbulb is safe, so is being in the room with WiFi.
There isn’t a set of rules of physics where low-power, non-heating, non-ionizing RF is dangerous, and also where CPUs work. They’re incompatible. You can’t have both of those at the same time.
> There isn’t a set of rules of physics where low-power, non-heating, non-ionizing RF is dangerous, and also where CPUs work. They’re incompatible. You can’t have both of those at the same time.
Please elaborate on this? But it sounds like you're overgeneralizing. There's a lot of ways non-ionizing RF could potentially be "dangerous" to some kind of biological tissue, we just haven't found those ways in humans.
For one category of mechanism, there's plenty of proteins that absorb certain wavelengths and activate cellular pathways based on the amount they receive.
So, obviously you don’t want to microwave your eyeballs, but you’d feel that in other nearby tissues as heat. If you don’t feel heat from a non-ionizing RF source, you’re not getting cooked. In any case, the amount of infrared coming off an incandescent lightbulb is about 3 orders of magnitude higher than the energy coming off a WiFi router antenna. If being in the room with a lightbulb is safe, so is being in the room with WiFi.
There isn’t a set of rules of physics where low-power, non-heating, non-ionizing RF is dangerous, and also where CPUs work. They’re incompatible. You can’t have both of those at the same time.