I recall seeing something about a very low-powered (and cheaply made) LED lightbulb which could never be turned off. With the light switch on, it was bright, and with the light switch off it was much more dim, but not actually off. It turned out this was because in certain common house wiring configurations, electrical field effects between nearby wires allow enough power through to light the bulb
Yeah, I did have that experience too. But come to think of it, his explanation in the video sounds counter-intuitive for AC & DC. With the bulb connected to the mains via a wire (even though it’s the neutral line and that line is severed) like in the better part of the video, as long as the mains is AC the bulb will always at least dim...
I recall seeing something about a very low-powered (and cheaply made) LED lightbulb which could never be turned off. With the light switch on, it was bright, and with the light switch off it was much more dim, but not actually off. It turned out this was because in certain common house wiring configurations, electrical field effects between nearby wires allow enough power through to light the bulb
https://www.youtube.com/watch?v=1uEmX5XClPY
Yeah, I did have that experience too. But come to think of it, his explanation in the video sounds counter-intuitive for AC & DC. With the bulb connected to the mains via a wire (even though it’s the neutral line and that line is severed) like in the better part of the video, as long as the mains is AC the bulb will always at least dim...
TBH I’m a bit more confused :)