That wont matter, it will impact the grid anyway and the grid will give off sparks and start fires. A great deal of fires, so many that they will be impossible to deal with. And what about the phones everyone carries around with them, the ones with lithium batteries?
Yeah so I've done a great deal of research about this and there is an electrical engineer who's given several talks on this regarding what would and would not happen.
I'll try to find him again. I watched his lectures quite a while ago but suffice it to say this guy knows what he's talking about. The bottom line is that the matter at hand isvolts per kilometer (of wire/conductor length).
They don't measure it in volts per inch.
They don't measure it in volts per millimeter.
Because of the wavelength of the electromagnetic waves, relatively significant length is required.
While some current is indeed induced in even short wires/conductors, small electronics that are NOT plugged in to a power source would not be vulnerable to a Carrington type event, or even one larger than that, according to him.
And his conclusion is in line with what Q said about "archiving everything off-line".
Otherwise, if thumb drives and phones and standalone hard drives etc. were indeed vulnerable, then Q words would've been pretty moot, no?
In the original carrington event the telegraph lines producing sparks which burnt down the telegraph offices, they also destroyed the generating plants as well. This guys theory seems to hold true about long distance wiring, but did amps and resistance get a mention? Needless to say the power of this event couldn't be measured, but there is this: https://archive.ph/N7sKZ.
The power of our magnetic field must be stupendous, how will satellites stand up to this, even hardened ones? If you could find a video of this lecture I would like to hear what he says.
That wont matter, it will impact the grid anyway and the grid will give off sparks and start fires. A great deal of fires, so many that they will be impossible to deal with. And what about the phones everyone carries around with them, the ones with lithium batteries?
Yeah so I've done a great deal of research about this and there is an electrical engineer who's given several talks on this regarding what would and would not happen.
I'll try to find him again. I watched his lectures quite a while ago but suffice it to say this guy knows what he's talking about. The bottom line is that the matter at hand is volts per kilometer (of wire/conductor length).
They don't measure it in volts per inch.
They don't measure it in volts per millimeter.
Because of the wavelength of the electromagnetic waves, relatively significant length is required.
While some current is indeed induced in even short wires/conductors, small electronics that are NOT plugged in to a power source would not be vulnerable to a Carrington type event, or even one larger than that, according to him.
And his conclusion is in line with what Q said about "archiving everything off-line".
Otherwise, if thumb drives and phones and standalone hard drives etc. were indeed vulnerable, then Q words would've been pretty moot, no?
In the original carrington event the telegraph lines producing sparks which burnt down the telegraph offices, they also destroyed the generating plants as well. This guys theory seems to hold true about long distance wiring, but did amps and resistance get a mention? Needless to say the power of this event couldn't be measured, but there is this: https://archive.ph/N7sKZ.
The power of our magnetic field must be stupendous, how will satellites stand up to this, even hardened ones? If you could find a video of this lecture I would like to hear what he says.