Are you trying to melt the copper by induction? Not much else can be done with a magnet, since copper isn’t ferromagnetic…
Comment on Can't throw me off the scent
LifeLemons@lemmy.ml 3 days ago
Me when I keep moving a super strong monster magnet of 10¹⁰ >!(I forgor the unit of measurement for magnetic strength)!< near the copper wire:
(Suddenly the copper shits itself)
Tja@programming.dev 3 days ago
LifeLemons@lemmy.ml 2 days ago
I meant induce so much unwanted voltage that the voltage regulators can’t even handle, killing all electrical supplies
As some pointed out, 10¹⁰ T is too much, I think 10 T will do
DigitalMus@feddit.dk 2 days ago
Cool, can I come over and have a look at your
super strong monster magnetNeutron star?MutilationWave@lemmy.world 3 days ago
Kazumara@discuss.tchncs.de 3 days ago
The unit is Tesla. For reference, the earths magnetic field is around 50 nT on the surface (depending on latitude), and MRI machines have 1.5 T or 3 T. So your 10¹⁰ T might just nail you to the earths Iron core 😂
Lemminary@lemmy.world 3 days ago
Nail me harder down tu the core, magnet daddy.
brachypelmasmithi@lemm.ee 3 days ago
Given that even 3 T is already considered a large amount of flux, would it be even possible for an object with 10 billion Tesla to even exist? And if so, what would it take to achieve that amount of flux? Does a neutron star or a pulsar* get even remotely close?
* - pulling these examples kinda out of my ass – while i’m sure neutron stars have extreme magnetic fields i’m not so sure about pulsars
GluWu@lemm.ee 3 days ago
Yup, magnetars. Like specifically that number, 10^9 - 10^11 T.
www.wikipedia.org/wiki/Magnetar
brachypelmasmithi@lemm.ee 3 days ago
Damn, that’s interesting! Also just realised I forgot that pulsars are a type of neutron star
LifeLemons@lemmy.ml 2 days ago
I didn’t remember the scale, I just picked a number from my head
Kazumara@discuss.tchncs.de 2 days ago
Yes I got that, wasn’t trying to poke fun at you. It was just a funny mental image to me that I wanted to share.