sag@lemm.ee to Lemmy Shitpost@lemmy.world · edit-21 month agoFearlemmy.likes.catimagemessage-square82fedilinkarrow-up11.07Karrow-down111
arrow-up11.06Karrow-down1imageFearlemmy.likes.catsag@lemm.ee to Lemmy Shitpost@lemmy.world · edit-21 month agomessage-square82fedilink
minus-squareKairos@lemmy.todaylinkfedilinkarrow-up5·edit-21 month agoJust as a reminder that even if you turned an entire atom into pure kenitic energy, you wouldn’t even see a flash. Math stuff: So E = M c^2 I’ll choose a carbon atom because it’s a round number (don’t think about that statement too hard) So carbon has an atomic mass of 12 atomic mass units. In grams (divide by Avagadro’s number) is 1.992 E-23 grams. Shove that into E=mc^2 and you get 1.790 nanojoules, which is 4.974 E-16 kilowatt-hours. Or at 12¢ per KWH is 5*E-15 cents of power. So to power a 500 watt gaming rig, you’d need to burn about 20 nanograms of carbon at 100% efficiency, per hour.
Just as a reminder that even if you turned an entire atom into pure kenitic energy, you wouldn’t even see a flash.
Math stuff:
So E = M c^2
I’ll choose a carbon atom because it’s a round number (don’t think about that statement too hard)
So carbon has an atomic mass of 12 atomic mass units. In grams (divide by Avagadro’s number) is 1.992 E-23 grams.
Shove that into E=mc^2 and you get 1.790 nanojoules, which is 4.974 E-16 kilowatt-hours. Or at 12¢ per KWH is 5*E-15 cents of power.
So to power a 500 watt gaming rig, you’d need to burn about 20 nanograms of carbon at 100% efficiency, per hour.