imported_KirbsAw
Golden Member
We should all get behind Howard and fake Arnold's plan to destroy the moon. It's been up there taunting us for too long.
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How many modern nukes would it take to blow up the moon?
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We should all get behind Howard and fake Arnold's plan to destroy the moon. It's been up there taunting us for too long.
silverpig
Lifer
I could actually come up with a real answer if I wanted to. I'll just half-ass it though.
mass of moon ~ 7 x 10^22 kg
In order to completely "blow up" the moon you have to give each piece of the moon enough kinetic energy to send it off to infinity. The escape velocity at the surface of the moon is approximately 2.5 km/s. For simplification I'll neglect the effects of the core of the moon having to be given more energy to escape as it is at the very bottom of the moon's gravitational well. Besides, we don't really need ALL the pieces of the moon to get to infinity before someone would look up to the sky and say "Hey, the moon blowed up!!!"
So we need to set off an explosion which will impart a force on 7 x 10^22 kg sufficient enough to accelerate it to 2.5 km/s. Kinetic energy required is:
1/2 m v^2 = 1/2 * 7 x 10^22 * (2500)^2 = 2.2 x 10^29 J
1 Megaton of TNT = 4.184 x 10^15 J
Therefore, one would need 5.2 x 10^13 megatons of explosive = way way way more than we have. Of course this assumes a lot and is very simplified but it should be within at least a few orders of magnitude.
And there you have a rough answer.
mass of moon ~ 7 x 10^22 kg
In order to completely "blow up" the moon you have to give each piece of the moon enough kinetic energy to send it off to infinity. The escape velocity at the surface of the moon is approximately 2.5 km/s. For simplification I'll neglect the effects of the core of the moon having to be given more energy to escape as it is at the very bottom of the moon's gravitational well. Besides, we don't really need ALL the pieces of the moon to get to infinity before someone would look up to the sky and say "Hey, the moon blowed up!!!"
So we need to set off an explosion which will impart a force on 7 x 10^22 kg sufficient enough to accelerate it to 2.5 km/s. Kinetic energy required is:
1/2 m v^2 = 1/2 * 7 x 10^22 * (2500)^2 = 2.2 x 10^29 J
1 Megaton of TNT = 4.184 x 10^15 J
Therefore, one would need 5.2 x 10^13 megatons of explosive = way way way more than we have. Of course this assumes a lot and is very simplified but it should be within at least a few orders of magnitude.
And there you have a rough answer.
MisterCornell
Banned
What a dumbass question. If you detonate a nuke on the moon, it will launch some rocks up into the moon's atmosphere, which will all likely fall back to the surface again. 😛
MisterCornell
Banned
The moon does have an atmosphere. There's not as much of it as Earth or even Mars, but it's quite distinct from the vacuum of space. And as a reference point for how far the rocks are likely to be launched, it was apt for the comparision, dumbass.
Cpt Cupcake
Member
42
bunnyfubbles
Lifer
Why use nukes, use a death star. Now we just need to scrap the ISS and get to work on that.
vegetation
Diamond Member
Xindi planet killer weapon will do it in swipe.
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