- Joined
- Jul 27, 2015
- Messages
- 7,116
- Age
- 28
http://www.madsci.org/posts/archives/2001-11/1004909251.As.r.html
As I alluded to above, this isn't the whole picture. Most bombs go off and spread their energy out in all directions equally. This means that most of the blast energy will miss the planets. Each planet has to intercept the required amount of energy from the blast over its cross-sectional area (pi R2) when the initial energy has been spread out of 4 pi a2 surface area (where a is the distance to the Sun). Working this out, you need 4(a/R)2 times more energy to blow up each planet to account for the wasted energy. This energy is computed in the right column of the table.
Luckily for our hypothetical space-faring demolition men, we don't have to add all these energies up. We really only need out explosion to be as large as the largest energy needed (plus the energy needed to destroy the Sun, which is relatively negligible). This is because energy wasted by missing Mercury can hit Venus, Earth, Mars or any of the other planets. And the same goes for the wasted energy with each other planet (except Pluto, of course). It turns out that Neptune really sets the amount of energy we need. (In reality, if we had totalled the last column, the result would be pretty much the same as the energy needed to destroy only Neptune.) As you can see, it's 5.09x1037 tons of TNT. Or, in other words, if you took a mass of anti-matter a bit larger than half the mass of our Sun and added it to the Sun, causing a terrible matter/anti-matter reaction, it would release enough energy to destroy the Sun and all of the planets.
Super Perfect Cells energy out-put would be roughly 150% the weight of the Sun in TNT.
10,000,000,000,000,000,000,000,000,000 = Weight of Sun in Tons
15,000,000,000,000,000,000,000,000,000 = Weight of TNT blast that Super Perfect Cell can unleash
60,000,000,000,000,000,000,000,000,000 = Weight of TNT blast that Goku SSj3 is capable of unleashing, probably a little more, even by Death Battles own admission, this is where his durability should lie.
Instead..
34,700,000,000,000,000,000,000 = Goku Super Saiyan 4's durability in GT according to Death Battle
10,000,000,000,000,000,000,000,000,000 = Superman's durability in Death Battle.
Death battle was really off... even by their own numbers, Superman gets floored by fuckin' Super Perfect Cell!
As I alluded to above, this isn't the whole picture. Most bombs go off and spread their energy out in all directions equally. This means that most of the blast energy will miss the planets. Each planet has to intercept the required amount of energy from the blast over its cross-sectional area (pi R2) when the initial energy has been spread out of 4 pi a2 surface area (where a is the distance to the Sun). Working this out, you need 4(a/R)2 times more energy to blow up each planet to account for the wasted energy. This energy is computed in the right column of the table.
Luckily for our hypothetical space-faring demolition men, we don't have to add all these energies up. We really only need out explosion to be as large as the largest energy needed (plus the energy needed to destroy the Sun, which is relatively negligible). This is because energy wasted by missing Mercury can hit Venus, Earth, Mars or any of the other planets. And the same goes for the wasted energy with each other planet (except Pluto, of course). It turns out that Neptune really sets the amount of energy we need. (In reality, if we had totalled the last column, the result would be pretty much the same as the energy needed to destroy only Neptune.) As you can see, it's 5.09x1037 tons of TNT. Or, in other words, if you took a mass of anti-matter a bit larger than half the mass of our Sun and added it to the Sun, causing a terrible matter/anti-matter reaction, it would release enough energy to destroy the Sun and all of the planets.
Super Perfect Cells energy out-put would be roughly 150% the weight of the Sun in TNT.
10,000,000,000,000,000,000,000,000,000 = Weight of Sun in Tons
15,000,000,000,000,000,000,000,000,000 = Weight of TNT blast that Super Perfect Cell can unleash
60,000,000,000,000,000,000,000,000,000 = Weight of TNT blast that Goku SSj3 is capable of unleashing, probably a little more, even by Death Battles own admission, this is where his durability should lie.
Instead..
34,700,000,000,000,000,000,000 = Goku Super Saiyan 4's durability in GT according to Death Battle
10,000,000,000,000,000,000,000,000,000 = Superman's durability in Death Battle.
Death battle was really off... even by their own numbers, Superman gets floored by fuckin' Super Perfect Cell!
