Steven I got you^ To those of you who say Naruto can beat or even touch Goku, Im sorry to say, its just not true. With some of the leading mathmaticians in the world here in DB to help us out, we all agreed on Goku being able to Stomp Naruto Narutards, face up to the facts, and just admit that Goku beats all of the Narutoverse, ok? None of you have shit on this canon info. Angered, Beerus punches Goku hard in the gut, then sends him flying through West City with a ferocious kick. Goku stops himself mid-air, but before he can do anything Beerus is already there and puts Goku in a headlock. Beerus quickly whirls around him, kicks Goku off into a nearby forest, and gives chase. Not able to see them, Kame-Sen’nin and the others run over to a Capsule ship and fly off after the two. Goku and Beerus continue exchanging blows in the forest, when Beerus sends Goku flying with another kick to the face. Beerus flies off after him and the two end up in a desert area with numerous rock formations surrounding them. Goku and Beerus charge at each other and their punches collide, sending out an Earth-shattering shockwave. They pull away from each other and a trickle of blood falls from a cut on Goku’s cheek SS3 Goku punching King Kais planet which has 10x gravity because of its mass: The first calculation is figuring out the mass of the planet using gravity and radius since those are the two things we know. The next step is Volume, using the radius. And the third is density using the mass and volume we calced. I also have links to a few calculators/convertors I checked the answers on. Rearanged gravity formula to calculate mass instead (had to do short hand got formula from wikipedia) en.wikipedia.org/wiki/Surface_gravity g = m/r^2 m = r^2 x g Volume formula V = (4/3) × pi × r^3 Density Formula P = M/V *Very good overall calculator web2.0calc/ cm/g to m/kg calculator unitjuggler/convert-dens ... perm3.html Density calculator smartconversion/unit_cal ... lator.aspx Volume calculator basic-mathematics/volume... lator.html Heres the actual calcs g = m/r^2 m = r^2 x g m = 0.0000156961230576^2 x 10 m = 0.0000000024636827904 earth masses Earths mass = 5.97219 × 10^24 kilograms 5.97219 × 10^24 X 0.0000000024636827904 = 14,713,581,723,998,976 m = 14,713,581,723,998,976 kg This considers King akis planet as 100m radius and 10X gravity. The small number is the size of king kais planets radius in relation to Earths. volume of a sphere is V = (4/3) × pi × r^3 V = (4/3) × pi × 100m^3 = 4188790.2047863905m^3 This is using King kais planet as 100m radius. Knowing the mass and Volume we can get density. P = M/V P = 14713581723998976kg / 4188790.2047863905m^3 P = 3.512608892.9415128417291527 X 10^9 kg/m^3 Density of a white dwarf star: The average density of matter in a white dwarf must therefore be, very roughly, 1,000,000 times greater than the average density of the Sun, or approximately 10^6 g/cm3. Which translates to 10^9 kg/m^3. So in other words it is over 3.5 times as dense as a white dwarf star. en.wikipedia.org/wiki/White_dwarf If you dont believe this then I found soem other calcs. It doesnt matter here the dimension of the planet, but the density, since we are talking about a PUNCH, not a Ki blast. King Kais planet is not more than 30 meters in diameter (pixels-scaling), but even if it is 40, 50 or 90 meters, the order of magnitude, physically talking, is still the same (i.e. 10). Now, gravitational force of a planet is given by this formula: F = (G*M*m)/r^2 G is the universal gravitational constant (6,67*10^-11 [m^3/(kg*s^2)]; M is the mass of the planet m is the generic reference mass r is the radius of the planet (or distance between the two masses centers) Since King Kais gravitational force is 10 times the Earth gravitational force, we have Fk (gravitational force of King Kais planet) 10 times bigger than Fe (Earths gravity). Fk/Fe = [(G*Mk*m)/rk^2]/[(G*Me*m)/re^2] = 10 G and m are in commons and go away, so we have: (Mk/rk^2)/(Me/re^2) = 10 Mass is Volume (V)*Density (D), with Volume (of a generical planet) = (4/3)*π*r^3; back to the formula: ((4/3)*π*rk^3*Dk)/rk^2 = Fk and ((4/3)*π*re^3*De)/re^2 = Fe, so: Fk/Fe = (Dk*rk)/(De*re) = 10. The only unknown term is Dk (density of King Kais planet), while we know De and re of Earth and rk = 15 meters (assuming a diameter of King Kais planet of 30 m, as previously said). So, Dk = 1,17*10^10 kg/m^3, while density of Earth (De) is 5,5153*10^3 kg/m^3, so the density of King Kais planet is around 2 millions of times higher than the desnity of Earth, and Goku punched a whole hole throughout this material. The most dense material known is Osmium, which has a density of 22661 kg/m^3, and, because of that, its also the material which is most resistant to compression (462 GPa). King Kais planet is still half a million times more dense than this, and thus even way more resistant to physical compression. Even if King Kais planet had the same gravitational force as Earth, the fact it has such a small diameter would still imply a huge density, and indeed, it would still have a density around 200000 times bigger than the density of Earth. Dou you have some info about that planet destroyed by Gladiator? Because it could be a planet 2 times bigger than Earth, but 100 times less dense, making this feat pale compared to Gokus striking punch. Indeed, what really matters when talking about physical punches is the density, and AT, giving us a planet of a few meters of diameter and with a gravitational force 10 times bigger than the one on Earth, is indisputably giving us that previously said enormous level of density. Imaging taking a cube of 1 meter of each side of the following materials: - average Sun composition: it would weigh around 1,4 tons; - average Earth composition: it would weigh around 5,5 tons; - core of the Sun material: it would weigh 150 tons; - King Kais planet material: it would weigh around 10 millions tons; - Neutron Star material: it would weigh around 280000 billions tons. Punching the core of the Sun would obviously require inhuman physical strength, regardless of how much matter, in kg, you punch away; even worse would be just trying to physically scratch the surface of a Neutron Star. Well, a not even bloodlusted Ssj3 Goku actually vaporizes, with one punch, a whole quantity of a material which, according to canon info about King Kais planet, has thousands of times the density of the core of the Sun. This is insane, literally insane. Punching the Earth material for Goku would thus be a joke: for him, it would be like punching air, and the Earth would collapse on itself.
Posted on: Tue, 16 Dec 2014 17:07:18 +0000
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