Who wins?
By entire, I mean EVERYTHING. Halo, for example, would have all of the Precursors, Forerunners, Covenant, Flood, and Humans all teamed up against ALL the Star Wars universe
They all have their technology as well. Halo has their Halo Rings and such, Star Wars has all their Star Destroyers and Death Stars and all that
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Edited by DarthBrando: 9/5/2015 3:14:29 PM[quote]Weight/mass of mars in metric tons: 6.39 × 10^20 t Average weight of 1 adult human: 70 kilos (1,000 kilos for 1 ton) Thats 14 people for 1 metric ton: Weight/mass of mars: 639,000,000,000,000,000,000 metric tons Thats: 4,500,000,000,000,000,000 adult humans (450,000x 1 trillion exactly) So no the weight of ALL human life forms in ONE galaxy (if each world holds a trillion thats 450,000 of them roughly) IS Barely equal to the weight of mars! (My original guess was 100,000x a trillion, you need 4.5x that JUST to get close to mass of mars and mars is a SMALL planet! Thats also FULL body weight not just nervous system)[/quote] Death star creates a reaction powerful enough to distroy/displace the mass of MEDIUM TO LARGE PLANETS! (Rocky not gas giants) Halo rings only kill life forms in the galaxy upon 1 firing (halos needs way longer cool down than death star too!) The above shows that on a rough average guess of population of 1 galaxy the halos DONT even distroy/displace the mass of ONE SMALL PLANET. So yea by measurement of the reactions the weapons produce THE DEATH STAR'S SUPER LASER is; MORE powerful than the ENTIRE network of Halos firing AT THE SAME TIME! [spoiler]science beiotch! Lol jk but yea math works. [/spoiler] Edit: May have been off on 450,000 x 1 trillion by 1 extra place value; so it might be 4,500,000 x 1 trillion (thats the only error if it is one tho. Also note at 70 kilos per person its 14.2xxxxxx per metric ton, so i rounded down. On 6.39x10^20 tons converted to 4.5x10^18 avg humans i rounded down from 4.568xxxx to 4.5 flat to compensate for the extra 1/4 a person per ton; thats why 4.5x10^18 average people are barely = to mass/weight of mars and not exactly equal to)