User blog:Fuzzo the fuzzy bee/Extensionverse

Asteroids are asteroids, however they are always generated by them suddenly appearing somewhere in the Extensionverse. They hit each other and break into half-sized asteroids, and these hit other half-sized asteroids and fuse into normal sized asteroids. A normal sized asteroid from a fusion, on contact with another asteroid, fuses again and gets bigger. If it gets big enough, it will seek out a star and become a terrestrial planet. Planets are formed when asteroids get to a certain size. They aren’t always spheres, they can be ridiculous shapes in the Extensionverse. Gas giant planets are launched out of stars for some reason. Sometimes planets break out of their orbits and fly through space as rogue planets. This is less common for gas giants. Some planets have life. Stars are stars that are, instead, are in 2 categories. They are yellow normie stars, and then there are purple god stars. The purple stars are 100x as rare, however, they go supernova at 100x size, and this is called a giganova. The purple stars are formed when 2 stars collide and get bigger, then 2 stars of that size collide and get bigger, and then 2 stars of THAT size collide and get bigger. The end result is a purple star. Nebulae are the results of supernovae. They make stars form within them, however they don’t make purple stars like this; those have to do their wierd collision thingy for that to occur. A while later, nebulae will eventually dissapear and leave those stars to go supernova and make more nebulae. Nebulae from purple stars are 100x as large and produce 150x as many stars. Galaxies are always cube-shaped and made of trillions of nebulae. Near the center, the nebulae are up to 10x as common, and the center has a supermassive black hole but even larger in it. Nebulae outside of galaxies clump together and generate a black hole, creating a galaxy. If a galaxy has too many nebulae, it will burst and fling the nebulae into space. Galaxy clusters are like borderless verses. The galaxies form inside of these, and galaxies don’t drift out of these and the only way they can go into another cluster is if the clusters collide or are close to each other or if the galaxy is at the edge of the cluster and bursts, and some nebulae get flung and will seek out the nearest galaxy cluster that they haven’t been to before, however they lose their “memory” of specific clusters after 10 trillion years. Galaxy superclusters come in 2 variants. The first variant, or GSA, is a clump of Galaxy Clusters that fly around at high speeds inside the Galaxy Supercluster. This makes it easier for galaxies to be transferred. The second variant, or GSB, is a larger area like a Galaxy Cluster for Galaxy Clusters (but smaller). Galaxy clusters outside superclusters go to the nearest supercluster, and superclusters with too many clusters split into 2 smaller Superclusters. If this keeps happening, it will eventually be a bunch of galaxy clusters and they will reform. A bunch of galaxy superclusters orbiting in the same direction and at varying speeds around a large galaxy supercluster, or GSD, that keeps producing Galaxy Superclusters. Supercluster complexes move quite slowly and, on collision, will merge. After awhile, the GSC gets too small and the inner Supercluster Complex is thrown into it, reforming it’s original size, while the outer Supercluster Complex is thrown out of the GSD due to low gravity. Verses form when 100 Galaxy Supercluster Complexes end up hitting each other. These are very large and constantly produce GSCs from their borders and they send those GSCs either outside of the verse or into the verse. The borders are pretty easy to break, and verses are quite rare. Verses, on collision with other verses, has half of each verse’s borders shatter and the rest of the other one’s borders turn into a bunch of Galaxies.
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