User blog:Primussupremus/Universe inside a universe inside a universe inside a universe inside a universe...inside a universe.

We define a universe to be the observable universe as the size of the whole universe could be infinite although that wouldn't be very fun scientifically. The diameter of the universe is approximately 93 billion light years meaning it would take light 93 billion years to travel around it once! 93 billion light years is equal to 5.46712159706e+23 miles. Now lets say that the observable universe is contained by an even larger universe 5.46712159706e+23 times larger than itself. This 2nd second universe would be 2.988941855704 × 10^47m in diameter,but lets say that this universe was contained by an even larger universe 5.46712159706e+23 times larger than itself. This 3rd universe containing the 2nd second would be roughly equal to 1.634090857168 × 10^71m in diameter. You continue this process on until you have got to the Googolplexth universe or iteration of this hypothetical universe inside a universe scenario. You don't have to stop their because instead of saying this is a universe you could say its an atom in an even larger universe,in other words this googolplexth iteration universe would just be the size of an atom if compared to whats up next. You could then say that each of these atoms contains an even larger universe.You repeat this process of finding an even larger universe within the atom for 9.5569059498930903893883983839383839893838398598395893859385839989389389385*10^55555555555555555555555555555555555555555.5667555549 iterations. Once this has been done you the process using the original idea of using 5.46712159706e+23 as the basis for another 1.5625*10^10^55^720^98^6666666666666*10^55 iterations. You call this number n and iterate it n↑↑↑n times. You then iterate it n↑(n↑↑↑n)n times. After that you iterate it n↑(n↑(n↑↑↑n)) times. You take iterate it another n↑(n↑(n↑(n↑↑↑n)))times. You continue to iterate it another n↑(n↑(n↑(n↑(n↑(n↑(n↑↑↑n)))))) times. Once this universe has been reached you call this new universe m as in master or mother or matrix or metric or mega or mooga or maga or manga or mgggg. You then iterate it (m↑(m↑(m↑(m↑(m↑(m↑(m↑(m↑↑↑m))))))))...m↑(m↑↑↑m) where there are (m↑(m↑(m↑(m↑(m↑(m↑(m↑(m↑↑↑m)))))))) m's in the chain. Lets say you were continue to define larger and larger universes that contain even larger universe at a rate of 1 million definitions per 1 googolplexth of a second for a period of 594094090469009555555555555555490934094309393039 years eventually you'd reach a point where all concepts of a universe would become meaningless.You could never stop because you could iterate it for an infinite time of times and infinity means never ending. But the ultimate question is what happens after you get to the limit of this universe inside a universe scenario do these 2nd order universes becoming smaller or do they grow to become so big that they cause the whole omniverse to collapse into a blackhole! But what of nth order universes or even omega order universes or even Eo (epsilon naught)universes the list of possible orders of universe is as endless as their are universes. Another question that arises from this at least in my mind is whether or not different universes are affected by each other? It could be possible that different universes hold each other together so a to stop each universe from collapsing into a super massive black hole with a mass the size of the multiverse. Something else to note the infinity we are using is not the absolute infinity of Cantor but rather than transfinite numbers. The transfinite numbers are numbers that are bigger than all finite numbers making them essentially infinite in the sense that you can't reach then on a finite number scale. For example lets say that A is defined to be the largest finite number then A+1 would be in the realm of transfinite numbers as it is out of the reach of finite numbers. The moral of this story is don't try to think of infinity or your brain will melt and a blue flamingo will fly out of it!