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- Seen Jun 25, 2015
Hello pokemon fans, (especially those of you who like theories)
rollerman3 here, but you can call me roller to make things more simple. Not that this thread is at all simple, though.
Let me just begin by saying that this website could use a few more theories. Don't get me wrong, there are a few, like the ditto-mew relation, but other than that it didn't seem like anyone was trying to make a legitimate theory. No offense to you guys. So here is my theory, and it is on a real life pokeball. Keep in mind that there will be some holes in this theory, since it's not 100% completed, and there will also be a few things you wouldn't expect from a pokeball, and even a dark note.
Here we go...
So, to create a real life pokeball, we need to cover a few topics: Retrieving/sending out pokemon, storing pokemon, catching pokemon, the energy source, and what a pokeball actually does to a pokemon while it's inside. First, let's talk about storing pokemon, because I consider that to be the glue that holds everything together. For those of you who thought pokeballs were portals to another dimension, sorry, but that's physicallly impossible. Those of you who thought that pokemon were stored as energy or data, well, you're kinda right. Those of you who thought they would be stored as both data AND energy, good job! You were right! To store a pokemon in a pokeball, we would need to break it up into energy and record its data and dna sequence and stuff. How this works is something I don't quite know yet, although feel free to fill in the blank. To do this, we would literally need to install a supercomputer. The reason being that this would take up HUNDREDS OF TERABYTES. That's right, terabytes. For those of you who don't know how much that is, well, that's 1,000,000 megabytes. Kinda impractical, but hey, can you think of another way? (if you can, that's great, put it in the comments please.) Now, we will talk about the energy source. This could work as one of two ways: 1=Wireless energy. Although weak, it pretty much constantly would charge that iphone of yours, no matter where you are. Cool, right? 2=A molecule I learned about while watching a video on a real life lightsaber theory. This molecule, I don't remember the name, but I can get it later... Anyway, it is very small but has a LOT of energy. So the down side to this is that it has a limit, while the other doesn't, but you can use more energy at a time. So that pretty much covers energy.
Phew, this is a lot of work. Let me know if you guys want more of my theory and I will get back to you this weekend (:
Bye!
rollerman3 here, but you can call me roller to make things more simple. Not that this thread is at all simple, though.
Let me just begin by saying that this website could use a few more theories. Don't get me wrong, there are a few, like the ditto-mew relation, but other than that it didn't seem like anyone was trying to make a legitimate theory. No offense to you guys. So here is my theory, and it is on a real life pokeball. Keep in mind that there will be some holes in this theory, since it's not 100% completed, and there will also be a few things you wouldn't expect from a pokeball, and even a dark note.
Here we go...
So, to create a real life pokeball, we need to cover a few topics: Retrieving/sending out pokemon, storing pokemon, catching pokemon, the energy source, and what a pokeball actually does to a pokemon while it's inside. First, let's talk about storing pokemon, because I consider that to be the glue that holds everything together. For those of you who thought pokeballs were portals to another dimension, sorry, but that's physicallly impossible. Those of you who thought that pokemon were stored as energy or data, well, you're kinda right. Those of you who thought they would be stored as both data AND energy, good job! You were right! To store a pokemon in a pokeball, we would need to break it up into energy and record its data and dna sequence and stuff. How this works is something I don't quite know yet, although feel free to fill in the blank. To do this, we would literally need to install a supercomputer. The reason being that this would take up HUNDREDS OF TERABYTES. That's right, terabytes. For those of you who don't know how much that is, well, that's 1,000,000 megabytes. Kinda impractical, but hey, can you think of another way? (if you can, that's great, put it in the comments please.) Now, we will talk about the energy source. This could work as one of two ways: 1=Wireless energy. Although weak, it pretty much constantly would charge that iphone of yours, no matter where you are. Cool, right? 2=A molecule I learned about while watching a video on a real life lightsaber theory. This molecule, I don't remember the name, but I can get it later... Anyway, it is very small but has a LOT of energy. So the down side to this is that it has a limit, while the other doesn't, but you can use more energy at a time. So that pretty much covers energy.
Phew, this is a lot of work. Let me know if you guys want more of my theory and I will get back to you this weekend (:
Bye!