This is actually a scientifically plausible theory. There lies an invisible realm in which phenomena is invisible due to multiple aspects. Some could include these explanations: 1) It's microscopic 2) It happens or moves too quickly & 3) It's invisible to certain light frequencies. Now, if multiple aspects such as the ones listed before are features of something, then that something can almost surely be invisible. Obviously, microscopes, high speed cameras, time lapse animations, & things of this nature help us see things in an entirely new perspective. At times, technology reveals a perspective that could be considered a "new world". Yet, we still don't know many things even with modern technology. There are definitely things out there that are just beyond the limit of technology. When we think of a microscope, telescope, thermal camera, or anything of that nature, we think of something that can give us a better view of the world, usually in a single "aspect". However, what if we could view something in multiple aspects?- if so, how many aspects would we be able to observe at once? Well, when you think about this enough, you may start to wonder, if there's a limit to our technology in this regards. Is it possible that there my reside a world which is totally invisible? Think back on the aspects I listed towards the beginning. It's quite possible that there could be something, or some pheonomena, which could have multiple such aspects to it. For example, let's start out by saying that there is a phenomena happening on Earth which is microscopic (We're assuming you know somehow it exists). So you decide to take out a microscope and you catch it in a closed container. Then you realize you can't observe it because it's constantly moving. So you take it to a lab. In order to observe the phenomena, they freeze it. Then the contents dissolve once they stop moving. You have another one though. So they put it beneath a microscope, & this time they leave it at room temperature. They hook up a slow motion camera to a microscope to observe it. The problem now, however is that the phenomena really IS invisible. Unfortunately, it no longer interacts with light. Specifically, it no longer interacts with frequencies that are under thermal frequencies. Now not even a slow motion microscope is useful; You may be wondering, maybe I should find a scientist with a thermal microscope? and this is where you hit a dead end. Why? Because it turns out that the phenomena is smaller than the wavelength of IR light. That goes to show that our technology still has a ways to go. If you know enough about physics, you may think you can solve this puzzle. One thing that might come to mind is to conduct the observation using a quantum thermometer. This would most likely be an issue. That's because the phenomena is always physically moving. So, how are you possibly going to get accurate temperature readings?
Yes, I think this is definitely mind boggling. Yet, I really would need to think this through if it doesn't make sense to you. I'm afraid it may sound like nonsense to some, but really, in order to get the information down in a way that makes sense is quite challenging. You can figure it out if you treat it like a puzzle; know what pieces you need, & put them together.
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