Perfect virtual reality and simulation need extreme powerful machines

Perfect virtual reality and simulation need extreme powerful machines

Numbers are an awesome tool for humans, but we always are forgetting a thing, that the word of numbers is virtual. We play with things, what is a pure abstraction. In one day, I found a nice little question from some notes and that question was that what if the person, who invented the decimal system would be lost one finger? Would we have a numeric system, where the number nine would be in the place of number ten? This is a very good thing to think when we are thinking about the virtual world.

Everything in the virtual world is based that the thing has been settled, and that means virtual worlds interesting. Virtual worlds are places where everything is possible and in some theories or points of view, one of the virtual worlds is the imagination of people. The imagination brings the rules for the virtual world, and the thing is that there we can do everything, what we want.

This is the strength of the virtual world, where we can build every kind of houses, what we want, and those houses would rise in seconds, or how fast the computer can calculate the things, what will be happening in that process, what will take many months in real life. And that is a very important thing for people like architects and other inmates, who would need a cheap and powerful way to create and model their thoughts. But as we know, the cheap way doesn't necessarily mean, that the tools for that cheap solution are cheap.

Virtual reality is not only the 3D-images and nicely rolling film, which can take back when we want. It is also the simulation, how particles are moving around some objects and the size of those particles changes between single atoms to sand bites. That means that the flow of the wind and also the changes in thermal conditions would change the form of the house or any other structures. When we are observing the thermal growing and contracting of the structures, we might think that there is nothing matter, if the material is growing a couple of tenth of millimeters.

But if those growings would happen in thousands of places at the same time, that would matter. And if there would be some one-tenth of millimeter size holes in the frames of the windows what are top of the 400-meter tall building, the underpressure would cause that the flow of the air is causing the freezing in the building.

Even if that building has not to effect those holes, the extreme structures like space stations the smallest holes can be fatal. And the same thing happens in deep-sea structures. The thing in those structures is that the pressure inside them is different than outside, and that causes the problems with that structure. When we are thinking about the possibility to create an extremely tall building, we must remember, that the sea would be the perfect place for that thing, because water is supporting that structure.

If we would think about the building, what is kilometers high, that thing would be done in the sea, because in the very heavy structures would connect the floats, what will decrease the weight, what influences to the foundation of those extreme structures, what might someday build in the seas. But there are very much problems with the water flows and winds if we would want to create the skyscrapers of the seas.