Dimensions and space in the space-time continuum
Every dimension is predicting the next dimensions in the time-space continuum
When we are trying to model the dimension, we can think of that space or the three-dimensional world as the room. First, when we are in that space, there is simply the room, but then we can look at those things more carefully, and we must not in that room a very long time when we are seeing that the room is not empty. There is furniture, boxes, and at least dust.
At first those objects look like kinetic. Then we might take a microscope in hand and look at those things like dust or furniture, we might see that there are empty things in those objects. So if we are thinking the room as a three-dimensional space, the chambers in the other objects are the other dimensions. But the problem is that dimension is the space, and that makes the modeling of that kind of thing very difficult because we cannot model those dimensions in our three-dimensional world.
The thing that makes it difficult to understand other dimensions is that we cannot see them. And when we (or at least I) are taking them as the energy layers or some kind of oscillation of the atoms or subatomic particles, we are facing one interesting theory. The theory is that there are also extra dimensions in our three-dimensional world, and those dimensions would be so small, that we cannot notice them. Or the other dimensions are like bubbles in the space, what we are calling as the universe or three-dimensional space.
We are trapped in our three-dimension space and that makes it impossible to travel inside that other dimension. The reason why we cannot do that is that those dimensions are not interacting with each other.
So that means that those other dimensions would be small but they can be more dimensional than normal space. And if we could go in those extra dimensions what are in our three-dimensional world we could travel to the other stars. That thing requires that we would enter to those other dimensions and travel in there. But in fact, we don't know what happens in those dimensions.
As I have written dimension is the space and if we are thinking the extra dimension as the small space where we can move in, we are forgetting something. Extra dimension might look small, but when we are in it, it might be as big as the third dimension, where we are living. And that means every each dimension predicts the next dimensions.
If we are thinking about the one and two-dimensional spaces, the first and second dimensions are also extra dimensions. If we are trying to model the words, what are describing the first and second dimensions, we can say that they are the sub-energetic or predicting models of the third dimensions and other dimensions are the more high-energetic layers of the other dimensions.
Also first and second dimensions are extra dimensions and they are virtual in our three-dimensional universe.
When we are thinking that there are 11 dimensions(1), we must remember that the first and second dimensions are also important. There are no other dimensions without those dimensions. So how the second dimension is different than the third dimension? The thing is that if we are drawing something on the paper, that means this is the model of the two-dimensional world. But the reality is that this drawing is the virtual version of the two-dimensional universe.
Every each atom in the real two-dimensional universe is flat. And we cannot see those dimensions either. We are trapped in three-dimensional space, and we cannot move freely between those dimensions. But if we are thinking about the dimensions as the energy layers, we can think that traveling in time would be possible if we would benefit the dimensions.
If we would want to travel in the future, we must just jump in the fourth or fifth dimension. And then if we want to travel back in time, we must just go to the second dimension. But how we could get in those dimensions is the problem. If the dimension is the oscillation of atoms, we could change that oscillation very effectively.
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