First, let’s imagine a vast space with huge, gigantic galaxies. Next, let’s imagine a quantum kingdom dominated by very, very small particles.
The laws to which each is subject are different; a microstructure dominated by the laws of relativity in the first and strange laws in the other. We also have our classical reality defined by Newton’s laws.
On the other hand, despite their contradictory rules, microparticles form the macro structure and together they present us an extraordinary universe.
The information flow in this extraordinary mega-structure, built with the participation of natural and artificial intelligence, starts with the vibrations of the smallest particles (strings) in at least 10 dimensional space, and vibrating strings act as fundamental particles, which in turn form molecules (cells in living form) and thus as a part of the human organism. It makes up our brain.
As we move towards larger dimensions, beyond the planets comes our universe, which includes galaxies and other celestial bodies. Beyond that, we are once again ascending to space-time, where the smallest particles (strings) vibrate. And here we encounter multiverses
Our chronic problem is: How can we fit all this into one picture? Let’s say we fit it, how do we get them to agree with each other? We are in this picture, but our reality is subject to Newton’s laws; one side of us is relatively large and the other side is extraordinarily small.
Big Picture
We consider the big picture in three layers.
The first layer includes the area where we can reach experimental and observational evidence on micro and macro scales, including our reality. We call this the big picture.
The second layer encompasses the area that we identify with indirect evidence, beyond the limits of empirically and observationally proven. With this layer, we reach a bigger picture.
The third layer goes beyond what we can reach with indirect evidence and we move towards the foundation of reality. This is our biggest picture.
To create the picture, let’s show the spatial dimension with a horizontal line and put the neuron, the most charismatic cell of the human brain, in the center; This cell certainly deserves such an honor: 10-5 meters in size.
First, we move towards the smallest dimensions whose existence we have determined with our eyes or with the devices we have developed, or with experimental data. When we go into the depths of matter, quantum particles greet us; their existence has been experimentally proven: These are subatomic particles; protons, neutrons and quarks: Size 10-20 meters.
We know that they are at the root of everything; each macro structure is the sum of them. On the right, as you move towards the larger dimensions, planet-sized celestial bodies greet us: the size is 1010 meters.
The big picture extends to quantum particles in the micro world and celestial bodies in macro space, and they are inversely equidistant from the living cell. Subatomic particles on one side; we can detect them; on the other hand, large objects that we can reach or have the potential to reach, such as the Moon, Mars.
Bigger Picture
However, we know that there is more to them: We know their existence indirectly. Let’s try to fit the smaller and larger ones, whose evidence we can find, into our picture.
As we move beyond planets on the right and subatomic particle sizes on the left, we are limited by the Planck scale behind and the Hubble scale encompassing the visible universe ahead.
Planck length: 10-35 meters, the smallest unit of this space, below which uncertainty prevails. Beyond these dimensions are full of quantum oscillations; space-time with virtual particles and quantum bubbles.
The largest distance is a Hubble-scale universe, size: 1025 meters. The visible universe includes planets, galaxies, galaxy clusters and black holes. This is our universe. There is such a place here, the only place where Einstein’s Theory of Relativity and Quantum Theory come together: Black holes.
In terms of relativity, black holes are objects in macrospace where space-time is warped and gravity is most effective. The place where the most effective information is stored in terms of quantum. On the one hand, it is an easy-to-understand object, and on the other, it is a very complex structure.
The larger picture is space-time, with a quantum fluctuation of vibrating strings on the left, while the living cell rests on the boundaries of the visible universe to the right; We fit it all into one picture.
Even Bigger Picture
We are now moving beyond the beginning from both sides. Behind the Planck scale is quantum information. Every physical system, every star, every cell, every being in the universe works on the basis of information; Each particle acts as a logic gate of a computer, recording and processing information.
Physics shows us that information is a crucial player in physical systems and processes. That is, every physical entity is a kind of information processor, and it is also possible to describe them by information content, ie bits and bytes. In other words, the smallest of the smallest is based on quantum information, and therefore quantum information is located in the fundamental layer under the first Planck scale.
This is also the gateway to multiverses. Space beyond the visible universe is not actually empty, but rather space-time filled with quantum particles. It’s like a soup of quantum particles, and in that sense, it’s like a constantly active ocean with vacuum fluctuations.
Virtual particles are a product of vacuum fluctuations; They are defined by their sudden emergence in the form of particle pairs, that is, as matter-antimatter, and their disappearance as quickly as they appeared.
This is where the biggest and the biggest intersect; mega-universe or multiverse, inverse dimensional of quantum information. Perhaps our universe is a member of this collection of universes.
Last Word
This painting is the embodiment of the extraordinary success story of the human mind. The ranks take place on both sides of the living cell in inverse proportion; the living cell in the middle, the planets to its right, the visible Hubble-scale universe ahead, and beyond that, a mega-universe. On the left, there are subatomic particles, behind them space-time with quantum oscillations on the Planck scale, and behind it quantum information.
Now it’s time to have the final words: We’re looking at the big picture, from smallest to largest, the fundamental question is: How come the layers that make up the smallest and largest dimensions are equidistant?
This is truly an incredible arrangement, the layers have equal but inversely proportional dimensions on both sides of the living cell; It evokes the idea that distances and dimensions are somehow related to each other.
According to scientists, our universe and living life on Earth seem disturbingly fine-tuned. There is a mathematics: it is the dream of all scientists to one day achieve that mathematics. He hasn’t been found yet, but we can see the traces he left behind. Those traces will eventually lead us to reality itself one day.
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