Scientists find similarities between the universe and the human brain

Science Times - Scientists Find Similarities Between the Universe and the Human Brain

A new study recently examined the differences and similarities between the two multifaceted systems that existed. Although on a completely different scale – the universe and its galaxies are at odds with the human brain and neuron cells.

In particular, the The study authors found Although the gauge is clearly different, the structure is unusually similar.

In some cases, the two systems looked more similar to each other than the parts they contained.

In addition, the study suggested that very different physical processes could lead to similar complex and systematic structures.

(Photo: NASA / ESA via Getty Images)
According to a recent study, the function of the human brain is based on a network of about 70 million neurons. The universe is believed to have at least 100 billion galaxies.

Comparison between networks

As described in the study, the human brain functions through a network of approximately 70 million neurons. The universe is believed to have at least 100 billion galaxies.

In each system, these are grouped together into a complex network or web, spread across filaments and nodes that connect them.

These spreading nodes are common to images of the universe and the human brain, and cause some superficial similarities in images.

However, in all systems, those threads make up only 30 percent of the mass. In each case, they have seized it, despite obstacles we can scarcely imagine. ” And water in the brain in such parts The dark energy of the universe.

‘Spectral density’

To understand the similarities more deeply, scientists are comparing the way galaxy is created in parts of the brain. They tried to understand how the issue spread across two very different networks.

According to Franco Vasa, an astronomer at the University of Bologna, they calculated both systems. Spectral density, A technique commonly used in cosmology to examine the spatial distribution of galaxies. Vassa also worked with Alberto Felti, a neurosurgeon at the University of Verona, on the project.

Vassa said their assessment showed that fluctuations within the cerebellum neuronal network were distributed from one micrometer to 0.1 mm. Cosmic Web However, of course, a large gauge can go from five million to 500 million light-years.

The researchers also examined the ways in which the webs of galaxies and neutrons are connected, and found similarities with systems that appear to be more similar to their components. To come up with a result, the researchers compared the average number of links between each node and their clustering pattern.

Unexpected contract levels identified

Felti explained that “again, the structural parameters” found an unexpected contract level. He went on to say that the relationship between the two networks follows the same physical principles, despite the striking and obvious differences between the physical forces controlling the galaxies and neurons.

Felty said the two complex networks show more complexities compared to the role of the galaxy and the cosmic web, or between a neuronal network and the interior of the neuronal body.

Presented a paper entitled “Quantitative Comparison between the Neuronal Network and the Cosmic Web” Boundaries of physics Journal.

Also read: NASA Hubble Space Telescope detects galaxy moving from Earth at 3 million miles per hour

Check out more news and information on Galaxies In the Science Times.

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