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Chances of intelligent extraterrestrial life exist updated by new AI model
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Chances of intelligent extraterrestrial life exist updated by new AI model

Are we alone in the universe? Does extraterrestrial life exist in our galaxy and beyond? Today, as technology continues to rapidly advance, the answers to these profound questions are closer than ever.

Astronomers recently designed a new model they call the “formula of life.”

Experts hope that this tool will make it possible to calculate the chances of the existence of intelligent life in our universe and even predict the potential for the emergence of extraterrestrial life in future universes.

New generation of intelligent living

According to this new calculation model, the probability of life beyond our galaxy rises to 27%, which could disappoint the 65% of American adults who firmly believe in extraterrestrial life.

It is interesting to note that the chances of smart life existing within our own Milky Way are even lower – just 23 percent.

These estimates come from the concerted efforts of researchers at University of Edinburgh and the University of Genevieve.

The study suggests that star formation and large-scale planetary evolution could intertwine to “quietly form the next generation of intelligent life.”

Frank Drake’s famous equation

THE The Drake equation is a formula which estimates the number of active and communicative extraterrestrial civilizations in our galaxy.

Frank Drake introduced it in 1961 as a way to break down the complex question of extraterrestrial life into more manageable parts.

The equation takes into account factors such as the average rate of star formation, the fraction of stars with planetary systems, the number of planets likely to support life, and the likelihood that life will develop intelligence and technology to communicate in space.

By changing the values ​​of these factors, we can explore different possibilities for how common or rare intelligent life is in the Milky Way.

It is not a question of obtaining an exact figure but of generating discussions and guiding research in astronomy and the search for extraterrestrial intelligence (SETI).

Dark energy and the potential for extraterrestrial life

To understand the potential of other forms of life, the team designed a theoretical model that relies heavily on Drake equation.

The researchers stressed that their calculations do not suggest a certain number of intelligent life forms, but rather estimate the probability of their appearance. existence.

Their estimation process takes into account dark energy, which makes up more than two-thirds of the universe and fuels its expansion.

“Understanding dark energy and its impact on our universe constitutes one of the greatest challenges in cosmology and fundamental physics,” said lead researcher Dr. Daniele Sorini, affiliated with Durham UniversityInstitute for Computational Cosmology.

Potential for future extraterrestrial life

In addition to the probabilities of current extraterrestrial life, the researchers’ model also takes into account extraterrestrial life forms that do not yet exist but could develop in the future.

To do this, they calculated the amount of ordinary matter that has combined to form stars over the history of the universe, going back 13.8 billion years.

It seems that the chances of smart life appearing in universes beyond our own also hovers around 27 percent.

“Surprisingly, we found that even a significantly higher dark energy density would still be compatible with life, suggesting that we may not live in the most likely of universes,” Dr Sorini said.

Interaction of gravity and extraterrestrial life

Another intriguing factor in the creation of cosmic life is the role of gravity. Influences of gravity the formation of stars and galaxies, paving the way for potential habitats where life could develop.

The magnitude of gravity’s influence on these processes highlights its importance, not only in structural formation, but also in creating conditions that can support the emergence of life.

Existing research suggests that regions with optimal gravity balance could support complex planetary systems, paving the way for biological evolution.

As scientists continue to explore the mysteries of the universe, understanding the precise role of gravity will add another layer to our understanding of the cosmic potential of life.

What happens next?

Modeling the probability of intelligent life in other universes opens many avenues for future research.

Scientists now need to further refine these models, basing them on observations and experiments to reach more precise conclusions.

Such work may involve advancing our understanding of dark matter and energy – components of the universe that remain elusive but crucial to understanding the cosmic puzzle.

This quest could bridge the gap between theoretical physics and cosmology, bringing them closer to the realm of empirical science.

From speculation to exploration

“It will be exciting to use this model to explore the emergence of life in different universes and see if some fundamental questions we ask about our own universe need to be reinterpreted,” noted Lucas Lombriser, co-author of the study and professor at the University of Washington. Genevieve.

If this research can help us better understand our own universe and its likelihood of supporting life, it seems we have come a long way from wild speculation to measured inquiry into our place in the cosmos.

So what does all this mean for us? Are we about to come into contact with extraterrestrial life forms? Although the research results might cause some to temper their expectations, the search for extraterrestrial life continues.

Ultimately, we must remember that the universe is vast, mind-bogglingly diverse, and still largely unexplored.

THE discovery of life beyond Earth – both as we know it and beyond our current understanding – remains an exciting frontier in scientific exploration.

The study is published in the journal Monthly Notices of the Royal Astronomical Society.

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