Time Travel Explained: How AI Could Make It Possible

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The Theoretical Possibilities of Time Travel into the Past Using Advanced AI of the Future Time travel has captivated the human imagination for centuries, appearing in countless books, movies, and scientific debates. While it remains a speculative concept, advancements in artificial intelligence (AI) might one day make time travel—at least theoretically—a tangible reality. Could future AI unlock the mysteries of time and help humanity navigate the fabric of space-time? Let’s dive into the possibilities. occur. Solving Energy Constraints One of the biggest barriers to time travel is the immense energy required. Future AI could optimize energy generation and utilization techniques, making creating the conditions necessary for time manipulation feasible. Quantum Computing and Time Dynamics Quantum mechanics introduces concepts like superposition and entanglement, which might play a role in time travel. Quantum AI could analyze and harness these phenomena, potentially bridging gaps in our ...
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Two giant black holes found locked in cosmic When they merge, space & time will shake

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Researchers from the University of Manchester in the UK have found a couple of supermassive dark openings secured an astronomical three step dance 9 billion light years away.

The two monster bodies circling each other are every a huge number of times more monstrous than our sun, and the items are isolated by a distance multiple times more noteworthy than that between our sun and Pluto.

Whenever the pair converge in about 10,000 years, the titanic crash is relied upon to shake reality itself, sending gravitational waves across the universe.

This is presently the second known possibility for a couple of supermassive dark openings trapped in the demonstration of blending. The main applicant pair is surrounding like clockwork instead of the new pair, which requires two years.

Nearest wellspring of puzzling quick radio blasts distinguished

Cosmologists from the University of Toronto and McGill University in Canada have distinguished the nearest known wellspring of the baffling glimmers overhead known as quick radio explodes. The group followed some rehashing blasts to their starting point among old stars in the close by twisting system M81.


Quick radio blasts are flighty, very short glimmers of light from space. Stargazers have attempted to comprehend them since the time they were first found in 2007. Up to this point, they have just at any point been seen by radio telescopes.


Each glimmer keeps going just thousandths of a second - yet every one conveys as much energy as the Sun gives out in a day. A few hundred glimmers go off each day, and they have been seen all around the sky. Most lie at colossal good ways from Earth, in cosmic systems billions of light years away.



Analysts made high-accuracy estimations of a rehashing burst source found in January 2020 in the group of stars Ursa Major, the Great Bear.


At the point when they investigated their estimations, the cosmologists found that the rehashed radio blazes were coming from some place nobody had anticipated.


They followed the blasts to the edges of the close by twisting system Messier 81 (M 81), around 12 million light years away. That makes this the nearest ever discovery of a wellspring of quick radio explodes.

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