In this video, experience something astonishing as NASA Scientists Detected First Proof Of Parallel Universe 'Next To Ours' Where Time Runs Backwards. Have you ever thought of the parallel universe? Does the thought of a parallel universe's possible existence cross your thoughts at any point? Well! It may sound like a sci-fi movie but the concept of parallel universes is one that captures the attention of people who are passionate about space. You are going to have your mind blown because, in this video, NASA scientists found evidence of a parallel world in Antarctica. This universe is located right next to ours, and in it, the physical laws appear to be working in the opposite direction.

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From a physics perspective, the idea of parallel universes is one of those interesting ideas that is creative and interesting, but hard to test. They first appeared in the setting of quantum physics, which would be known for having consequences that are unpredictable even if you know anything conceivable about just how you set up your system. The origin of these concepts may be traced back to the early 20th century. If you take one electron and pass it through a double slit, you will only be able to determine the probability of where the electron will end up; you will not be able to pinpoint the specific location where it will be found. The several perceptions of quantum mechanics is a fascinating theory that theorizes that all the outcomes which are capable of occurring and actually do occur, but only one outcome is capable of occurring in each universe.

The idea of the "MULTIVERSE" is another source of parallel universes in physics. The Big Bang, which happened 13.8 billion years ago, was the first thing we could see in the Universe, but it wasn't the very first thing. Before the Big Bang, the Universe went through a very different time called "Cosmological Inflation." This time set the stage for the Big Bang. A Big Bang takes place when & where inflation stops. But inflation doesn't stop everywhere at the same time, and in the places where it doesn't stop, it keeps going up, making more room and more possible Big Bangs. In fact, once inflation starts, it's almost impossible to stop it from going on forever at least somewhere. As time passes, more Big Bangs happen, but all of them separate from each other. This creates a multiverse, which is a huge number of separate Universes. The big problem with both of these concepts is that there is no way to test or limit the predictions of these parallel Universes.

Unless, of course, you've seen the news that scientists in Antarctica have found proof that there are parallel Universes. If this turned out to be true, it would result in a huge change. It's a big claim that would reveal to us that the way we think about the Universe now isn't enough and that there's a lot more to learn and find out that we never thought possible.

Not only would there be other universes in existence, but the matter and energy that exists in those universes would be able to pass through to our universe and interact with the material and energy that exists here. So, what are some of the most astounding pieces of evidence that point to the existence of parallel universes? What observation and measurement resulted in this astonishing and unexpected conclusion? NASA's ANITA experiment, which refers for Antarctic Impulsive Transient Antenna, a balloon-borne experiment that detects radio waves of a specific set of energy & directions originating from beneath the Antarctic ice. This is great; it's exactly what the research was supposed to do! We have all kinds of cosmic particles flying across space, including the ghostly Neutrino, in both theory and practice.

These neutrinos are also available in a wide range of energy, with the most energetic ones being the most uncommon and, in the opinion of many physicists, the most exciting. Neutrinos are mostly undetectable to normal matter — a light-worth year's of lead would have a 50/50 chance of preventing one — thus they can actually arrive from any direction. The majority of the high-energy neutrinos we observe, however, are formed when all the other cosmic particles with extremely high energies collide with the upper atmosphere, resulting in particle cascades that also produce neutrinos. A few of these neutrinos will pass almost completely through the Earth, only reacting with the final layers of the Earth's crust or ice to generate a signal that our detectors can detect. The uncommon events observed by ANITA were compatible with a neutrino traveling through the Earth & creating radio waves, but with energy so high that unrestricted passage through the Earth should not be feasible.

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