Why do some scientists believe that we live in a black hole? Is this a possibility? So in theory such a black hole would be larger than our entire universe.
Black holes are the strangest objects in the universe. It is so extreme that even current science cannot fully explain it.
Although humanity has known this for hundreds of years. However, it still confounds today's physics. In numerous attempts to understand this, some scholars have proposed a different idea.
In other words, many people have said, “We all live in black holes.” Everything from matter to massive stars, galaxies, and the entire observable universe now resides in black holes.
While others claim that our universe is a hologram. Which says that everything we see and perceive is real. It is encoded within our private world. The feeling that our universe is three-dimensional is created by the two-dimensional view as well as time.
But the important thing is a black hole is an object that sucks everything into it. Therefore, some scientists believe that every substance that enters it is decomposed into the simplest form of information. This has led many experts to believe that there may be a possibility. This information will be reconstructed into “something” inside.
“In the general theory of classical relativity, French astrophysicist Jean-Pierre Lumenier said, black holes prevent any particle or form of radiation from escaping their cosmic prison.
“To outside observers, when an object crosses the event horizon, all knowledge about the properties of matter is lost. Only new values for mass (M), angular momentum (J), and electric charge (Q) are left. The result is that black holes consume huge amounts of data.”
This means that the hole acts like a “data store” for everything it devours. So, if we go in and extract said information, we will be able to “recreate” what the data looked like before. As amazing as it sounds, black holes themselves in some ways follow simple physics: they follow the first law of thermodynamics, as proven by Stephen H. Oking. From Contact “Hawking radiation” is formed at the boundaries of a black hole
“Hawking points out the paradox. If black holes could evaporate, some of the information in them would be lost forever, and the information in the thermal radiation emitted by the black hole would decay,” Luminet continued. “With no conclusive information about what material the black hole had previously swallowed.”
But it also has problems as well. Because current quantum theory says that nothing disappears. According to the Schrödinger equation, physical systems that change over time cannot create or destroy data. All this conflict has kept scientists on edge for decades. There was a lot of discussion.
Black holes are our home.
But it turns out that the best way to solve the problem is “we are in a black hole” as we mentioned above. Some people believe that this is what makes everything fall into place. Gerard Hooft (Gerard Hooft) used string theory to help. He points out that all degrees of freedom can exist inside a black hole. It uses the surface area of the horizon to determine its boundaries. Instead of the size of the black hole
“From the perspective of the data, every bit in the form of 0 or 1 corresponds to a four-point Planck space. This makes it possible to find the Begenstein-Hawking entropy formula,” Luminet said. “To outside observers it appears that the information about the entropy of the black hole, which has appeared One day the three-dimensional structure of objects crossing the event horizon disappeared.
But from this perspective, information is encoded in two dimensions. The surface of a black hole resembles a hologram, Hooft concluded. The information swallowed by the black hole can be completely recovered during the quantum evaporation process.
This may seem confusing to the general public. But we can easily conclude that the absorbed material is divided into 0 or 1 bit of information which is then encoded in 2D form and stored in a hologram-like state. If we were in a black hole the size of the universe, we could recover all the information that was swallowed by black holes in the universe. Because we and the black hole are in a black hole again. The information has evaporated from Hawking radiation and we are still in the black hole in which we live
This could lead to the conclusion that “the world formed in a black hole” or in other words. The universe formed in black holes.
“Black holes are very similar to the Big Bang,” said Gaurav Khanna, a black hole physicist at the University of Rhode Island. “On the other hand, the math looks similar.” He added: “Until it exploded and a child’s world was formed inside the black hole.”
This idea was supported by a study conducted in October 2023 in which Dr. Charles Lineweaver and graduate researcher Vihan Patel created a chart in which an interesting problem emerged. They both called it “the blueprint for everything.”
Using the object's temperature, density, mass, and radius. They collected everything from atoms, people, planets, galaxies, and most importantly, the universe. When the graph is visible we can see that the smallest quantities are at the bottom of the graph. But when we climbed up, the pair noticed that the universe was within large limits on the temperature, density, mass and radius of objects at the highest possible level.
This also corresponds to the largest possible black hole. This places the entire region of our visible universe in black holes.
“The universe could be a black hole from the inside out,” Dr. Lineweaver said, while Scott Field, associate professor of mathematics at the University of Massachusetts Dartmouth, added: “If we were in a black hole it would have to be very large.”
If so, scientists hope to see subtle distortions caused by strong gravity, such as time slowing down and matter contracting. While people move inside the black hole
We don't know anything.
However, no one is currently able to detect anomalous events, such as whether the Earth is in an Earth-sized black hole. People notice the effects of tidal forces, matter expands, and time slows down as they move from one point to another.
But we all live normal lives. So, if we are indeed in a black hole, it must be as large as the universe. They couldn't even travel fast enough to see the difference. Or see gravitational distortion Our current knowledge is not sufficient to answer many questions.
But this does not mean that scientists will not stop searching. With one of the biggest questions of our time, we can now enjoy imagining the universe we live in without worry.
Researched and edited by Witit Borompichaichartkul
Origin
https://arxiv.org/abs/1602.07258
https://mailchi.mp/anu/a-new-view-of-all-objects-in-the-universe?e=39aaed2a9d
https://www.iflscience.com/why-some-physicists-think-we-are-living-inside-a-black-hole-74111
https://www.livescience.com/space/could-earth-be-inside-a-black-hole
“Reader. Infuriatingly humble coffee enthusiast. Future teen idol. Tv nerd. Explorer. Organizer. Twitter aficionado. Evil music fanatic.”