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The illustration of our rotating universe, as part of a wider multimedia medium. | Credit: Robert Lea (created with Canva)
What is dark energy? Why does dark energy look weakening? Is our universe a larger part of the multimedia? What is outside the black hole?
It seems that the universe is rotating, and if this is the case, it can have great consequences for several biggest scientific issues, including above. This, according to Polish theoretical physicist Nicodemo Poplawski from the new Haven University, which is well known for his theory that black holes act like doors for other universe.
“Dark energy is one of the most intriguing secrets of the universe. Many researchers have tried to explain it by modifying the equation of general relativity or offering new areas that could speed up the development of the universe,” Poplawski told Space.com. “It would be wonderful if the simple rotation of the universe was the origin of the dark energy, especially that it predicts its weakening.”
The evidence that the universe is rotating was recently presented by James Webbo Space Telescope (JWST), who found two -thirds of galaxies in the same direction. This indicates that there is a lack of accident and desired space rotation.
In addition, Poplawski pointed out that other astronomical data indicate that the angle between the most likely axis of spinning galaxies and nearby galaxies cluster volumetric flows is 98 degrees, meaning they are almost perpendicular to each other. This is something that corresponds to the hypothesis that the universe is spinning.
The rotation universe is not the only universe
To understand why a rotating universe means more than one universe, Poplawski points out “reference frames”. These are kits of coordinate systems, inseparable from physics that allow me to measure motion and rest.
Imagine two scientists – Terra and Stella. Each of them is in its own reference frame, but Terra on Earth, Stella on a spacecraft passing through our planet. Terra sees Stella’s reference frame (spacecraft) moving to its (land), which is at rest. Meanwhile, Stella sees her reference frame in peace while it is a Terra reference frame when the Earth is down.
Poplawski pointed out that if the universe revolves, then its reference frame spins and it makes sense only if it spins in a relationship to at least one other reference frame.
“If the universe revolves, it must rotate compared to a certain reference frame that corresponds to something bigger,” he continued. “Therefore, the universe is not the only one; it is part of the multimedia.”
Poplawski’s simplest and most natural explanation of the origin of the universe is black hole cosmology.
Was the time of the universe and its development in the black hole? | Credit: NASA/WMAP
Black hole cosmology shows that each black hole creates a new baby universe on the other side of its event horizon-on-the-sided light catch surface, which defines the outer border of the black hole.
The theory changes the central “rotation of the spacecraft” in the heart of the black hole, which causes the repulsive difficulty that begins the development of a new universe.
“Because all black holes are made up of rotating objects, such as rotating stars or rotating galaxies, they also rotate,” said Poplawski. “The universe born in a rotating black hole inherits the axis of a black hole rotation as its desired axis.”
In other words, our universe can rotate in the desired direction, because it is this black hole that is spinning.
“The black hole becomes the Einstein-Rosen Bridge or the earthworm from the patronizing universe to the baby’s universe,” Poplawski explained. “The observers of the new universe would see on the other side of the black hole as a primordial white hole.”
The illustration indicates that matter is flowing into the black hole, which crosses Einstein-Rosen Bridge and comes from a white hole. But does it appear in a new baby universe? | Credit: Robert Lea (created with Canva)
Instead of discovering a primeval white hole in our universe leading to the black hole of our parents and the progenitor universe, the strongest evidence of this black hole cosmology is the desired direction or “rotation asymmetry” in our universe. This can be seen in the galaxies of rotation in the galaxies.
“The movement of individual galaxies in that baby’s universe will be influenced by the rotation of that universe,” Poplawski said. “The galaxies will tend to combine its axis of rotation with the desired axis of rotation of the universe, so asymmetry of rotation that can be seen.”
Astronomers begin to see this.
Of course, this means that every black hole in our universe is a door to another baby’s space. These babies ‘universe is protected from the horizon of the event of their parents’ black holes, which prevents any signal from being received from the inside of the black hole.
Similarly, a journey through these space doors would be impossible for the beginner Mulaaut due to the huge gravity surrounding the black hole that would cause flood forces that would “spaghetics” such a reckless researcher.
Even if such a multi -way survives the journey, just as no one can avoid a black hole, no one can get into a white hole, which means there will be no return or ability to submit a message!
Even gloomy, there is no guarantee that the laws of physics in the baby universe are the same as in their parents’ universe, which means an unpredictable destiny and potentially awkward death in Hardy Multain, which can encourage the black hole door.
Anyway, before exploring another universe, there are secrets that need to be explored here in our own universe. At the forefront is the mysterious force of dark energy.
Dark energy causes scientists
Dark energy is the name of the place of place, given to all the power that makes the universe expanding at accelerating speed. Currently, Dark Energy is dominated by the universe, which accounts for 68% of the total cosmic energy budget. However, this was not always a way.
During the early era of the universe, it was dominated by the energy of the Great Bang, so it pushed. When the universe got into the importance of gravity, this inflation slowed down to close. It was supposed to be Cosmos, but from about 9 to 10 billion years after the Great Bang, the universe began to expand, and this development is accelerating and as a result the era dominates dark energy.
To understand why this is such an alarming puzzle, imagine giving your child on a swing with a single click, observing their motion, and then, for no noticeable reason, they start to spin again, and this movement becomes faster and faster.
Expanding the Universe due to dark energy as the galaxy expands, such as dots on a blown balloon skin | Credit: Robert Lea (created with Canva)
As if dark energy was no longer strange enough, the latest results of dark energy spectroscopic instrument (DESI) showed that this mysterious force was weakening. This seems to negate the standard cosmology model or the Lambda Cold Dark Mater (LCDM) model, which depends on the dark energy (represented by cosmological constant or lambda).
However, Poplawski theoretorizes that the rotating universe can reflect dark energy and explain why it is weakened.
“Dark energy would come from the centrifugal force in a rotating universe on large scales,” the theoretical physicist explained. “If the universe were smooth, the centrifugal force would only work in directions, perpendicular to the desired axis.”
DEI data piece humiliates heavenly objects from Earth (center) to billions of light years. | Credit: DESS cooperation /Doe /kpno /nororlab /nsf /aura /c. Lamman
However, Poplawski’s black hole in cosmology theory, as the black hole created by the universe is closed and moves away in any direction, eventually returns from the opposite direction.
This would mean the centrifugal strength that comes from the rotating universe becomes a force acting in all directions, away from the universe primary white hole.
“The size of this force is proportionate to the angular speed and distance of the universe from the white hole,” said Poplawski. “This relationship is a form of force acting in the galaxy due to dark energy, which is proportional to cosmological constants and distance from the white hole. Therefore, the cosmological constant is proportional to the square of the universe angular speed.”
But how could this be explained by the descriptions of D, which seems to indicate that dark energy becomes weaker?
“As the angular impulse of the universe is preserved, it decreases as the universe expands,” Poplawski said. “So the cosmological constant, which is the simplest explanation of dark energy, should also decline over time. This result corresponds to the latest deceptions.”
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To provide a few more evidence of the Poplawski concept, more data on the volumetric flow of galaxy clusters and asymmetry of galaxy rotation axles. This would help to further confirm that our universe is spinning.
In addition, more data on how dark energy depends on cosmic distances and time progress in our 13.7 billion years old cosmos, it could help confirm whether the weakening of the dark energy is associated with a decreasing angle of the universe.
“The next step in implementing these ideas is to determine the equation that describes how the cosmological constant caused by the angular speed of the universe is decreasing over time, and compare this theoretical forecast with the observed reduction in dark energy,” Poplawski concluded. “This study may include a metric search that describes the expanding and rotating universe.”
The pre -reviewed version of Poplawski research is available on the ARXIV on the paper storage site.