Scientists have come up with theories about the consequences humans have on the solar system when they conduct “big” experiments.
The harm that humans cause to the Earth is undeniable, but in a way, is man indirectly destroying the whole solar system or not and how?
Let’s learn the theories about the consequences of the frightening experiments humans have. Most likely, the consequences of these experiences will destroy our solar system.
Experiment 1: potential danger of the particle accelerator
The particle accelerator or nuclear accelerator is a common name for devices that use external energy to transmit to the nucleus in order to increase speed and thus, the moving particles generate new, larger energy.
By unknowingly releasing exotic forms of matter from the Particle Accelerator, we risk destroying the entire solar system.
Some scientists at the European Atomic Research Organization (CERN) fear that collisions created by high-energy accelerators could generate vacuum bubbles, magnetic monopoles, black holes, or “foreign matter”.
When stimulated, “foreign matter” can act like particles inside atoms, capturing and converting ordinary matter into foreign matter.
And when the Earth encounters this catastrophe, the entire planet will turn into a strange form of matter unlike now.
Experiment 2: The solar system can be sucked into a black hole
Some futurists believe that future humans (or our posthuman descendants) will be eligible to participate in outstanding engineering projects, including including “cover” stars.
In Interstellar Migration and Human Experience, University of Houston professor David Criswell described star blanket activity as a human effort to control the development and nature of stars. As a result, they are looking for ways to extend the life of stars, researching materials to mine or create new stars.
In order to prolong the luminosity of the star, bright future engineers will find ways to get rid of excess mass from the star (a large star consumes fuel faster).
But stellar engineering projects can have unintended consequences or create effects that cannot be controlled.
For example, efforts to reduce the mass of the Sun could create a dangerous glare effect or a misstep that would result in an attenuation of the Sun’s heat. And even if that is successful, influencing the Sun will certainly change the orbits of the planets.
Experiment 3: Moc Tinh transformation test into artificial sun
In the solar system, Jupiter can be considered the “elder brother”. Not only has the greatest volume, it is also the only planet that has natural sources of energy, that is, which can shine on its own.
Based on the results of the exploration, the scientists concluded that the main element that formed Jupiter was hydrogen. Like the Sun, the energy it radiates by convection. This is why on the surface of Jupiter there are storm belts rotating in opposite directions.
In the journal of the British Interplanetary Society, astrophysicist Martyn Fogg suggested that turning Jupiter into the Sun would be the first step in the geolocation of the Galilei satellites.
To do this, humans in the future will turn Jupiter into a primitive black hole. The black holes will be designed in such a way that they do not fall outside the Eddington limit (a balance between external radiant energies and internal gravity).
A plan looks perfect, except when things go wrong because of human calculations. Everything looks smooth at first, but the black hole can grow uncontrollably and eventually cause a burst of radiation, wiping out the entire solar system.
Experiment 4: Put pressure on the natural orbits of the planets
Once we try to influence the position and mass of the planet or other celestial bodies around the Sun, we also indirectly disrupt the balance in the natural orbit of the solar system.
The orbits of the planets in our solar system have been functioning well for millions of years, before the concept of time existed.
Scientists believe that small disturbances caused by human action can make the natural orbit of the solar system chaotic.
This is explained that the planets can resonate and affect the orbits of each other even when they are quite far apart.
Frequent friction can cause the destabilization and deviation of small planets and satellites from their original orbit. Crashing on other planets or a comet at terrible speeds many times faster than meteorites will cause enormous havoc.
Experiment 5: Using wormholes to avoid the star’s destructive power
Using wormholes to avoid the destructive power of stars in time travel is a great theory, but we also have to take into account the risk of accidentally tearing a hole in spacetime. space.
In 2005, Iranian nuclear physicist Mohammad Mansouryar presented a plan to create a wormhole that connects from space to time.
By producing all of the necessary “foreign matter”, we can send the spaceship through the wormhole, creating a “shortcut” through space from side to side, like walking through Doraemon’s magic door. .
However, a wormhole needs the mass – large-scale (possibly negative) energy of a black hole of the same size. Second, creating gaps in time can cause virtual particles, shatter textures on the energy waterfall, and the wormhole will devour everything in it forever.
Experiment 6: Researching mysterious forms of dark matter everywhere
A recent theory suggests that an undiscovered form of dark, heavy, and invisible matter holds the Milky Way together.
If this mass of matter moves closer to the Sun, its gravitational pull can push comet stars into the Sun’s orbit farther and plunge them toward Earth.
Australian astronomer Kenji Bekki has confirmed that dark matter appeared millions of years ago, forming the orbits of stars called the Gould Belt.
If this cloud of dark matter, for some reason, crashing into Earth could have serious consequences. Afsar Abbas – An Indian physicist said that this radiation not only causes the electromagnetic waves to vary, but also heats the ground, leading to large volcanic eruptions, destroying everything. living.
