A group of scientists in America pointed out a strange development taking place under our feet, specifically in the atmosphere of the nucleus of the planet, that would affect the balance of the globe.
In a new study conducted at the University of California, a group of seismologists discovered a strange change in the inner core of the planet that will leave an impact, perhaps, on our planet.
An imbalance appears between Brazil and Indonesia
According to the research published in the scientific journal “scitechdaily”, the inner core (the cortex of the nucleus), which is formed from solid iron, and for unknown reasons, grows more from one side of it than the other.
The results of the study indicated that the fastest growth occurs under the Banda Sea in Indonesia, and that this enhanced growth on one side indicates that something in the Earth’s outer core or the mantle below Indonesia is removing heat from the inner core at a faster rate than on the other side, below Brazil.
“Earth’s inner core grows faster on its eastern side than on its western side. The attraction of asymmetric growth occurs by pushing iron crystals toward the north and south poles.”
The scientists noted that the rapid cooling from one side of the planet would accelerate the crystallization of iron and the growth of the inner core on this side.
Should we survive such a change, where might your home be located after the #PoleShift?
The ongoing #ElectromagneticExcursion of our planetary poles continues… pic.twitter.com/zLYtI4vTAT
— Xalos (@Turboxyde) June 4, 2021
The lack of delay causes a disruption in the “dynamo” of the Earth
Scientists said that this event will have implications for the magnetic field of the planet and its history as well, because the thermal differences between the inner core of the planet and the outer atmosphere “is what drives today the dynamo that generates the magnetic field that protects us from dangerous particles from the sun.”
“We are providing fairly loose limits on the age of the inner core — which is between half a billion and 1.5 billion years old — that can be traced back to the core,” says Barbara Romanovic, professor in the Department of Earth and Planetary Sciences at the University of California and director emeritus of Berkeley Seismological Laboratory (BSL). This information helps to understand how the magnetic field is formed.”
“We know that the magnetic field was already around 3 billion years ago, so other processes must have driven convection in the outer core at that time,” Romanovich adds.
Earth's Crystallized Iron Inner Core Could Be Lopsided https://t.co/NTL2Grk0wA pic.twitter.com/PUMX7jZ3Y6
— Free AstroScience (@astronomy_free) June 6, 2021
Scientists at the University of Nantes in France and the University of California have created a computer model for crystal growth in the inner core that incorporates geodynamic growth models and the mineralophysics of iron, providing indicators of high pressure and temperature.
The scientists say that the model provided somewhat strange results, namely that “the inner core is asymmetric. The western side looks different from the eastern side along the line from tip to center, the only way we can explain this is that one side is growing faster than the other.” “.
The model indicates that asymmetric growth is about 60% higher in the east of the planet than in the west. “What we propose in this paper is a non-equilibrium model of solid convection in the inner core that reconciles seismic observations with plausible geodynamic boundary conditions,” Romanovich says.