The earth has three parts of water and one part of land. Even so, scientists did not fully agree with the theory of what this water looked like.
New paper Arizona State University Scientists claim that water on earth is formed by the gases and gases that the asteroid brought along with the gas left behind in solar formation.
This study reveals much about how a planet can form and sustain life.
Most of the earth is covered with water, but we still do not know the origin of water.
Asteroids and comets are not the only sources of ice.
Researchers point out that comets can supply water because they contain many icebergs. Asteroids that are rich in water but not yet abundant can also be a source.
At the beginning of the formation of an asteroid, the asteroid, the source of the earth, is not a new concept. Previous research has shown that all of the blue planet's fervent remodeling proved that the originally living water source was created.
In fact, this is the easiest explanation. The chemical signature found in the Earth's water is the same as that found in the asteroid's water.
But the hydrogen found in the Earth's water is not exactly the same kind of hydrogen found in other parts of the Earth. This implies that an asteroid is probably not the only source.
"But there is another way to think about the origin of water in the formation of the solar system," said Professor Peter Buseck of Arizona State University.
"Because water is hydrogen and oxygen and oxygen is abundant, all the sources of hydrogen could be the origin of the Earth's water," Buseck added.
The Earth underwent many radical changes at the time of its formation.
So, where did the hydrogen from the earth come from?
The study challenges the widely accepted idea of hydrogen in the Earth's water by suggesting that it is part of the cloud of dust and gas that remains after the formation of the sun, called the solar nebula.
If the abundant hydrogen of the nebula could be combined with the earth's rock material, it could be the ultimate origin of the Earth's oceans, the researchers said.
This is supported by recent research that the solar nebula gas can coexist with a growing planet that gives it the opportunity to integrate itself into the deepest part of the planet.
"The Solar System nebula was a major reservoir of hydrogen in the early solar system, but it received the least attention from existing theories," said senior researcher Jun Wu, a team researcher.
How can this new study help us better understand the birth of the planet?
The new discovery is neat to the current theory of how the sun and planets formed. Rather than attempting to explain the origin of water for all the earths from a single source, this study considers a number of factors that can cause such a great change.
Even though planets are far from water-rich asteroids, they are still meaningful for residential planets beyond the solar system because they say they can still hold water. This, in other words, means that the formation of an inhabitable planet is not a process that takes much of the time as previously predicted.
The formation of an inhabitable planet is not a time-consuming process as previously predicted.
Astronomers have discovered more than 3,800 planets orbiting other stars, many of which look like rock formations that are not much different from ourselves.
The research team I want to collect more data samples from the Earth mantle. It supports new research and goes into laboratory experiments to better understand the chemical process as it did in the atmospheric conditions that exist in the early Earth.
(Including input of IANS)