The early universe is probably one of the greatest secrets of our time, and while we have come to some of the earliest secrets, as the development of technology, such as James Webb Space Telescope and other observatory, still encountered the heads of our universe and whose molecules helped create the first star formations.
Many believe that after a large explosion occurred almost 13.8 billion years ago, the universe was full of extremely dense material and very high temperatures. However, as the universe cools down – in seconds, most theories claim that the first elements began to form from those materials.
However, the researchers believe they could restore the first molecules of our universe that could help us solve one of the oldest secrets of space – or the formation of early molecules slowed down when the universe has cooled.
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In deciding old secrets with new data
World and Mathematical Formation Concept vibrant above a laptop – aree_s/shutterstock
For many years, scientists have theoretical theorism that the speed of the molecules of the molecules was the cool temperature of the universe – thus slowing down the reaction that causes the formation of the star. However, according to the information they revealed, when trying to react to each other, new studies show that the reactions do not actually go deeper because the temperature becomes lower.
If this is proven, it could completely change the basics of scientists evaluating the early formation of the universe, as well as our understanding of the formation of stars and planets and how the universe has expanded from the Great Bang. Researchers found that the speed of reactions between the first molecules, which are likely to form in the early universe, remain constant no matter what temperature becomes.
To check this hypothesis, the researchers had to restore those first molecules and then put them in the environment that would actually determine whether their reactions slowed when the temperature became lower. So that’s what they did.
Restore the first molecules in the universe
A beautiful spiral -like galaxy in stars – Triff/Shutterstock
Scientists believe that Helio Hydride John (Heh+), believed to be the oldest molecule in the universe, was the first step in the chain reaction that resulted in molecular hydrogen (H2), which is also the most common molecule found in our universe. Scientists theoretorizes that these two molecules were necessary for the formation of the first stars, and that the Protostar gas cloud collapses until the beginning of the nuclear fuscation, the heat must dispel the heat inside the Protostar. Thus, if the slowing theories of reactions were true, it meant that the formation could eventually slow down as the main stars’ compounds cool.
Thus, the researchers took the molecules and put them in similar conditions they could experience in the early universe. By taking the molecules and combining them in a controlled environment, which they could reduce, they found that the reactions between the molecules did not go deeper. Instead, they continued as they always had, allowing investigators to actually investigate the speed of the collision, depending on how this differs between the collision’s energy changes.
There is still more to do to have a full proven data, but it painted an interesting picture of what the early formation of the universe may have looked like, and how they could have been encouraged. And if we dive into it, perhaps it could unlock more data on how the universe would continue to expand and form new stars and planets.
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