One study has raised the question to the public today that Mars has always been a dry planet and shows that its red properties are potentially the result of water interaction. This begins a new approach to finding and understanding the conditions spent on Mars in connection with the possibility of life.
Mars is often called the “The Red Planet”, the name that refers to its different color that is visible from Earth. It comes from color MineralMineral The rusty iron is in dust on the planet. In fact, rust becomes when metal, such as iron, reacts with water. For billions of years, this rusty material – iron oxide – dust has been broken and spread to the martin surface in its effect VentusVentusA process that continues today.
Traditionally, studies concluded that Martin Morcha was basicallyHematiteHematiteFormed in dry conditions. However, ChemistryChemistry The exact Martin Morcha was a topic of serious debate, because the way he created it offers a valuable overview of the environmental conditions from March to that time.
Today, this understanding has been marked. A recent study suggests that our vision about the red color of Mars can be incomplete and its dust date can be more rich in water than expected. According to this study, the color of Mars will be due to iron oxide containing water, especially ferry hydrate, which is made in the presence of cold water. This shows that some forms of rust on Mars were formed at a time when water was actually present on the surface.
Re -submit observed minerals on Mars
To achieve this result, researchers attached data from the missionsEuropean Space AgencyEuropean Space Agency (Esa) and NasaNasa With laboratory experiences. Using a variety of iron oxide, they managed to produce copies of Martin dust. by mixing with ferrihydrite BasaltBasaltThey were able to recover the minerals observed on Mars. The Principal of this study, a post -doctoral student at Brown University in the United States, emphasized: ” Mars is always a red planet. It is just that because of its red, our understanding has changed. The important involvement is that, since the pharyngrite can only be made in the presence of water, Mars has already ran before we think. In addition, Ferriydrite remains stable in the current situation on Mars. »
These results have widely reacted to our understanding of the March habit. If ferrheidrate can only be made in the presence of water, it reinforces the idea that the Red planet has experienced really favorable conditions for life, at least in an era of its history, suggesting Many other studies and data have been done.
Thus, the recent study raises the idea that Mars is always a dry planet and shows that its red properties are potentially the result of water interaction. These discoveries open up new paths to understand the planet’s past conditions, to understand the past conditions and to understand the planet’s past conditions.
Researchers await the results of future missions on Martin mainland, especially the ESA’s Ecosymas 2028’s Rower Roseland Franklin and the return of Martin’s samples that can confirm the presence of Ferrehydrate and better understand the history of water on Mars better For
