China releases first batch of research from Mars exploration

The China National Space Administration (CNSA) on Sunday released a batch of scientific research results from its Mars exploration probe Tianwen-1 for the first time.

China releases first batch of research from Mars exploration

The China National Space Administration (CNSA) on Sunday released a batch of scientific research results from its Mars probe Tianwen-1 for the first time. The Tianwen-1 orbiter had been operating for 780 days and the rover Zhurong had traveled 1,921 meters on the surface of the red planet as of Thursday, according to the CNSA’s Lunar Exploration and Space Program Center. Both the orbiter and rover have completed targeted scientific exploration missions, and acquired 1,480 gigabytes of raw scientific data, Mars exploration, the center said. Using data gathered by Zhurong, Chinese scientists revealed the relationship between the formation of geological features and water activities on Mars by conducting a comprehensive study of these geological features in the landing area.

Chinese scientists have also found hydrated minerals in platy-like rocks, a layer of “duricrust,” proving that there has been substantial liquid water activity at the landing area since the Amazonian epoch, which was about 1 billion years ago. Scientists have also found that the Martian soil has high bearing strength and low friction parameters, revealing the site where the rover landed must have experienced wind and possibly water erosion.Mars exploration, These results revealed the impact of wind and water activities on Mars’ geological evolution and environmental changes, and provided support for the hypothesis that there was once an ocean in the Utopian Planitia, according to the CNSA. In addition, Chinese scientists have obtained a number of scientific results on the relationship between the density of rocks on the Martian surface and the degree of surface erosion, the distribution of ions and neutral particles in the near-Mars space environment, and the gravity field of Mars.

Source: This news is originally published by cgtn