Mars: The patterns of the surface of the Red planet resemble the earth – Science
This innovation can be designed by some basic forces and cool -related processes, despite the differences of heavy planets.
The article, published in the Icarus magazine and the Europa Press Agency on Monday, provides a new knowledge of the past atmosphere of Mars and the surroundings of Mars, as well as the new knowledge of the basic physics of granular materials.
Researchers have used high-resolution satellite images to analyze nine craters on Mars and compare them to the earth.
They have found that the wavy forms of Mars Relief have similar shapes and follow the same basic geometric patterns as Salifflection Lobes found in the cool and mountain areas of the earth, such as the Arctic and Rocky Mountains.
These models, according to the glade, are “large, granular and slow examples found in everyday fluids such as draining the paint wall.”
The biggest difference is that Martin versions average over 2.6 times more, he points out.
Researchers show that this height difference is strictly assessed if the physical characteristics of the soil and the low intensity of the planets of Mars are allowed to rise before collapsing.
On the ground, the solidation lobes are formed when the soil is frozen and partially defrosted, so that the soil is sufficiently loomed, so that it slowly slid through the slope of the bottom period.
Mars is probably suffering from freezing and defrosting wheels, although the Martin wheels are probably due to the sublimation (ice evaporated directly) and not by the defrost of liquid water.
Researchers suggest that Mars may have cold conditions that shape its surface similar to its surface, where the planet’s atmospheric evolution, the character of water, and the signs of past life.
Sleeman said, “This is what the form of these standards is about the climate history of Mars, especially how to provide valuable information about freezing and defrosting cycles, but these symptoms are recently graduated.”
“In the end, this research can help us find evidence of past or current environments in other planets, which can support or limit the potential life.”
