The Martian Ridge manifests color skills of the rover

The Martian Ridge manifests color skills of the rover

The color skills, installed in 2012, help to explore the mountain range on which the rover climbs. Curiosity is able to view the Red Planet through special filters that identify various materials. Also active is a spectrometer that sorts light in thousands of wavelengths. It helps to determine the following objectives for the study.

The Martian Ridge manifests color skills of the rover

Here are a couple of shots taken by the Curiosity Mastcam rover. To determine changes in the rock using special filters.

Among the cameras listed as Mastcam and ChemCam. The first one has two eyes and several scientific filters that help assess the level of reflection of a rock of light. It is used to determine hematite (a mineral of iron oxide), which is of particular interest to scientists.

The Martian Ridge manifests color skills of the rover

The Curiosity MAHLI Rover Camera demonstrates the effects of using a dusting tool with wire mesh.

The ridge at the bottom of Mount Eolid was planned for the arrival of Curiosity 5 years ago. The spectrometer detected the presence of hematite here. Most of this material is created when there is water, allowing you to get closer to the past of Mars. Even in the first year of operation, it was possible to fix the favorable conditions for life that existed in some territories earlier. ChemCam uses a laser to detect chemical elements in stones.

The Martian Ridge manifests color skills of the rover

The false image shows the use of special filters in Mastam to determine the minerals in the target rocks.

Hematite is formed in small sizes and absorbs, for the most part, some wavelengths of green light. In the pictures, Curiosity is displayed in magenta due to the strong reflection of red and blue colors. This helps to more accurately determine the target and path of movement.

The Martian Ridge manifests color skills of the rover

The ChemCam tool on the Curiosity Martian Rover explores the area at Christmas Bay. He managed to find spectral traces of hematite.

For example, on September 12, Mastcam used 3 filters to create a map panorama with the location of hematite. The greatest number is observed around destroyed bedrock. The team brought the rover here specifically to identify a possible link between the fault areas and hematite.

It turns out that dust and rifts make hematite look more speckled. Its presence in large quantities also indicates that it appeared in the early period, and not during the late movement of fluids through cracks.

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