NASA's Phoenix Mars Lander made its first dig into Martian soil for science studies and is poised to deliver the scoopful to a laboratory instrument on the lander deck, the federal space agency reported on Friday.
The instrument will bake and sniff the soil to assess its volatile ingredients, such as water.
Commands were received by Phoenix on Friday for the spacecraft's robotic arm to dump the sample into an opened door on the instrument called the Thermal and Evolved-Gas Analyzer, or TEGA.
This image released by NASA June 6, 2008 was taken by NASA's Phoenix Mars Lander's Surface Stereo Imager on Sol 11 (June 5, 2008), the eleventh day after landing. It shows the Robotic Arm scoop containing a soil sample poised over the partially open door of the Thermal and Evolved-Gas Analyzer's number four cell, or oven. Light-colored clods of material visible toward the scoop's lower edge may be part of the crusted surface material seen previously near the foot of the lander. (Xinhua/Reuters Photo)
"It's looks like a good sample for us," said Peter Smith, Phoenix principal investigator at the University of Arizona. "Over the next few days, and it may be as much as a week, the TEGA instrument will be analyzing this sample."
Phoenix's robotic arm collected the sample of clumpy, reddish material from the top 2 to 4 centimeters of surface material at a site informally named "Baby Bear" on the north side of the lander.
In the past week, engineers had used the arm to collect two practice scoops adjacent to Baby Bear and dump those scoopfuls back onto the surface.
The real move was calculated to get enough material to be sure to get some delivered into the instrument without inundating the instrument with unnecessary extra soil. "We're ecstatic that we got a quarter to a third of a scoopful," said NASA's engineer Matt Robinson.
This image released by NASA June 6, 2008 and taken by NASA's Phoenix Mars Lander's Surface Stereo Imager on June 5, 2008 shows the trenches dug by Phoenix's Robotic Arm. The trench on the left is informally called "Dodo" and was dug as a test. The trench on the right is informally called "Baby Bear." The sample dug from Baby Bear will be delivered to the Phoenix's Thermal and Evolved-Gas Analyzer, or TEGA. The Baby Bear trench is 9 centimeters (3.1 inches) wide and 4 centimeters (1.6 inches) deep.(Xinhua/Reuters Photo)
The TEGA instrument will begin analyzing the sample for water and mineral content after it has analyzed a sample of the Martian atmosphere. Water can be bound to minerals, such as clays or carbonates, and it takes more heat to drive the water off some minerals than others. This is how the instrument can identify some minerals in the soil.
"We are particularly interested in minerals that are formed or altered by the action of liquid water in the soil," Smith said.
Source:Xinhua
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