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NASA's Curiosity rover poised to begin drilling into Mars

NASA's Mars rover Curiosity is sizing up a target rock and flexing its robotic arm ahead of its first-ever drilling activity on the Red Planet, which should take place in the coming days.
The percussion drill in the turret of tools at the end of the robotic arm of NASA's Mars rover Curiosity has been positioned in contact with the rock surface in this image from the rover's front Hazard-Avoidance Camera (Hazcam). The drill was positioned for pre-load testing, and the Hazcam recorded this image during the 170th Martian day, or sol, of Curiosity's work on Mars Sunday.
The percussion drill in the turret of tools at the end of the robotic arm of NASA's Mars rover Curiosity has been positioned in contact with the rock surface in this image from the rover's front Hazard-Avoidance Camera (Hazcam). The drill was positioned for pre-load testing, and the Hazcam recorded this image during the 170th Martian day, or sol, of Curiosity's work on Mars Sunday.NASA / JPL-Caltech
/ Source: Space.com

NASA's Mars rover Curiosity is sizing up a target rock and flexing its robotic arm ahead of its first-ever drilling activity on the Red Planet, which should take place in the coming days.

The 1-ton Curiosity rover pressed down on the rock in four different places with its arm-mounted drill Monday. These "pre-load" tests should allow mission engineers to see if the amount of force applied matches predictions, researchers said.

The six-wheeled robot won't be ready to start boring into the rock until it completes several additional hardware tests and other checks, which should keep the rover busy through at least the end of this week, they added.

"We are proceeding with caution in the approach to Curiosity's first drilling," Daniel Limonadi of NASA's Jet Propulsion Laboratory in Pasadena, Calif., lead systems engineer for Curiosity's surface sampling and science system, said in a statement. "This is challenging. It will be the first time any robot has drilled into a rock to collect a sample on Mars." [Curiosity to Drill First Martian Rock (Video)]

Curiosity's next step is an overnight pre-load test, which will tell the rover team if the big temperature swings at Curiosity's Gale Crater landing site pose any potential problems for drilling operations.

Air temperatures at Gale can drop from 32 degrees Fahrenheit (0 degrees Celsius) in the afternoon to minus 85 degrees Fahrenheit (minus 65 degrees Celsius) at night. The rover's chassis, arm and mobility system can grow and shrink by about 0.1 inches (0.25 centimeters) over such a broad temperature range, researchers said.

"We don't plan on leaving the drill in a rock overnight once we start drilling, but in case that happens, it is important to know what to expect in terms of stress on the hardware," Limonadi said.

Other pre-drilling activities include a detailed assessment of the target rock, which is part of an outcrop that mission scientists have dubbed "John Klein." The team will also employ the drill's hammering action briefly without actually spinning the drill bit, to make sure the percussion mechanism and associated systems are working properly.

And the first bite Curiosity actually takes out of a rock will not produce samples for analysis, researchers said. Rather, the rover will perform a "mini-drill" activity, going less than 0.8 inches (2 cm) into the rock — too shallow to push powder into the drill's sample-snagging chamber.

"The purpose is to see whether the tailings are behaving the way we expect," Limonadi said. "Do they look like dry powder? That's what we want to confirm."

Curiosity landed on Aug. 5 of last year, kicking off a surface mission to determine if the Gale Crater area has ever been capable of supporting microbial life.

The robot carries 10 different science instruments to aid in this quest, along with other tools such as the drill, which can bore 1 inch (2.5 cm) into solid rock.

The Curiosity team wanted to test the drill out on a suitably intriguing target, and "John Klein" seems to qualify. The outcrop is shot through with light-colored mineral veins that were likely deposited by flowing water long ago.

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