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How Is Curiosity Rover Preparing For Full Use Of The 10 Science Tools On Its Arm..?

Curiosity

(The left eye of the Mast Camera (Mastcam) on NASA‘s Mars rover Curiosity took this image of the camera on the rover’s arm, the Mars Hand Lens Imager (MAHLI), during the 30th Martian day, or sol, of the rover’s mission on Mars (Sept. 5, 2012). MAHLI is one of the tools on a turret at the end of the rover’s robotic arm. When this image was taken, the arm had raised the turret to about the same height as the camera on the mast. The Mastcam’s left eye has a 34-millimeter focal length lens. / NASA /)

NASA Mars Rover Curiosity Begins Arm-Work Phase…

  • After driving more than a football field’s length since landing, NASA’s Mars rover Curiosity is spending several days preparing for full use of the tools on its arm.
  • Curiosity extended its robotic arm Wednesday in the first of six to 10 consecutive days of planned activities to test the 7-foot (2.1-meter) arm and the tools it manipulates.
  • “We will be putting the arm through a range of motions and placing it at important ‘teach points’ that were established during Earth testing, such as the positions for putting sample material into the inlet ports for analytical instruments,” said Daniel Limonadi of NASA’s Jet Propulsion Laboratory in Pasadena, Calif., lead systems engineer for Curiosity’s surface sampling and science system. “These activities are important to get a better understanding for how the arm functions after the long cruise to Mars and in the different temperature and gravity of Mars, compared to earlier testing on Earth.” / Curiosity /
Curiosity

(This engineering drawing shows the location of the arm on NASA’s Curiosity rover, in addition to the arm’s turret, which holds two instruments and three tools. The arm places and holds turret-mounted tools on rock and soil targets. It also manipulates the sample-processing mechanisms on the 66-pound (30-kilogram) turret. / NASA /)

The Curiosity Rover Has Driven 109 Meters…

  • Since the Mars Science Laboratory spacecraft placed Curiosity inside Mars’ Gale Crater on Aug. 5 PDT (Aug. 6 EDT), the rover has driven a total of 358 feet (109 meters). The drives have brought it about one-fourth of the way from the landing site, named Bradbury Landing, to a location selected as the mission’s first major science destination, Glenelg.
  • “We knew at some point we were going to need to stop and take a week or so for these characterization activities,” said JPL’s Michael Watkins, Curiosity mission manager. “For these checkouts, we need to turn to a particular angle in relation to the sun and on flat ground. We could see before the latest drive that this looked like a perfect spot to start these activities.”
  • The work at the current location will prepare Curiosity and the team for using the arm to place two of the science instruments onto rock and soil targets. In addition, the activities represent the first steps in preparing to scoop soil, drill into rocks, process collected samples and deliver samples into analytical instruments. / Curiosity /
Curiosity

(This engineering drawing shows various components needed to support tools at the end of the arm on NASA’s Curiosity rover, including: calibration targets for helping instruments set their baseline levels; spare bits for the rover’s drill; a sample “playground” that gives the rover a place to drop off processed samples for observation by the APXS and MAHLI instruments; three inlet covers, which protect the SAM and CheMin instruments from atmospheric dust; and a set of five “organic check material” canisters, which provide a known chemical makeup blank that can be drilled and provided to SAM as a calibration material. / NASA /)

Curiosity: Mars Hand Lens Imager…

  • Checkouts in the next several days will include using the turret’s Mars Hand Lens Imager to observe its calibration target and the Canadian-built Alpha Particle X-Ray Spectrometer to read what chemical elements are present in the instrument’s calibration target.
  • “We’re still learning how to use the rover. It’s such a complex machine — the learning curve is steep,” said JPL’s Joy Crisp, deputy project scientist for the Mars Science Laboratory Project, which built and operates Curiosity.
  • After the arm characterization activities at the current site, Curiosity will proceed for a few weeks eastward toward Glenelg. The science team selected that area as likely to offer a good target for Curiosity’s first analysis of powder collected by drilling into a rock.
  • “We’re getting through a big set of characterization activities that will allow us to give more decision-making authority to the science team,” said Richard Cook, Mars Science Laboratory project manager at JPL.
  • Curiosity is one month into a two-year prime mission on Mars. It will use 10 science instruments to assess whether the selected study area ever has offered environmental conditions favorable for microbial life. JPL manages the mission for NASA’s Science Mission Directorate in Washington. / Curiosity /
Curiosity

(This engineering drawing shows the five devices that make up the turret at the end of the arm on NASA’s Curiosity rover. These include: the drill for acquiring powdered samples from interiors of rocks; the Alpha Particle X-ray Spectrometer (APXS); the sample processing subsystem named Collection and Handling for Interior Martian Rock Analysis (CHIMRA), which includes a scoop that can scoop up lose dirt from the Martian surface; the Dust Removal Tool (DRT) and the Mars Hand Lens Imager (MAHLI). / NASA /)

(Source of Photos: NASA / Curiosity /)

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