This took place on Sol 62, with the assessment being that bright object appeared to be a shred of plastic material, likely benign, which had fallen from the rover, although initial examination did not definitively identify it as such. As a result, the team opted for a further day examining the object and to use the Mastcam to survey the local area for any sign of similar debris. Throughout this period, the gathered surface sample remained in the scoop.
The additional studies of the object led the team to believe it to be some type of plastic wrapper material, such as a tube used around a wire, which may have possibly fallen onto the rover from the Descent Stage during the landing in August, and which was subsequently dislodged onto the Martian surface as a result of the scoop operations.
While this analysis of the FOD – Foreign Object Debris – continued during Sol 63, operations with the Rover Environmental Monitoring Station (REMS) were extended to gather further data while in the Rocknest location, and the Mastcam system was updated with instructions to take a panoramic sweep of the area early on Sol 64, ahead of the upload of that day’s mission instructions.
Sol 64 saw cleaning operations resume, with the gathered sample being transferred into CHIMRA and vibration operations started in order to use the material to scrub the insides of CHIMRA’s chambers clean of any remaining Earth-based deposits. The process lasted several hours and involved rotating the turret a number of times to ensure the surfaces within CHIMRA were all scrubbed, after which the material was deposited back onto the Martian surface. While this work continued, the Mastcam captured images of rocks and other features in the immediate vicinity of the rover, having earlier completed taking a panoramic look of the region as a whole.
On Sol 65 (October 11th) Curiosity completed several activities in preparation for collecting its second scoop of Martian soil from the sand ripple at Rocknest. As with the first, this will be used for cleaning purposes. The preliminary work included close-up images of a potential sample using the Mars Hand Lens Imager (MAHLI). After this second scoop operation has been completed, samples are liable to be collected for delivery to the on-board observation tray and to CheMin.
Jake Matijevic: As Extraordinary as its Namesake
On September 22nd, Curiosity examined what was thought to be an “unremarkable” rock found while en route to Glenelg. Dubbed “Jake Matijevic”, or “Jake”, in memory of NASA / JPL engineer Jacob Matijevic, who worked on all three generations of NASA’s Mars rovers and who passed away shortly after Curiosity arrived in Gale Crater, the rock was initially believed to be quite ordinary.
However, analysing the results of Curiosity’s studies, the science team were surprised to discover it to be a close match in chemical composition to an unusual but well-known type of igneous rock found in many volcanic provinces on Earth. The data used by the team came from both the Alpha Particle X-Ray Spectrometer (APXS) mounted on the rover’s turret and from the laser / telescope systems of the mast-mounted ChemCam system.
“Jake is kind of an odd Martian rock,” said APXS Principal Investigator Ralf Gellert of the University of Guelph in Ontario, Canada, commenting on the results. “It’s high in elements consistent with the mineral feldspar, and low in magnesium and iron.”
Edward Stolper, the mission co-investigator from the California Institute of Technology, Pasadena, described rocks with similar chemical composition as being, “Widespread on Earth, on oceanic islands such as Hawaii, and St Helena, and the Azores; and also in rift zones like the Rio Grande and so forth. So, again, it’s not common, but it’s very well-known.”
It is the first time a rock with this kind of composition has been found on Mars, and while the planet was once volcanically active, it unknown if Jake is the result of similar volcanic actions which give rise to its Earthly cousins, “But it is a reasonable place to start thinking about its origin,” Stolper said.
Investigators were first drawn to the rock due to its unusual shape, marking it as a means of calibrating APXS. The studies carried out also marked the first time APXS and ChemCam were used together.
The Mission Summary Video
And in Space, A Dragon Returns to the ISS
This week also saw the successful launch of the first non-demonstration mission for the SpaceX Dragon craft, which many from SL and the metaverse again watched and shared through Twitter. Launched on October 7th, on the first official resupply mission to the International Space Station (a previous launch and rendezvous, although carrying materials for the station and its crew, was still a mission capabilities demonstration). The vehicle arrived in close proximity to the ISS on October 10th, and was successfully grappled by Akihiko Hoshide of the Japan Aerospace Exploration Agency, using the space station’s robotic arm, before ISS Expedition 33 commander Sunita Williams manoeuvred the spacecraft to dock it with the station’s Harmony module.
A belated congratulations to all at SpaceX and NASA.