Curiosity Mission Updates

NASA's Mars rover Curiosity acquired this image using its Right Navigation Cameras (Navcams) on Sol 2427 Credit: NASA/JPL-Caltech
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The original plan for Sol 2429 involved a "touch-and-go" where the rover would have engaged in contact science (that's the "touch" portion) followed by a drive (the "go" portion), but through discussion the instrument leads determined tactically that they were satisfied with the contact science already acquired at this location. Thus, we planned a "no-touch-and-go," and were able to take the time planned for contact science and use it to extend the length of a remote sensing science block before the drive.

This science block contains two Mastcam multi-filter observations, a 10x1 ChemCam raster on target "Awe," a 5x1 raster on target "Castle Rock," and a Mastcam stereo mosaic to capture nearby gravel. Curiosity will then drive an hour and twenty minutes, and wrap up the sol with some post-drive imaging of the new workspace, a Mastcam tau to measure atmospheric opacity, and a post-drive DAN active. For those not familiar, a post-drive DAN active consists of the DAN instrument shooting neutrons into the ground and measuring the energy of the reflected neutrons to detect hydrogen just below the surface. A DAN active occurs after every drive so that the DAN team can acquire these measurements at every location that Curiosity stops and does science. DAN actives run in conjunction with DAN passives, and while you may not hear about them often, the passive measurements run pretty much anytime Curiosity is awake for more than an hour. In passive mode, DAN relies on cosmic rays to provide a source of neutrons for its measurements.

The second sol consists of a science block that will occur following the sol 2429 drive (thus we don't know what the workspace will look like). In this block we planned an AEGIS activity to find a target of interest and run a 3x3 ChemCam raster on it, and added two types of Navcam movies with pre-determined pointings to hunt for dust devils. Standard REMS extended block and nominal hourly measurements of temperature, pressure, humidity and UV radiation were also included in this plan. We made sure to include an extra REMS extended block over the dust devil surveys because the pressure monitoring can be used in combination with the visual imagery to measure and detect these low-pressure vortices.

About this Blog
These blog updates are provided by self-selected Mars Science Laboratory mission team members who love to share what Curiosity is doing with the public.

Dates of planned rover activities described in these reports are subject to change due to a variety of factors related to the Martian environment, communication relays and rover status.

Tools on the
Curiosity Rover
The Curiosity rover has tools to study clues about past and present environmental conditions on Mars, including whether conditions have ever been favorable for microbial life. The rover carries:



Radiation Detectors

Environmental Sensors

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