The Dirt On Mars, In Words And Pictures

An anonymous reader writes "The Spirit rover's first soil analysis reveals some puzzling features about Gusev crater. The region seems to contain the greenish silicate mineral, olivine, which usually is considered water-reactive and thus volcanic in origin. For olivine to be found in the soil may point to rock formation during a drier period in martian history, even with strong evidence for sampling in an ancient lakebed. A second puzzle is why the soil seems so crusty. After the rover arm pressed soil down, the top layer of dust hardly moved, a finding that suggests something may be binding the dust like some type of salt or thin cement." For even more and better Mars pictures, read on below.

mlyle writes "I've spent a few hours hacking together some software to deal with the Mars Exploration Rover imagery at JPL. The software puts together a webpage and RDF feed of new raw imagery as it is posted to the JPL site, along with technical information decoded about how the picture was taken. It also produces stereo anaglyphs and color images that NASA has not seen fit to convert and make publically available. Be sure to also check out the ultra high resolution image of the lander as viewed from Spirit."

Maestro update!

There's also been an update for the Maestro visualisation and planning thingy. I'm downloading it right now - let's get some more BitTorrent seeds up and running! :)

Re:Maestro update!

[maeka]

Finding out where/when/how life was once possible on Mars would help us find evidence of those life forms. Finding evidence (assuming it exists) of wholly unique, truly alien, life would help us greatly here on Earth understand just what life it, how it began, and go a long way towards answering the ultimate question: Are we alone in the universe? Is Earth the sole planet with life?

Re:Why B&W?

a color CCD would require a sensor for each of R, G, and B pixel values. By using a monochrome CCD, they could pack as many pixels into the available space and use color filters to determine the RGB values of each pixel instead.

essentially, they are tripling their resolution at the expense of having to take three monochrome pictures each through different color filters to get a single full color picture.

Re:Why B&W?

Because conventional colour is too limiting. With filter wheels, there's the possibility of far more scientific data - there's (IIRC) eleven different filters available on Spirit's pancam, instead of the integrated red, green and blue in a consumer-level CCD. There's wide-pass and narrow-pass filters, near-infra-red - they're effectively magic sunglasses which can be used to look for interesting geology from afar.

Surprisingly few spacecraft have taken conventional colour cameras with them. Some of the Voyager colour shots of Jupiter, for instance, are definitely made up of multiple exposures taken at slightly different times - if you look at the red, green and blue channels, you can see how the clouds have moved while the exposures were being taken.

I think the CCDs on modern telescopes are monochrome as well, with particular filters used for looking at interesting wavelengths and things like that. 'Colour' shots are again made by combining multiple exposures...

Re:Why B&W?

[mlyle]

It's typical for space science applications.

What you want on a space probe is maximal CCD chip area-- not to take things up with filters. So they have a color wheel instead. Also, the filters of ranges that the eye is sensitive to in red, green, and blue is not very useful scientifically.

They have a choice of 8 filters on each of the pancams, and the left filters are in the visible range of light. However, there are caveats, as human visual perception is a complex thing. As a result, colors are going to be off even if a picture is shot with all 7 visual range filters.

The image processing software I've written makes a best guess with 2/4/7 and 2/5/6 filter sets. It is pretty close, but extreme colors are wrong (the red point is shifted by about 30nm) I hope to use the cases where they've shot additional pictures (e.g. magic carpet) to improve things further for selected images in the next couple of days.

Re:Water-reactive and thus volcanic?

[pacsman]

Water reactive means it reacts with water and therefore wouldn't form in a wet environment. That means that if you find a rock with this mineral it must be igneous in nature because the other main type of rock formation occurs on seabeds, thus in the presence of water. I'd love for them to find some sandstone or limestone, that'd be a pretty clear indication of water in the past.

More good Mars Info

[IPFreely]

More Mars info here. It includes some nice 3D imaging, large zoom and pans of the latest rover images, and some nice 3D pilotable flyovers of several sites, including Olympus Mons.

It has all the latest Mars Rover info as well, and a direct link to JPL for the latest and greatest pictures and info. www.marsquestonline.org
Go hit it. It's worth a look around.

NOVA: Mars Dead or Alive

[IPFreely]

What you saw was on PBS, NOVA: Mars dead or alive. The home page is here, and there's a link that claims you can watch the whole show here.

Of course the show is 50 minutes or so, and the animation you want is in the middle. I taped it when it was broadcast, and I do like the scene you are describing.

Hope that helps.