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    COMMANCHEDobyvani vesmiru a kosmonautika 🚀🛰️👩🏼‍🚀
    CLUMP
    CLUMP --- ---
    JULIANNE: super, na tyhle snimky s nejvyssim rozlisenim jsem se tesil nejvic. myslim, ze si zaslouzi sem dat v plny parade:

    THERIDANE
    THERIDANE --- ---
    JULIANNE: to je rozlišení že bys tam mohla zahlídnout lyžaře :-)
    JULIANNE
    JULIANNE --- ---
    JULIANNE
    JULIANNE --- ---
    JULIANNE: Rychle jsem mrkla na program nedávného meetingu DPS, kde se to mohlo řešit, ale nic moc nového jsem nenašla - podle abstraktů je to pořád celkem nejasné (ony ani ty soli zdaleka nejsou stoprocentní).

    TITLE: Photometric Properties of Ceres and the Occator Bright Spots
    ABSTRACT BODY:
    Abstract (2,250 Maximum Characters): Dawn discovered several extremely bright spots on Ceres, the most prominent of which is located inside the Occator crater that is at least 4-5 times brighter than the average Ceres. Interestingly, these bright spots are located in relatively young craters that are at the longitudes corresponding to the maximum water vapor observed by the Herschel Space Observatory, suggesting possible correlation with water sublimation on Ceres. We used the multi-color imaging data collected by the Dawn Framing Camera to analyze the global photometric properties of Ceres and the bright spots, especially those located inside the Occator crater. Our objectives are to determine the albedo and other light scattering properties of the bright spots on Ceres in the visible wavelengths, in order to characterize their physical properties and find clues about their composition and possible formation mechanisms and the correlation with water sublimation. The overall geometric albedo of Ceres’ global surface is 0.09-0.10, consistent with previous studies. The Hapke roughness parameter is about 20°, close to many other asteroids, rather than 44° as reported earlier. Correspondingly, the phase function of Ceres is less backscattering than previously modeled. In contrast, the geometric albedo of the bright spots inside the Occator crater is 0.4-0.5, and the single scattering albedo is 0.7-0.8, brighter than Vesta’s global albedo but much darker than many icy satellites in the outer solar system. The Hapke roughness of the bright spots is much higher than Ceres average, suggesting relatively loose deposit of materials rather than more coherent or tightly packed materials. The phase function of bright spots material is relatively more forward scattering than average Ceres, possibly correlated to stronger multiple scattering due to high albedo resulting from more transparent materials. The highest resolution images as of late-August 2015 show fine structures within the Occator bright spots. We will also report the results from the albedo distribution within the bright spots.

    TITLE: Post-Impact Cryovolcanism and the Bright Spots on Ceres
    ABSTRACT BODY:
    Abstract (2,250 Maximum Characters): The bright spots on Ceres recently found by NASA’s Dawn mission have defied easy explanation. The spots are young, because the 90 km diameter crater in which they are found generally lacks superposed craters, but the composition is equivocal. The very high albedo contrasting on Ceres’ dark surface suggests ice, but the spots could be salt deposits. In either case, formation via water volcanism is plausible, either as ice or a salty sublimate. These observations pose the problem: How can there be recent cryovolcanic processes on a relatively low mass and density body that thus has a small complement of long lived radiogenic isotopes (the only plausible heat source)? Here, we suggest the spots are a consequence of the impact process. Ceres’ low bulk density indicates abundant water ice, yet spectra indicate a non-volatile surface. Various interior models predict full or partial differentiation, which means that the near surface is structured as a largely icy layer covered by a non-volatile layer of unknown thickness. For a sufficiently thick layer (> 5-10 km), the formation of a 90 km crater will not penetrate this layer; however, the flow field associated with transient crater collapse may extend into the underlying icy material to give final crater morphological characteristics consistent with an icy surface. Deposition of impact heat would primarily be in this non-volatile layer, which would then diffuse away, including some downwards. We have performed finite element simulations of this diffusion, finding that for a non-volatile layer ~10 km thick, this downward diffusion can lead to supra-melting temperatures in the underlying icy material from 0.1 to 10 Myr after the impact, leading to the deposits. This phenomenon might explain why bright spots are not abundant: the crater needs to be the right size relative to layer thickness, the impact would likely need to occur at a high strike angle (for the deepest deposition of impact heat), and any resultant deposits could be ephemeral, consistent with the crater’s apparent very young age. Additionally, no special conditions are needed for the evolution of Ceres; instead, these bright spots result from the most common geological process in the solar system: impact.
    JULIANNE
    JULIANNE --- ---
    ELECTRICKOTA: Podle měření spekter ložiska nějakých solí, ale nic bližšího se zatím jistě neví.
    VIRGO
    VIRGO --- ---
    :)
    ELECTRICKOTA
    ELECTRICKOTA --- ---
    VIRGO: hmm ze by to byla ella v skamenelym mass relay? :D
    VIRGO
    VIRGO --- ---
    CLUMP: Tak tak, celkem fiasko...
    CLUMP
    CLUMP --- ---
    ELECTRICKOTA: nejake domnenky maji, ale pokud me pamet neklame, tak ve skutecnosti nevi.
    VEX
    VEX --- ---
    VIRGO: Neskutečně jemnej "písek"
    VIRGO
    VIRGO --- ---
    Curiosity testuje terén v oblasti tmavých dun

    THERIDANE
    THERIDANE --- ---
    NECROMAN: Kessler je zas o krůček blíž :-)
    NECROMAN
    NECROMAN --- ---
    Russia just successfully tested an anti-satellite missile - Business Insider
    http://www.businessinsider.com/russia-just-successfully-tested-an-anti-satellite-missile-2015-12
    ELECTRICKOTA
    ELECTRICKOTA --- ---
    CLUMP: Už se tuší co to může být ta světlá oblast?
    VIRGO
    VIRGO --- ---
    CLUMP: Nářez!
    CLUMP
    CLUMP --- ---
    A Distant Close-up: New Horizons’ Camera Captures a Wandering Kuiper Belt Object
    https://www.nasa.gov/...distant-close-up-new-horizons-camera-captures-a-wandering-kuiper-belt-object

    VIRGO
    VIRGO --- ---
    Pathfinder´s own path:
    LISA Pathfinder is on its way!
    https://www.youtube.com/watch?v=UpfkvVnktJk
    CLUMP
    CLUMP --- ---
    Dawn Journal: Descent to LAMO | The Planetary Society
    http://www.planetary.org/blogs/guest-blogs/marc-rayman/20151202-dawn-journal-descent-to-lamo.html

    Dawn's Chief Engineer and Mission Director Marc Rayman previews what's in store as the spacecraft moves into its final mapping orbit around dwarf planet Ceres.

    Dawn is flying down to an average altitude of about 240 miles (385 kilometers), where it will conduct wide-ranging investigations with its suite of scientific instruments. The spacecraft will be even closer to the rocky, icy ground than the International Space Station is to Earth’s surface. The pictures will be four times sharper than the best it has yet taken. The view is going to be fabulous!

    Dawn will be so near the dwarf planet that its sensors will detect only a small fraction of the vast territory at a time. Mission planners have designed the complex itinerary so that every three weeks, Dawn will fly over most of the terrain while on the sunlit side. (The neutron spectrometer, gamma ray spectrometer and gravity measurements do not depend on illumination from the sun, but the camera, infrared mapping spectrometer and visible mapping spectrometer do.)

    CLUMP
    CLUMP --- ---
    Catalog Page for PIA20132
    http://photojournal.jpl.nasa.gov/catalog/PIA20132

    One of the most intriguing features on Ceres, Occator crater, is seen in this oblique view from NASA's Dawn spacecraft. This crater is 60 miles (90 kilometers) across and 2 miles (4 kilometers) deep, and is home to the brightest areas on Ceres.

    This image was acquired from an altitude of 915 miles (1,470 kilometers). Dawn took this image on Oct. 18, 2015.

    CLUMP
    CLUMP --- ---
    Today at 11:08 CET, Japan's audacious Hayabusa2 spacecraft made a critical Earth flyby to gain energy for its multi-year journey to asteroid Ryugu. The craft zoomed past our pale blue dot just 3000 km above the Pacific Ocean. On Saturday, ESA's 35m deep-space ground station at Malargüe, Argentine, will start providing crucial tracking support. ESA is delighted to assist this fantastic mission and the Hayabusa team kindly shared this animation, a mash-up of images taken just hours before closest approach as the craft neared between 200 000 to 36 000 km between 01:00-09:45 CET. Upon arrival at asteroid Ryugu in 2018, the high-tech craft will deliver several microlanders, deposit the European Mascot landing package, snatch a sample of primordial material and then return it safely to Earth in 2020. This animation has already been distributed to the media in Japan, and will appear tomorrow in the JAXA website.

    XCHAOS
    XCHAOS --- ---
    SVANC: ten Jupiter by už chtěl nějaký speciální opalovací krém s ochranným faktorem proti radiaci min. 10000 :-) a trochu teplejší spacák (o dost). a taky trochu víc paliva a zásob na cestu.

    já jsem celkem realista... moje sny jsou dnes technicky možné, jenom lidstvo se radši chce navzájem vybombardovat, než aby mi dopřálo menší výlet.
    SVANC
    SVANC --- ---
    XCHAOS: Proč tak při zemi? :) To já bych chtěl průlet sluneční soustavou, s důrazem na Jupiter a Saturn :D.
    Kliknutím sem můžete změnit nastavení reklam