Tuesday, November 10, 2009

Nov. 10 - Martian landscapes

Dear Friends,

Take a close look...Paste the link if you don't receive the imafes/can't access the links.

Love and Light.


Martian landscapes

Since 2006, NASA's Mars Reconnaissance Orbiter (MRO) has been orbiting Mars, currently circling approximately 300 km (187 mi) above the Martian surface. On board the MRO is HiRISE, the High Resolution Imaging Science Experiment camera, which has been photographing the planet for several years now at resolutions as fine as mere inches per pixel. Collected here is a group of images from HiRISE over the past few years, in either false color or grayscale, showing intricate details of landscapes both familiar and alien, from the surface of our neighboring planet, Mars. I invite you to take your time looking through these, imagining the settings - very cold, dry and distant, yet real. (35 photos total)

Intersecting swirling trails left by the earlier passage of dust devils across sand dunes, as they lifted lighter reddish-pink dust and exposed the darker material below. Also visible are darker slope streaks along dune edges, formed by a process which is still under investigation. More, or see location on Google Mars. (NASA/JPL/University of Arizona)

An eroded crater in a larger plain with a scalloped appearance near Pavonis Mons. More, or see location on Google Mars. (NASA/JPL/University of Arizona) #

Part of the Abalos Undae dune field. The sands appear blueish because of their basaltic composition, while the lighter areas are probably covered in dust. More, or see location on Google Mars. (NASA/JPL/University of Arizona) #

A portion of the Martian South Polar Cap, showing stratified layers exposed by a long process of sublimation. More information here. (NASA/JPL/University of Arizona) #

Exposure of Layers and Minerals in Candor Chasma. This image shows a cliff along a light-toned layered deposit in Valles Marineris. Erosion by wind has carved V-shaped patterns along the edges of many of the layers. More, or see location on Google Mars. (NASA/JPL/University of Arizona) #

Avalanches on Mars' North Polar Scarps. Material, likely including fine-grained ice and dust and possibly including large blocks, has detached from a towering cliff and cascaded to the gentler slopes below. The cloud is about 180 meters (590 feet) across and extends about 190 m (625 ft) from the base of the steep cliff. More, or see location on Google Mars. (NASA/JPL/University of Arizona) #

Pathfinder spotted on an ancient flood plain of the Ares and Tiu outflow channels. The bright spot visible at lower left is the Mars Pathfinder Lander, its ramps, science deck, and portions of the airbags visible. NASA's Pathfinder landed on Mars on July 4, 1997 and continued operating until September 27 of that year. More, or see location on Google Mars. (NASA/JPL/University of Arizona) #

Victoria Crater at Meridiani Planum. The crater is approximately 800 meters (about half a mile) in diameter. Layered sedimentary rocks are exposed along the inner wall of the crater, and boulders that have fallen from the crater wall are visible on the crater floor. NASA's Mars rover Opportunity explored this crater and its walls in 2006. More, or see location on Google Mars. (NASA/JPL/University of Arizona) #

Close-up of tracks made by NASA's Mars rover Opportunity in the soil near Victoria Crater. More, or see location on Google Mars. (NASA/JPL/University of Arizona) #

Linear dunes in the north polar region of Mars. Polygons formed by networks of cracks cover the substrate between the linear dunes and may indicate that ice-rich permafrost is present or has been present geologically recently in this location. More, or see location on Google Mars. (NASA/JPL/University of Arizona) #

Scalloped sand dunes in the southern hemisphere of mars, displaying seasonal frost on the south-facing slopes, which highlights some of the regular patterns, as the frost forms only on parts of the ripples. More, or see location on Google Mars. (NASA/JPL/University of Arizona) #

This image shows lineated valley fill and lobate debris aprons in the Deuteronilus Mensae region. Many of the valley floors in this region exhibit complex alignments of small ridges and pits often called "lineated valley fill". The cause of the small-scale texture is not well understood, but may result from patterns in ice-rich soils or ice loss due to sublimation (ice changing into water vapor). More, or see location on Google Mars. (NASA/JPL/University of Arizona) #

A large barchan (crescent-shaped) dune, in a region where some dunes have been observed shrinking over several years. More, or see location on Google Mars. (NASA/JPL/University of Arizona) #

The edge of an approximately 6 km diameter crater in the southern hemisphere, laced with gullies leading down to the crater floor. More, or see location on Google Mars. (NASA/JPL/University of Arizona) #

Dunes in a crater in Newton Basin that are eroding or covering a more coherent rock structure below. More, or see location on Google Mars. (NASA/JPL/University of Arizona) #

The south polar region of Mars is covered every year by a layer of carbon dioxide ice. In a region called the "cryptic terrain," the ice is translucent and sunlight can penetrate through the ice to warm the surface below. The ice layer sublimates (evaporates) from the bottom. The dark fans of dust seen in this image come from the surface below the layer of ice, carried to the top by gas venting from below. The translucent ice is "visible" by virtue of the effect it has on the tone of the surface below, which would otherwise have the same color and reflectivity as the fans. Bright streaks in this image are fresh frost. More information here. (NASA/JPL/University of Arizona) #

An impact crater on the south polar layered deposits. This is a small, approximately 330 meter (360 yard) diameter impact crater. The polar layered deposits on Mars are believed to be very young because there are no large craters on them and very few small craters. More, or see location on Google Mars. (NASA/JPL/University of Arizona) #

Rocky mesas of Nilosyrtis Mensae region. Phyllosilicate (clay) minerals have been detected in this region by imaging spectrometers on the Mars Express and MRO spacecraft, and these minerals are of great interest in the search for evidence of life on ancient Mars. More, or see location on Google Mars. (NASA/JPL/University of Arizona) #

Gullies, streaks, ripples and dust devil tracks on Russell Crater Dunes. More, or see location on Google Mars. (NASA/JPL/University of Arizona) #

A 4 km diameter feature near the edge of the south polar residual cap. The bright areas in this image are covered by carbon dioxide frost, and the "swiss cheese" terrain typical of the south polar residual cap covers much of the imaged area. The dark walls of the circular depression do not have as much frost on them, and are fractured in a polygonal pattern. Apparently the surface of the walls has been extensively modified by thermal expansion and contraction of water ice. It also appears that the "swiss cheese" terrain of the residual cap has buried the floor of the circular depression, as well as the terrain surrounding the feature, making it difficult to infer the origin of this depression. More information here. (NASA/JPL/University of Arizona) #

HiRISE catches a dust devil blowing across the Martian surface east of the Hellas impact basin and south of Reull Vallis. The diameter of this dust devil is about 200 meters, but at the surface it is probably much smaller. Based on the length of the shadow in this image, the dust devil is on the order of 500 meters tall. More, or see location on Google Mars. (NASA/JPL/University of Arizona) #

Erosion of the south polar residual ice cap, with exposed strata in pits surrounded by cracked polygonal features. More information here. (NASA/JPL/University of Arizona) #

Light-toned layered deposits along the floor of Becquerel Crater, an impact crater in Arabia Terra. The deposits consist of stacked, repeating layers which consistently appear to be only a few meters thick. The surface of the deposits also appears to be cracked into blocks a meter or so in length. More, or see location on Google Mars. (NASA/JPL/University of Arizona) #

Defrosting dunes in the north. In northern winter a seasonal polar cap composed of carbon dioxide ice (dry ice) forms in the north polar region. This cap covers a vast sea of dunes at high northern latitudes. In the spring the ice sublimates (evaporates directly from ice to gas) and this active process loosens and moves tiny dust particles. More, or see location on Google Mars. (NASA/JPL/University of Arizona) #

Dunes line a valley floor in Ladon Valles, an outflow channel forming a segment of a larger system that heads in Argyre basin to the south and eventually links up with the larger Ares Valles outflow channel to the north. More, or see location on Google Mars. (NASA/JPL/University of Arizona) #

A small impact crater, surrounded by ejecta, is filled in with rippled sand on the floor of Ritchey Crater. More, or see location on Google Mars. (NASA/JPL/University of Arizona) #

Fuzzy-looking landscape near Tharsis Montes. Some parts of this image may appear out-of-focus at first. However, sharper-looking features such as the visible craters show that the fuzzy look is not an artifact of the image, but rather indicative of an extremely smooth surface. That smoothness is due to a thick layer of dust blanketing the landscape. More, or see location on Google Mars. (NASA/JPL/University of Arizona) #

A Sample of flows and other landforms in Icaria Planum. More, or see location on Google Mars. (NASA/JPL/University of Arizona) #

A sawtooth pattern in carbon dioxide ice in Mars' south polar region. More information here. (NASA/JPL/University of Arizona) #

A valley in Elysium region volcanic rise. More, or see location on Google Mars. (NASA/JPL/University of Arizona) #

A small crater partially buried in wind-blown ejecta from a much larger crater (below, out of frame). More, or see location on Google Mars. (NASA/JPL/University of Arizona) #

A large outcrop of layered rock in Aureum Chaos, an area that has apparently collapsed, leaving a region of irregular knobs and hills. Unlike many of the knobs, the light outcrop shows distinct, nearly horizontal layers. This may indicate that it was deposited after the collapse of the Chaos. More, or see location on Google Mars. (NASA/JPL/University of Arizona) #

A gully along the inner wall of Western Hale Crater, shadowed by a raised crater rim. More, or see location on Google Mars. (NASA/JPL/University of Arizona) #

Gully-like features in a transition zone between plain and dune field. More, or see location on Google Mars. (NASA/JPL/University of Arizona) #

A small impact crater, pitted knobs, and a criss-cross mesh of dust devil trails across the martian surface. More, or see location on Google Mars. (NASA/JPL/University of Arizona) #


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How to Digitally Record/Video a UFO sighting:

Como registar digitalmente ou gravar um vídeo de um avistamento de um UFO:

Stabilize the camera on a tripod. If there is no tripod, then set it on top of a stable, flat surface. If that is not possible lean against a wall to stabilize your body and prevent the camera from filming in a shaky, unsteady manner.

Estabilize a camera com um tripé. Se não tiver um tripé, então coloque-a em cima de uma superfície estável. Se não for possível, então encoste-se a uma parede para estabilizar o corpo e evitar que a camera registe de maneira tremida e instável.

Provide visual reference points for comparison. This includes the horizon, treetops, lampposts, houses, and geographical landmarks (i.e., Horsetooth Reservoir, Mt. Adams, etc.) Provide this in the video whenever is appropriate and doesn’t detract from what your focus is, the UFO.

Forneça pontos visuais de referência para comparação. Isso inclui o horizonte, cimo das árvores, postes de iluminação, pontos de referência geográficos (como o Reservatório de Horsetooth, Mone Adams, etc) Forneça esses pontos no vídeo sempre que for apropriado e não se distraia do que é o seu foco, o UFO/a Nave.

Narrate your videotape. Provide details of the date, time, location, and direction (N,S,E,W) you are looking in. Provide your observations on the weather, including approximate temperature, windspeed, any visible cloud cover or noticeable weather anomalies or events. Narrate on the shape, size, color, movements, approximate altitude of the UFO, etc and what it appears to be doing. Also include any unusual physical, psychological or emotional sensations you might have. Narrate any visual reference points on camera so they correlate with what the viewer will see, and thereby will be better able to understand.

Faça a narração do vídeo. Forneça pormenores sobre a data, hora, local e direcção (Norte, Sul, Este, Oeste) que está a observar. Faça observações sobre as condições atmosféricas, incluindo a temperatura aproximada, velocidade do vento, quantidade de nuvens, anomalias ou acontecimentos meteorológicos evidentes. Descreva a forma, o tamanho, a cor, os movimentos, a altitude aproximada onde se encontra o UFO/nave, etc e o que aparenta estar a fazer. Inclua também quaisquer aspectos pouco habituais de sensações físicas, psicológicas ou emocionais que possa ter. Faça a narração de todos os pontos de referência visual que o espectador irá ver e que, deste modo, será capaz de compreender melhor.

Be persistent and consistent. Return to the scene to videotape and record at this same location. If you have been successful once, the UFO sightings may be occurring in this region regularly, perhaps for specific reasons unknown, and you may be successful again. You may also wish to return to the same location at a different time of day (daylight hours) for better orientation and reference. Film just a minute or two under “normal” circumstances for comparison. Write down what you remember immediately after. As soon as you are done recording the experience/event, immediately write down your impressions, memories, thoughts, emotions, etc. so it is on the record in writing. If there were other witnesses, have them independently record their own impressions, thoughts, etc. Include in this exercise any drawings, sketches, or diagrams. Make sure you date and sign your documentation.

Seja persistente e não contraditório. Volte ao local da cena e registe o mesmo local. Se foi bem sucedido uma vez, pode ser que nessa região ocorram avistamentos de UFOs/naves com regularidade, talvez por razões específicas desconhecidas, e talvez possa ser novamente bem sucedido. Pode também desejar voltar ao mesmo lugar a horas diferentes do dia (durante as horas de luz)para ter uma orientação e referência melhor. Filme apenas um ,inuto ou dois em circunstâncias “normais” para ter um termo de comparação. Escreva tudo o que viu imediatamente após o acontecimento. Logo após ter feito o registo da experiência/acontecimento, escreva imediatamente as impressões, memórias, pensamentos, emoções, etc para que fiquem registadas por escrito. Se houver outras testemunhas, peça-lhes para registar independentemente as suas próprias impressões, pensamentos, etc. Inclua quaisquer desenhos, esbolos, diagramas. Certifique-se que data e assina o seu documento/testemunho.

Always be prepared. Have a digital camera or better yet a video camera with you, charged and ready to go, at all times. Make sure you know how to use your camera (and your cell phone video/photo camera) quickly and properly. These events can occur suddenly, unexpectedly, and often quite randomly, so you will need to be prepared.

Esteja sempre preparado, Tenha sempre uma camera digital, melhor ainda, uma camera vídeo consigo, carregada e pronta a usar sempre que necessário. Certifique-se que sabe como lidar com a sua camera (ou com o seu celular/camera fotográfica) rápida e adequadamente. Esses acontecimentos podem acontecer súbita e inesperadamente e, por vezes, acidentalmente, por isso, necessita estar preparado.

Look up. Be prepared. Report. Share.

Olhe para cima, Esteja preparado, Relate, Partilhe.



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