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NASA Reveals 3D Image of a ‘Disc-Shaped’ Object located at the ‘Edge’ of the Solar System

Ultima Thule in 3D!

NASA’s New Horizons mission specialists have created new stereo views of the Kuiper Belt object dubbed Ultima Thule, the most distant object ever visited by mankind.

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Everything about it is strange, starting off with its shape.

It’s flattish’, and looks like a pancake.

It appears to be glued together to another object which is also reminiscent of a disk:

Flicker: Just watch and enjoy! Image Credit: NASA/Johns Hopkins University Applied Physics Laboratory/Southwest Research Institute/National Optical Astronomy Observatory.
Flicker: Just watch and enjoy! Image Credit: NASA/Johns Hopkins University Applied Physics Laboratory/Southwest Research Institute/National Optical Astronomy Observatory.

Cross your eyes and break out the 3D glasses! NASA’s New Horizons team has created new stereo views of the Kuiper Belt object nicknamed Ultima Thule – the target of the New Horizons spacecraft’s historic New Year’s 2019 flyby, four billion miles from Earth – and the images are as cool and captivating as they are scientifically valuable.

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The 3D effects come from pairing or combining images taken at slightly different viewing angles, creating a “binocular” effect, just as the slight separation of our eyes allows us to see three-dimensionally.

View with 3D Glasses: This image of Ultima Thule can be viewed with red-blue stereo glasses to reveal the Kuiper Belt object's three-dimensional shape. Image Credit: NASA/Johns Hopkins University Applied Physics Laboratory/Southwest Research Institute/National Optical Astronomy Observatory
View with 3D Glasses: This image of Ultima Thule can be viewed with red-blue stereo glasses to reveal the Kuiper Belt object’s three-dimensional shape. Image Credit: NASA/Johns Hopkins University Applied Physics Laboratory/Southwest Research Institute/National Optical Astronomy Observatory

For the images on this page, the New Horizons team paired sets of processed images taken by the spacecraft’s Long-Range Reconnaissance Imager (LORRI) at 5:01 and 5:26 Universal Time on Jan. 1, from respective distances of 17,400 miles (28,000 kilometers) and 4,100 miles (6,600 kilometers), offering respective original scales of about 430 feet (130 meters) and 110 feet (33 meters) per pixel.

Parallel: For this view, change your focus from the image by looking "through" it (and the screen) and into the distance. This will create the effect of a third image in the middle; try setting your focus on that third image. Image Credit: NASA/Johns Hopkins University Applied Physics Laboratory/Southwest Research Institute/National Optical Astronomy Observatory
Parallel: For this view, change your focus from the image by looking “through” it (and the screen) and into the distance. This will create the effect of a third image in the middle; try setting your focus on that third image. Image Credit: NASA/Johns Hopkins University Applied Physics Laboratory/Southwest Research Institute/National Optical Astronomy Observatory

The viewing direction for the earlier sequence was slightly different than the later set, which consists of the highest-resolution images obtained with LORRI.

The closer view offers about four times higher resolution per pixel but, because of shorter exposure time, lower image quality. The combination, however, creates a stereo view of the object (officially named 2014 MU69) better than the team could previously create.

“These views provide a clearer picture of Ultima Thule’s overall shape,” said mission Principal Investigator Alan Stern, from Southwest Research Institute (SwRI) in Boulder, Colorado, “including the flattened shape of the large lobe, as well as the shape of individual topographic features such as the “neck” connecting the two lobes, the large depression on the smaller lobe, and hills and valleys on the larger lobe.”

“We have been looking forward to this high-quality stereo view since long before the flyby,” added John Spencer, New Horizons deputy project scientist from SwRI. “Now we can use this rich, three-dimensional view to help us understand how Ultima Thule came to have its extraordinary shape.”

The Johns Hopkins University Applied Physics Laboratory in Laurel, Maryland, designed, built and operates the New Horizons spacecraft, and manages the mission for NASA’s Science Mission Directorate. The MSFC Planetary Management Office provides the NASA oversight for the New Horizons. Southwest Research Institute, based in San Antonio, directs the mission via Principal Investigator Stern, and leads the science team, payload operations and encounter science planning. New Horizons is part of the New Frontiers Program managed by NASA’s Marshall Space Flight Center in Huntsville, Alabama.

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Source
NASA