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2 October, 1998: NASA's Jet Propulsion Laboratory reports
that the Galileo spacecraft completed a close-up flyby
of Europa on schedule and on target. On Friday, Sept. 25, at
8:54 p.m. PDT, Galileo skimmed over the icy moon at an altitude
of only 2,226 miles. The flyby was performed in cruise mode without Galileo's gyroscopes, because the gyros activated a fault protection program last Thursday, Sept. 24. The on board star scanner was used instead as the primary reference for determining the spacecraft's orientation in space. Nevertheless, the flyby was considered a success. |
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Europa is one of the most intriguing bodies in the solar system because scientists are increasingly confident that it harbors a deep, underground ocean of liquid water. Europa's icy surface has intrigued scientists ever since the Voyager spacecraft missions flew through the Jupiter system in 1979. At -260° F, the moon's surface temperature could deep-freeze an ocean over several million years, but it's possible that warmth from a tidal tug of war with Jupiter and neighboring moons could be keeping large parts of Europa's ocean liquid. Tidal friction from Jupiter is also thought to be responsible for volcanic activity on Europa's neighbor Io. |
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Images of Europa from the Galileo spacecraft reveal a complicated terrain of grooved linear ridges and crustal plates which seem to have broken apart and rafted into new positions. That could indicate subsurface water or slush. In the image above, blue tints represent relatively old ice surfaces while reddish regions may contain material from more recent internal geological activity. White splotches are bright material blasted from the young impact crater Pwyll located about 600 miles south (to the right) of this area. |
Life under the ice?The mounting evidence for an
ocean beneath Europa's frozen surface raising the exciting possibility
of life on that distant world. In recent years scientists have
discovered a new class of micro-organisms here on Earth that
can live or, at least remain viable, under very extreme conditions
-- from volcanic vents deep in ocean trenches, to ice more than
400,000 years old, to Siberian permafrost more than 5 million
years old. These microbes called archaeabacteria, or simply "archaea",
constitute a third branch of life on Earth, along with prokaryotes
(normal bacteria) and eukaryotes (plants and animals). Like prokaryotes,
the genetic material of archaeabacteria float freely throughout
the cell -- they are not contained within the cell nucleus like
eukaryotic organisms. However, the DNA of archaeabacteria more
closely resemble that of plants and animals than normal bacteria.
They are truly in a class by themselves, and if life is discovered
elsewhere in the solar system it may be similar to the archaeabacteria
of Earth.
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Hitting the Beach on EuropaNASA scientists have several projects in the planning stages to explore Europa. One is the Europa Orbiter. It would use a radar sounder to study Europa's icy surface and attempt to determine the thickness of the ice and whether liquid water exists below the ice. Other instruments to study the surface and interior would include an imaging device with multiple filters to map the surface at a resolution of 100 meters and an altimeter to measure the topography and characterize the tidal response of the surface. The mission could launch in 2003 and would serve as a precursor to spacecraft that would actually send undersea explorers into the Europan oceans. |
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Galileo- Europa home page at JPL Jet Propulsion Laboratory home page The South Pole Web
Page -- news, weather, and science from the south pole
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Related Stories: Exotic-looking microbes turn up in ancient Antarctic ice Space Tether may be best way to explore Europa Clues to possible life on Europa may lie buried in Antarctic ice |
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