Astronomy Picture of the Day |
APOD: 2006 May 15 - Volcanic Bumpy Boulder on Mars
Explanation:
What created this unusually textured rock on Mars?
Most probably: a volcano.
Dubbed Bumpy Boulder, the strange stone measuring just under a
half-metre high was found by the
robotic Spirit rover
currently rolling across Mars.
Pits on the
ragged rock are likely
vesicles and arise from hot gas bubbling out of
hot rock ejected by an active Martian volcano.
Several similar rocks are visible near Bumpy Boulder that
likely have a similar past.
The above true-colour image was taken about one month ago.
The Spirit rover, now in its third year of operation on Mars,
is weathering the low sunlight winter of Mar's northern hemisphere on a
hillside slope in order to maximize the amount of absorbable
battery-refreshing sunlight.
APOD: 1999 July 5 - Four Faces of Mars
Explanation:
As Mars rotates, most of its surface becomes visible. During
Earth's recent pass between Mars and the
Sun, the
Hubble Space Telescope was able to
capture the most detailed time-lapse pictures ever from the
Earth.
Dark and light
sand and gravel create an unusual
blotted appearance for the
red planet.
Winds cause sand-tinted
features on the
Martian surface
to shift over time.
Visible in the
above pictures are the north polar cap, made of
water ice and
dry ice,
clouds including an
unusual cyclone, and
huge volcanoes
leftover from ancient times.
The
Mars Global Surveyor satellite orbiting Mars continues to scan the surface
for good places to land future robot explorers.
APOD: 2001 July 18 - Mars from Earth
Explanation:
Last month, Mars and Earth were right next
to each other in their orbits.
Formally called
opposition, the event was highlighted by a
very bright Mars for skywatchers
and a good photo opportunity for the
Hubble Space Telescope.
Above, Hubble snapped the
highest resolution picture of Mars ever obtained from the
Earth.
Visible on
Mars are
ice caps over the poles in white,
regions covered with sand and gravel
in dark brown and orange, and
large dust storms in light orange.
A particularly
large dust storm
can be seen on the lower right pouring out of
Hellas Basin.
This storm has since
erupted into a huge planet wide storm
that continues even today.
Pictures like these allow
planetary astronomers to continue to
compare the
weather patterns of
Mars and Earth.
When Mars next
reaches opposition in 2003, its elliptical orbit will cause it to be even 20 percent closer.
Authors & editors:
Robert Nemiroff
(MTU) &
Jerry Bonnell
(USRA)
NASA Web Site Statements, Warnings, and
Disclaimers
NASA Official: Jay Norris.
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A service of:
EUD at
NASA /
GSFC
& Michigan Tech. U.