Astronomy Picture of the Day |
APOD: 2024 March 22 - Phobos: Moon over Mars
Explanation:
A tiny moon with a scary name,
Phobos emerges from behind
the Red Planet in this timelapse sequence from the Earth-orbiting
Hubble Space Telescope.
Over 22 minutes the 13 separate exposures were
captured near the 2016 closest
approach of Mars to planet Earth.
Martians have to look to the west
to watch Phobos rise, though.
The small moon is closer to its
parent planet than any other
moon in the Solar System, about 3,700 miles (6,000 kilometers)
above the Martian surface.
It completes one orbit in just 7 hours and 39 minutes.
That's faster than a Mars rotation, which corresponds to
about 24 hours and 40 minutes.
As a result, seen from the surface of Mars speeding Phobos rises above
the western horizon 2 times in a Martian day.
Still, Phobos is doomed.
APOD: 2018 July 27 - Mars Opposition
Explanation:
Look opposite the Sun in the sky tonight and you'll see
Mars
at its brightest.
Also within days of its
closest approach Mars rises at
sunset, near its brightest and best for telescopic observers too,
except for the dust storm still blanketing the Red Planet.
These two Hubble Space Telescope images compare Mars' appearance
near its
2016 and 2018 oppositions.
In 2016 the martian atmosphere was clear.
Captured just days ago,
the 2018 image shows almost the same face of Mars.
Surface features obscured by dust,
the planet's cloud enshrouded south pole is tilted more toward the Sun.
Increased heat in the southern hemisphere spring and summer likely
triggers planet wide dust storms.
Of course, if you look opposite the Sun in the sky tonight, you'll
also see a Full Moon near Mars.
Skygazers
NOT located in North America could see the
Red Planet near a Red Moon
during a Total Lunar Eclipse.
APOD: 2018 June 17 - Mars Engulfed
Explanation:
What's happened to Mars?
In 2001, Mars underwent a tremendous
planet-wide dust storm -- one of the largest ever recorded from Earth.
To show the extent, these two
Hubble Space Telescope
storm watch
images from late June and
early September (2001) offer dramatically contrasting views
of the martian surface.
At left, the onset of smaller "seed" storms can be seen near
the Hellas basin
(lower right edge of Mars) and the
northern polar cap.
A similar surface view at right, taken over two months later,
shows the fully developed extent of the
obscuring global storm.
Although this storm eventually waned, in recent days a
new large dust storm has been taking hold of the
red planet.
APOD: 2017 July 21 - Phobos: Moon over Mars
Explanation:
A
tiny moon with a scary name, Phobos emerges from behind
the Red Planet in this timelapse sequence from the Earth-orbiting
Hubble
Space Telescope.
Over 22 minutes the 13 separate exposures were
captured near the 2016 closest
approach of Mars to planet Earth.
Martians have to look to the west
to watch Phobos rise, though.
The small moon is closer to its
parent planet than any other
moon in the Solar System, about 3,700 miles (6,000 kilometers)
above the Martian surface.
It completes one orbit in just 7 hours and 39 minutes.
That's faster than a Mars rotation, which corresponds to
about 24 hours and 40 minutes.
As a result, seen from the surface of Mars speeding Phobos rises above
the western horizon 2 times in a Martian day.
Still, Phobos is doomed.
APOD: 2015 October 26 - Charon and the Small Moons of Pluto
Explanation:
What do the moons of
Pluto look like?
Before a decade ago, only the largest moon
Charon was known, but never imaged.
As the robotic
New Horizons spacecraft was prepared and launched,
other moons were identified on
Hubble images but remained only
specks of light.
Finally, this past summer, New Horizons swept right
past Pluto, photographed
Pluto and
Charon in detail, and took the best images of
Styx,
Nix,
Kerberos, and
Hydra that it could.
The
featured image
composite shows the results --
each moon is seen to have a distinct shape, while underlying complexity is only hinted.
Even though not satisfyingly resolved,
these images are likely to be the best available to humanity for some time.
This is because the moons are too small and distant for contemporary Earth-based telescopes to resolve, and no new
missions to the Pluto system are planned.
APOD: 2015 January 20 - Approaching Asteroid Ceres
Explanation:
It is the largest asteroid in the asteroid belt -- what secrets does it hold?
To find out, NASA has sent the
robotic Dawn spacecraft
to explore and map this cryptic 1,000-kilometer wide world:
Ceres.
Orbiting between
Mars and
Jupiter,
Ceres is officially categorized as a
dwarf planet but has never been imaged in detail.
Featured here is a 20-frame video taken a week ago of
Dawn's approach that now rivals even the best
images of Ceres ever taken by the
Hubble Space Telescope.
The video shows enough surface definition to discern its 9-hour rotation period.
On target to
reach Ceres in early March, Dawn will match speeds and attempt
to orbit this previously unexplored body, taking images and data that may help humanity
better understand
not only the nature and history of Ceres but also the
early history of our entire
Solar System.
APOD: 2011 August 1 - Shuttle Reentry Streak from Orbit
Explanation:
What's that strange bright streak?
It is the
last image ever of a
space shuttle from orbit.
A week and a half ago, after decoupling from the
International Space Station, the
Space Shuttle Atlantis fired its rockets for the last time, lost its orbital speed, and plummeted back to Earth.
Within the next hour, however, the sophisticated space machine dropped its landing gear and did what used to be unprecedented --
landed like an airplane on a runway.
Although the future of human space flight from the
USA will enter a temporary lull, many robotic spacecraft continue to explore our Solar System and peer into our universe, including
Cassini,
Chandra,
Chang'e 2,
Dawn,
Fermi,
Hubble,
Kepler,
LRO,
Mars Express,
Messenger,
MRO,
New Horizons,
Opportunity,
Planck,
Rosetta,
SDO,
SOHO,
Spitzer,
STEREO,
Swift,
Venus-Express, and
WISE.
APOD: 2010 February 3 - P2010 A2: Unusual Asteroid Tail Implies Powerful Collision
Explanation:
What is this strange object?
First discovered on ground based
LINEAR
images on January 6, the object appeared unusual
enough to investigate further with the
Hubble Space Telescope last week.
Pictured above, what Hubble saw indicates that P/2010 A2 is unlike any object ever seen before.
At first glance, the object appears to have the
tail of a comet.
Close inspection, however, shows a 140-meter
nucleus offset from the tail center, very unusual structure near the nucleus, and no discernable gas in the tail.
Knowing that the
object orbits in the
asteroid belt
between Mars and
Jupiter, a preliminary hypothesis that appears to explain all of the known clues is that
P/2010 A2
is the debris left over from a recent
collision
between two small asteroids.
If true,
the collision likely occurred at over 15,000 kilometers per hour -- five times the speed of a
rifle bullet --
and liberated energy in excess of a
nuclear bomb.
Pressure from sunlight would then spread out the debris into a trailing tail.
Future
study of P/2010 A2 may better indicate the nature of the progenitor collision and may help humanity better understand the
early years of our Solar System, when many similar collisions occurred.
APOD: 2007 June 22 - Small Worlds Ceres and Vesta
Explanation:
Ceres and
Vesta are, respectively, only
around 950 kilometers and 530 kilometers in diameter - about
the size of Texas and Arizona.
But they are two of the largest of over 100,000
minor bodies
orbiting in the main asteroid belt between Mars and Jupiter.
These remarkably detailed
Hubble Space Telescope images
show brightness and color variations
across the surface of the two small worlds.
The variations could represent large scale
surface features or areas of different compositon.
The Hubble image data will help astronomers plan for a
visit by the asteroid-hopping
Dawn spacecraft,
scheduled for launch on July 7 and intended to orbit first
Vesta and then
Ceres after a four year interplanetary cruise.
Though
Shakespeare might not have been impressed,
nomenclature introduced by the International Astronomical
Union in 2006 classifies nearly spherical Ceres as a
dwarf planet.
APOD: 2006 August 21 - Ceres: Asteroid or Planet
Explanation:
Is
Ceres an
asteroid or a planet?
Although a trivial designation to some, the recent suggestion by the
Planet Definition Committee of the
International Astronomical Union would have Ceres reclassified from asteroid to planet.
A change in taxonomy might lead to more notoriety for the frequently overlooked world.
Ceres,
at about 1000 kilometers across, is the largest object in the
main asteroid belt
between Mars and Jupiter.
Under the
newly proposed criteria, Ceres would qualify as a planet because it is nearly
spherical and sufficiently distant from other planets.
Pictured above is the best picture yet of Ceres, taken by the
Hubble Space Telescope
as part of a series of exposures ending in 2004 January.
Currently, NASA's
Dawn mission is scheduled to launch in 2007 June to explore
Ceres and Vesta,
regardless of their future designations.
APOD: 2006 August 20 - A Map of Asteroid Vesta
Explanation:
Vesta is a huge rock 500 kilometers across that orbits out past
Mars.
In 1997, the
above map of
Vesta created using the
Hubble Space Telescope
was released showing a rugged surface highlighted by a
single crater spanning nearly the entire length of the
asteroid.
The large crater dominates the lower part of the
above false-color conglomerate image: blue indicates low terrain,
while red indicates raised terrain.
Evidence indicates that
Vesta underwent a tremendous splintering collision about a billion years ago.
In October 1960, a small chunk of this rock believed to have originated on Vesta fell to
Earth and was recovered in
Australia.
Vesta is considered by some to be a candidate for
reclassification into a planet.
APOD: 2003 November 12 - Mars Then and Now
Explanation:
Does Mars have canals?
A hot debate topic of the late 1800s,
several prominent astronomers including
Percival Lowell not only
claimed to see an extensive system of
long straight canals on Mars,
but used them to
indicate that intelligent life exists there.
The relatively close
opposition of 1894 was used to make drawings
like the one digitally re-scaled on the above left.
The above map was originally prepared by
Eugene Antoniadi and redrawn
by Lowell Hess for the book Exploring Mars, by
Roy A. Gallant.
In more modern times, the
latest Mars opposition has allowed the
Hubble Space Telescope
to capture a picture of similar orientation.
Comparison of the two images shows that large features
were impressively recorded, but that an
extensive system of long and straight canals just does not exist.
Satellites orbiting Mars
have now shown conclusively that the
red planet does indeed have surface features
similar to canals, but that these are usually smaller,
curved, and less
extensive than that previously claimed.
Real canyon systems like
Noctis Labyrinthus are most likely
cracks caused by surface stress.
APOD: 2003 August 27 - Big Mars from Hubble
Explanation:
At about 10 am
Universal Time today,
Mars and
Earth will pass
closer than in nearly 60,000 years.
Mars,
noticeably red, will be the brightest object in the
eastern sky just after sunset.
Tonight and through much of this week,
many communities around the world are running a public
Mars Watch 2003 campaign, where local
telescopes will zoom in on the red planet.
Pictured above is an image of Mars taken just last night from
the Hubble Space Telescope
in orbit around the Earth.
This image is the most detailed view of Mars ever taken from Earth.
Visible features include the south
polar cap in white at the image bottom,
circular Huygens crater just to the right of the image center,
Hellas Impact Basin - the large light circular feature at the lower right,
planet-wide light highlands dominated by many smaller craters and
large sweeping dark areas
dominated by relatively smooth lowlands.
APOD: 2001 October 17 - Mars Engulfed
Explanation:
For months now,
Mars
has been engulfed by a great dust storm, the biggest
seen raging across the
Red Planet in
decades.
As a result, these two Hubble Space Telescope
storm
watch images from late June and
early September offer dramatically contrasting views
of the martian surface.
At left, the onset of smaller "seed" storms can be seen near
the Hellas basin
(lower right edge of Mars) and the
northern polar cap.
A similar surface view at right, taken over two months later,
shows the fully developed extent of the obscuring global dust storm.
The storm is reported to be waning, but planet-wide effects such as the
warming of the upper
martian
atmosphere and cooling of the surface are
still being monitored daily by
instruments on board the Mars Global
Surveyor spacecraft.
The present condition of the martian atmosphere is
also
important to the aerobraking
Mars
Odyssey spacecraft, scheduled to arrive
at the Red Planet next week.
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.
APOD: July 5, 1999 - 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: May 20, 1999 - Cyclone on Mars
Explanation:
Late last month a team of
Mars-watching astronomers sighted an immense
cyclonic storm system raging near
the Red Planet's north pole.
Their discovery picture, made with the Hubble Space Telescope
on April 27, is seen at left while the projected insets
(right) show closeups of the storm and surrounding areas.
Shrunken to its
martian
midsummer state,
Mars' north polar cap
appears at the top of the discovery picture.
The polar cap is
clearly smaller than the storm just below it and farther left.
Similar to the
"spiral storms" detected on Mars over 20 years ago by
the Viking spacecraft, this storm was marked by a system of swirling
bright water-ice clouds instead of the billowing dust of a more typical
martian wind storm.
Measuring roughly 1,000 miles across,
with a cloud-free central eye spanning about 200 miles, it
was comparable in size to
cyclones seen in
planet Earth's polar regions.
The storm system was imaged once more, hours later, but then
was not seen again and may have had a lifetime of
only a few days.
APOD: March 3, 1999 - Infrared Mars
Explanation:
Was Mars wetter and more Earth-like in its distant past?
This false-color composite image of Mars is part of the mounting
evidence that
liquid water once did play a significant role in
Martian surface geology.
Constructed from infrared imaging data
obtained by the Hubble Space Telescope
in July 1997, the north polar cap
is near the top of the picture and the large reddish region
indicates potential water-bearing mineral deposits.
Mars Pathfinder landed at the southern edge of this area, known
as the Mare Acidalium, also finding evidence of water-worn
conglomerate rocks.
Large scale surface
features in this region appear to have been sculpted
by massive flooding in the early history
of Mars.
APOD: September 5, 1998 - The Pulsar Powered Crab
Explanation:
In the Summer of 1054 A.D.
Chinese astronomers reported
that a star in the
constellation of Taurus suddenly became as bright as the full Moon.
Fading slowly, it remained visible for over a year.
It is now understood
that a spectacular supernova explosion -
the detonation of a massive star whose remains
are now visible as the Crab Nebula-
was responsible for the apparition.
The core of the star collapsed to form a rotating
neutron star or
pulsar,
one of the most exotic objects known to 20th century astronomy.
Like a cosmic lighthouse, the rotating Crab pulsar generates beams of
radio, visible, x-ray and gamma-ray energy which, as the name
suggests, produce pulses as they sweep across our view.
Using a stunning series of
visible light images taken with
the Hubble Space Telescope (HST), astronomers have discovered
spectacular pulsar powered motions within the Crab nebula.
Highlights of this
HST Crab "movie" show wisps of material moving
away from the pulsar at half the speed of light, a scintillating halo,
and an intense knot of emission dancing, sprite-like, above the pulsar's pole.
Only 6 miles wide but more
massive than the sun, the pulsar's energy drives the dynamics and emission
of the nebula itself which is more than 10 lightyears across.
In this HST image,
the pulsar is the left most of the two bright central stars.
APOD: October 8, 1997 - The Brightest Star Yet Known
Explanation:
Star light, star bright, a new brightest star has been discovered in the night.
This
new brightest star is so far away and so obscured by
dust, however, that it took the
Hubble Space Telescope to confirm it.
In 1990 a star named the
Pistol Star
was known to lie at the center of the
Pistol Nebula.
In 1995 it was suggested that the Pistol Star was so massive it was throwing off the
mass that actually created the Pistol Nebula. Now, observations from the
Hubble Space Telescope
released today confirm the spectral relation
between the star and the nebula.
Dramatic implications include that the star emits
10 million times more light than our
Sun, and is about
100 times more massive. Astronomers are currently unsure how a star this
massive could have formed and how it will act in the future.
APOD: September 23, 1997 - A Martian Autumn Begins
Explanation:
Today is the first day of Autumn in the Northern Hemisphere of
Planet Earth.
The Autumnal Equinox occured yesterday at 7:56 pm
EDT as the Sun crossed the celestial equator from North to South.
Mars has seasons too and for
the same reason that Earth does --
like Earth, Mars' axis of rotation is tilted with respect to
the plane of its orbit around the sun.
Eleven days ago Autumn also came to
Mars' Northern Hemisphere and
the Hubble Space Telescope
recorded this image of the red planet
to look for
seasonal changes in the Martian weather.
Clouds appear to cover the north polar regions while a dust storm
rages in the south.
The subject of weather on Mars is important to the
just arrived Mars Global Surveyor
spacecraft as it uses the
innovative technique of aerobraking to establish a suitable
mapping orbit around Mars.
APOD: September 8, 1997 - A Map of Asteroid Vesta
Explanation:
Vesta is a huge rock 500 kilometers across that orbits out past
Mars. Last week, the
above map of
Vesta created using the
Hubble Space Telescope
was released showing a rugged surface highlighted by a
single crater spanning nearly the entire length of the asteroid.
The large crater dominates the lower part of the false-color
conglomerate image: blue indicates low terrain,
while red indicates raised terrain. Evidence indicates that
Vesta underwent a tremendous splintering collision about a billion years ago.
In October 1960, a small chunk of this rock believed to have originated on Vesta fell to
Earth and was recovered in
Australia.
APOD: July 3, 1997 - Mars: A Journey's End
Explanation:
Mars Pathfinder is nearing the end of its 7 month
journey.
The robot spacecraft is scheduled to use
parachutes, rockets, and airbags
to "bouncedown" on the red planet
tomorrow -
July 4th.
This Hubble Space Telescope image of Mars was taken a few days ago
to check on the weather.
The pathfinder landing site, on the ancient floodplain Ares Vallis,
is just right of center - 500 miles southeast
of where Viking 1 landed in 1976.
Along with the martian north polar cap, some water ice clouds
are visible in both
the northern and southern hemisphere.
About 600 miles south of the landing site a dust storm
can be seen as a brownish ribbon stretching through the
the Valles Marineris, a continent sized canyon system.
Fortunately, the dust storm is not expected to seriously affect
operations at the landing site.
APOD: May 22, 1997 - Bound For Mars
Explanation:
Two NASA spacecraft,
Mars Global Surveyor and
Mars Pathfinder,
are presently approaching
the red planet. Pathfinder is scheduled to land on July 4th and
Global Surveyor due to enter orbit in September.
Recent
studies of the Martian climate,
motivated by this impending
invasion of spacecraft from Earth,
have indicate that
Mars weather is more chaotic than previously thought - showing abrupt
swings between "hot and dusty" and "cold and cloudy".
These Hubble Space Telescope images
from March 1997 show
the Northern Hemisphere in early Martian summer,
with a receding polar cap and whitish water-ice clouds.
The left image is centered on Ares Valles,
Pathfinder's landing site,
while in the right image, towering
Tharsis mountains (massive extinct volcanoes)
can be seen poking through the clouds.
Stretching to the eastern edge of the righthand image
(at lower right) is the
Valles Marineris,
an immense canyon system.
Martian weather reports will play
an important role in mission planning.
Both spacecraft rely on the Martian atmosphere for
braking maneuvers and Pathfinder's lander and rover are solar powered.
APOD: March 24, 1997 - The Weather on Mars
Explanation: Would Mars be a nice place to visit? Sometimes.
Much of Mars
undergoes severe changes in climate
during its orbit around the Sun, ranging from extreme cold to temperatures
enjoyable by humans. But Mars is
usually a nice place to visit for hardy spacecraft, and in fact
the Mars Pathfinder
and Mars Global Surveyor
missions are currently headed for the "Red Planet."
In preparation for the scheduled Mars Pathfinder landing on July
4th, 1997, the Earth-Orbiting Hubble Space Telescope
recently took the above high resolution photograph.
The picture shows the onset of Martian summer (northern hemisphere)
when, apparently, the northern polar cap recedes to uncover dark
sand dunes.
APOD: November 4, 1996 - The Martian Spring
Explanation:
As spring comes to the northern
latitudes of Mars,
increased solar heating brings warmth and a change in the weather.
The winds produced by the large temperature differences
between the receding polar ice and
the warming regions to the south may cause dust
storms - like the one visible in
the above Hubble Space Telescope images
made in September this year.
On the left, north is up and the Martian polar cap is seen at the top with
dark regions along its southern border. The dust storm, about 600
miles wide, is visible against the white polar ice as
a salmon colored notch.
The image on the right presents the data showing the dust storm
on a map grid centered on the north pole.
Mars is famous for planet wide dust storms but studies of more localized
weather patterns are difficult without high resolution images like those
provided by the Hubble.
As NASA prepares future missions to Mars, detailed
studies of
Martian weather patterns become increasingly important.
APOD: August 6, 1996 - Europa: Oceans of Life?
Explanation:
Is there life beneath Europa's frozen surface? Some believe the oceans
found there of carbon-enriched water are the
best
chance for life, outside the
Earth,
in our
Solar System.
Europa, the fourth largest moon of
Jupiter, was
recently
discovered to have a thin oxygen atmosphere
by scientists using the
Hubble Space Telescope. Although
Earth's
atmospheric abundance of
oxygen is
indicative of life, astronomers speculate that Europa's oxygen
arises purely from physical processes. But what an interesting
coincidence! The above picture was taken by a Voyager spacecraft in 1979, but the
spacecraft Galileo
is currently circling
Jupiter and
has been
photographing
Europa.
The first of these pictures will be released two days from today.
Will
they show the unexpected?
APOD: October 31, 1995 - A Halloween Invasion from Mars
Explanation:
Orson Welles became an instant legend on Halloween in 1938 for his
radio dramatization of
H.G. Wells' "War of the Worlds".
Some listeners who did not realize it was a theatrical production
were driven to near panic by this fictional account of invaders
from Mars.
In the story, as in the
above Hubble Space Telescope image,
Mars was at "opposition", its point of
closest approach to the Earth, a distance of some 65 million miles.
For the Martians, it was imagined
that this was a good time to invade. For astronomers,
opposition is a good time to study the red planet
and this HST image,
represents the clearest view of
Mars ever for an Earth telescope.
The icy north polar cap is visible at
the top of the picture as well as a veil of white clouds along
the planet's left edge. The dark markings represent areas where
the reddish tinged dust characteristic of the
surface has
been blown away by the Martian winds.