Astronomy Picture of the Day |
APOD: 2024 July 17 – Villarrica Volcano Against the Sky
Explanation:
When
Vulcan, the
Roman god of fire, swings his blacksmith's hammer, the
sky is lit on fire.
A recent eruption of
Chile's
Villarrica volcano shows the delicate interplay between this fire --
actually glowing steam and
ash from
melted rock --
and the light from distant stars in our
Milky Way galaxy and the
Magellanic Clouds galaxies.
In the
featured timelapse video, the
Earth rotates under the stars as
Villarrica erupts.
With about
1350 volcanoes,
our
planet Earth
rivals
Jupiter's moon Io as the most
geologically active place in the
Solar System.
While both have magnificent beauty, the reasons for the existence of volcanoes on both worlds are different.
Earth's volcanoes typically occur between slowly shifting
outer shell plates, while
Io's
volcanoes are caused by
gravitational flexing resulting from
Jupiter's tidal gravitational
pull.
APOD: 2023 October 23 – Moon Io from Spacecraft Juno
Explanation:
There goes another one!
Volcanoes on
Jupiter's moon
Io keep erupting.
To investigate,
NASA's robotic
Juno
spacecraft has begun a series of visits to this
very strange moon.
Io is about the size of Earth's moon, but because of
gravitational flexing by Jupiter and other moons,
Io's interior gets heated and its surface has become
covered with volcanoes.
The featured image is from
last week's flyby,
passing within 12,000 kilometers above the dangerously active world.
The surface of Io
is covered with sulfur and frozen sulfur dioxide,
making it appear yellow, orange and brown.
As hoped, Juno flew by
just as a volcano was erupting --
with its faint plume visible near the top of the featured image.
Studying Io's volcanoes and plumes helps humanity better understand how
Jupiter's complex system of moons, rings, and auroras interact.
Juno is scheduled to make two flybys of Io during the coming months that are almost 10 times closer: one in December and another in February 2024.
APOD: 2023 August 8 – Moon Meets Jupiter
Explanation:
What's that below the Moon?
Jupiter -- and its largest moons.
Many
skygazers across planet Earth enjoyed the close conjunction of
Earth's Moon passing nearly in front of Jupiter in mid-June.
The featured image is a single exposure of the event taken from
Morón de la Frontera,
Spain.
The sunlit lunar crescent on the left is overexposed, while the Moon's night side,
on the right, is only faintly illuminated by Earthshine.
Lined up diagonally below the Moon, left to right, are
Jupiter's bright Galilean satellites:
Callisto,
Ganymede,
Io
(hard to see as it is very near to Jupiter), and
Europa.
In fact, Callisto, Ganymede, and Io are larger than Earth's Moon, while
Europa is only slightly smaller.
NASA's robotic spacecraft
Juno
is currently orbiting Jupiter and made a
close pass near Io only a week ago.
If you
look up in the
night sky tonight, you will again see two of the brightest
objects angularly close together -- because
tonight is another
Moon-Jupiter conjunction.
APOD: 2023 June 13 – Moons Across Jupiter
Explanation:
Jupiter's moons
circle Jupiter.
The featured video depicts Europa and Io, two of
Jupiter's largest moons, crossing in front of
the grand planet's
Great Red Spot,
the largest known storm system in our
Solar System.
The video was composed from images taken by the
robotic Cassini spacecraft as it passed Jupiter in 2000, on its way to Saturn.
The two moons visible are
volcanic Io, in the distance, and
icy Europa.
In the time-lapse video, Europa appears to overtake Io, which is
odd because Io is closer to
Jupiter and moves faster.
The explanation is that the motion of the fast
Cassini spacecraft changes the camera location significantly during imaging.
Jupiter is currently being visited by
NASA's robotic
Juno spacecraft,
while ESA's
Jupiter Icy Moons Explorer (JUICE),
launched in April, is enroute.
APOD: 2022 December 11 - Io in True Color
Explanation:
The strangest moon in the
Solar System is bright yellow.
The
featured picture,
an attempt to show how Io would appear in the "true colors" perceptible to the average human eye, was taken in 1999 July by the
Galileo spacecraft that orbited Jupiter from 1995 to 2003.
Io's colors derive from
sulfur and molten
silicate rock.
The unusual surface of Io
is kept very young by its system of
active volcanoes.
The intense
tidal gravity of
Jupiter stretches
Io
and damps wobbles caused by Jupiter's other
Galilean moons.
The resulting
friction
greatly heats
Io's interior, causing
molten rock to explode through the surface.
Io's volcanoes
are so active that they are effectively turning the
whole moon inside out.
Some of
Io's volcanic lava is so hot it
glows in the dark.
APOD: 2022 October 25 - Jupiter Rotates as Moons Orbit
Explanation:
Jupiter and its moons move like our Sun and its planets.
Similarly,
Jupiter spins while
its moons circle around.
Jupiter’s rotation can be observed by tracking
circulating dark belts and light zones.
The Great Red Spot, the largest storm known,
rotates to become visible after about 15 seconds in the 48-second time lapse video.
The video
is a compilation of shorts taken over several nights
last month and combined into a digital recreation of how
24-continuous hours would appear.
Jupiter's brightest moons always orbit in the plane of the planet's rotation,
even as Earth’s spin
makes the whole system appear to
tilt.
The moons
Europa,
Ganymede, and
Io are
all visible, with Europa's
shadow appearing as the icy
Galilean moon
crosses Jupiter's disk.
Jupiter remains
near opposition this month,
meaning that it is unusually bright,
near to its closest to the Earth,
and visible nearly all night long.
APOD: 2022 August 30 - Jupiter from the Webb Space Telescope
Explanation:
This new view of Jupiter is illuminating.
High-resolution
infrared
images of
Jupiter from the new
James Webb Space Telescope (Webb) reveal, for example,
previously unknown differences between high-floating bright clouds --
including the
Great Red Spot --
and low-lying dark clouds.
Also clearly visible in the
featured Webb image are
Jupiter's dust ring, bright
auroras at the poles, and Jupiter's moons
Amalthea and
Adrastea.
Large volcanic moon
Io's magnetic funneling of charged particles onto
Jupiter is also visible in the southern aurora.
Some objects are so bright that light noticeably
diffracts around
Webb's optics creating
streaks.
Webb, which
orbits the Sun
near the Earth, has a mirror over six meters across making it the
largest astronomical telescope
ever
launched -- with over six times
more light-collecting area than
Hubble.
APOD: 2022 July 17 - Europa and Jupiter from Voyager 1
Explanation:
What are those spots on Jupiter?
Largest and furthest, just right of center, is the
Great Red Spot --
a huge
storm system that has been raging on
Jupiter
possibly since
Giovanni Cassini's likely notation of it
357 years ago.
It is not yet known why this
Great Spot is red.
The spot toward the lower left is one of Jupiter's largest moons:
Europa.
Images from Voyager
in 1979 bolster the modern hypothesis that
Europa has an underground ocean and is therefore a good place to
look for extraterrestrial life.
But what about the dark spot on the upper right?
That is a shadow of another of Jupiter's large moons:
Io.
Voyager 1 discovered
Io to be so volcanic that no
impact craters could be found.
Sixteen frames from
Voyager 1's flyby of
Jupiter in 1979 were recently reprocessed and merged to create the
featured image.
Forty-five years ago this September,
Voyager
1 launched from Earth and started one of the
greatest explorations of the
Solar System ever.
APOD: 2022 February 4 - Moons at Twilight
Explanation:
Even though Jupiter
was the only planet visible in the evening sky on February 2, it
shared the twilight
above the western horizon with the Solar System's
brightest moons.
In a single exposure made just after sunset, the Solar System's
ruling gas giant is at the upper right in
this telephoto field-of-view from Cancun, Mexico.
The snapshot also captures our fair planet's own natural satellite
in its young crescent phase.
The Moon's disk looms large, its
familiar face illuminated
mostly by
earthshine.
But the four points of light lined-up with Jupiter are Jupiter's
own large
Galilean moons.
Top to bottom are Ganymede, [Jupiter], Io, Europa, and Callisto.
Ganymede, Io, and Callisto are physically larger than Earth's Moon while
water world Europa
is only slightly smaller.
APOD: 2021 September 17 - Video: Flash on Jupiter
Explanation:
There has been a flash on Jupiter.
A few days ago, several groups monitoring our Solar System's
largest planet noticed a two-second long burst of light.
Such flashes have been
seen before, with the most famous being a series of
impactor strikes in 1994.
Then, fragments of
Comet Shoemaker-Levy 9 struck
Jupiter leaving dark patches that lasted for months.
Since then, at least
seven impacts have been recorded on Jupiter --
usually
discovered by
amateur astronomers.
In the featured video,
variations in the Earth's atmosphere cause Jupiter's image to
shimmer when,
suddenly, a bright flash appears just left of center.
Io and its shadow
are visible on the right.
What hit
Jupiter will likely
never be known, but considering what we do know of the nearby
Solar System, it was likely a piece of rock and ice -- perhaps the size of a bus -- that
broke off long-ago from a passing
comet or
asteroid.
APOD: 2021 August 21 - Triple Transit and Mutual Events
Explanation:
These three panels feature the Solar System's ruling
gas giant Jupiter
on August 15 as seen from Cebu City, Philippines, planet Earth.
On that date the
well-timed telescopic views
detail some remarkable performances,
transits and mutual events, by Jupiter's Galilean moons.
In the top panel,
Io
is just disappearing into Jupiter's shadow at
the far right, but the three other large Jovian moons appear against the
planet's banded disk.
Brighter
Europa
and darker
Ganymede
are at the far left, also casting
their two shadows on the gas giant's cloud tops.
Callisto
is below and right near the planet's edge, the three moons in
a triple transit across the face of Jupiter.
Moving to the middle panel, shadows
of Europa and Ganymede are still visible near center
but Ganymede has occulted or passed in front of Europa.
The bottom panel captures a rare view of Jovian moons in eclipse
while transiting Jupiter, Ganymede's shadow falling on Europa itself.
From planet Earth's perspective, similar mutual events,
when Galilean moons occult and eclipse each other,
can be seen every six years or so when
Jupiter is near its own equinox.
APOD: 2020 December 23 - Jupiter Meets Saturn: A Red Spotted Great Conjunction
Explanation:
It was time for their
close-up.
Two days ago
Jupiter and
Saturn
passed a tenth of
a degree
from each other in what is known a
Great Conjunction.
Although the
two planets pass each other on the sky every 20 years,
this was the closest pass in nearly four centuries.
Taken early in day of the
Great Conjunction, the
featured multiple-exposure combination
captures not only both giant planets in a single frame,
but also Jupiter's four largest moons (left to right)
Callisto,
Ganymede,
Io, and
Europa --
and Saturn's largest moon
Titan.
If you look very closely, the clear
Chilescope image even captures Jupiter's
Great Red Spot.
The now-separating planets can still be seen
remarkably close -- within about a degree -- as they set just after the
Sun,
toward the west,
each night for the remainder of the year.
APOD: 2020 September 10 - Jupiter's Swimming Storm
Explanation:
A bright storm head with a long turbulent wake swims across Jupiter
in these sharp telescopic images of the
Solar System's ruling gas giant.
Captured on August 26, 28, and September 1 (left to right)
the storm approximately doubles in length during that period.
Stretching along the jetstream of the planet's
North Temperate Belt
it travels eastward in successive frames, passing
the Great Red Spot and whitish Oval BA, famous
storms in Jupiter's southern hemisphere.
Galilean moons Callisto and Io are caught in the middle frame.
In fact, telescopic skygazers
following Jupiter in
planet Earth's night have reported dramatic
fast moving storm outbreaks
over the past few weeks in
Jupiter's North Temperate Belt.
APOD: 2020 September 2 - Jupiter and the Moons
Explanation:
How many moons do you see?
Many people would say one, referring to the
Earth's
Moon, prominent on the lower left.
But take a
closer look at the object on the upper right.
That seeming-star is actually the planet
Jupiter,
and your closer look might reveal that it is not alone – it is surrounded by some of its largest moons.
From left to right these
Galilean Moons are
Io,
Ganymende,
Europa and
Callisto.
These moons orbit the Jovian world just like the planets of
our Solar System orbit the
Sun, in a
line when seen from the side.
The featured single shot was captured from
Cancun,
Mexico last week as
Luna,
in its orbit around the Earth, glided past the distant planet.
Even better views of
Jupiter are currently being captured by
NASA's
Juno spacecraft,
now in a looping orbit around the Solar System's largest planet.
Earth's Moon will continue to pass nearly in front of
both Jupiter and Saturn once a month
(moon-th) as the two giant planets approach their own
great conjunction in December.
APOD: 2020 June 28 - Europa and Jupiter from Voyager 1
Explanation:
What are those spots on Jupiter?
Largest and furthest, just right of center, is the
Great Red Spot --
a huge
storm system that has been raging on
Jupiter
possibly since
Giovanni Cassini's likely notation of it
355 years ago.
It is not yet known why this
Great Spot is red.
The spot toward the lower left is one of Jupiter's largest moons:
Europa.
Images from Voyager
in 1979 bolster the modern hypothesis that
Europa has an underground ocean and is therefore a good place to
look for extraterrestrial life.
But what about the dark spot on the upper right?
That is a shadow of another of Jupiter's large moons:
Io.
Voyager 1 discovered
Io to be so volcanic that no
impact craters could be found.
Sixteen frames from
Voyager
1's flyby of Jupiter in 1979 were recently reprocessed and merged to create the
featured image.
About 43 years ago,
Voyager
1 launched from Earth and started one of the
greatest explorations of the
Solar System ever.
APOD: 2020 May 19 - Posters of the Solar System
Explanation:
Would you like a NASA astronomy-exploration poster?
You are just one page-print away.
Any of the panels you see on
the featured image can appear on your
wall.
Moreover,
this NASA page has, typically,
several more posters of each of the
Solar System objects depicted.
These posters highlight many of the places humanity, through
NASA, has explored in the past 50 years,
including our
Sun, and planets
Mercury,
Venus,
Earth,
Mars,
Jupiter,
Saturn,
Uranus, and
Neptune.
Moons of Jupiter that have been posterized include
Europa,
Ganymede,
Callisto, and
Io,
while moons of Saturn that can be framed include
Enceladus and
Titan.
Images of
Pluto,
Ceres,
comets and asteroids are also presented, while six deep space scenes --
well beyond
our Solar System -- can also be prominently displayed.
If you
lack wall space or blank poster sheets don't despair --
you can still print many of these out as
trading cards.
APOD: 2019 October 7 - Io Eclipse Shadow on Jupiter from Juno
Explanation:
What's that dark spot on Jupiter?
It's the shadow of
Jupiter's most volcanic moon
Io.
Since Jupiter shines predominantly by reflected sunlight,
anything that blocks that light
leaves a shadow.
If you could somehow be in that shadow, you would see a
total eclipse of the Sun by
Io.
Io's shadow is about
3600 kilometers across, roughly the same size as
Io itself -- and only slightly larger than
Earth's Moon.
The
featured
image was
taken
last month by NASA's robotic
Juno spacecraft currently orbiting Jupiter.
About every two months,
Juno swoops
close by Jupiter, takes a lot of data and snaps a series of images --
some of which are
made into
a video.
Among many other things, Juno has been measuring Jupiter's gravitational field, finding
surprising evidence that Jupiter may be mostly a liquid.
Under unexpectedly thick clouds, the Jovian giant may house a massive
liquid hydrogen
region that extends all the way to the center.
APOD: 2019 October 5 - Jupiter and the Moons
Explanation:
After sunset on October 3, some of the Solar System's largest moons
stood low along the western horizon with
the largest planet.
Just after nightfall, a pairing of the Moon approaching first quarter
phase and Jupiter was captured in this telephoto field of view.
A blend of short and long exposures, it reveals
the familiar face
of our fair planet's own large natural satellite in stark sunlight and
faint earthshine.
At lower right are the ruling gas giant and its four Galilean moons.
Left to right, the tiny pinpricks of light are
Ganymede, [Jupiter], Io, Europa, and Callisto.
Our own natural satellite appears to loom large because it's close,
but Ganymede, Io, and Callisto are actually larger than Earth's Moon.
Water world Europa
is only slightly smaller.
Of the Solar System's six
largest planetary satellites,
only Saturn's moon Titan, is missing from this scene.
But be sure
to check for large moons
in your sky tonight.
APOD: 2019 May 23 - Moons Near Jupiter
Explanation:
On May 20, a nearly Full Moon and Jupiter shared this telephoto field of
view.
Captured when a passing cloud bank dimmed the moonlight,
the single exposure reveals the familiar
face of our fair planet's own large natural satellite, along
with bright Jupiter (lower right) and some of its
Galilean moons.
Lined up left to right the tiny pinpricks of light near Jupiter are
Ganymede,
Europa,
[Jupiter] and
Callisto.
(That's not just dust on your screen ...)
Closer and brighter, our own natural satellite appears to loom large.
But Ganymede, and Callisto are physically larger than Earth's Moon,
while water
world Europa is only slightly smaller.
In fact, of the Solar System's six
largest
planetary satellites, Saturn's moon Titan is missing
from the scene and a fourth Galilean moon, Io, is hidden by our
ruling gas giant.
APOD: 2017 September 5 - Europa and Jupiter from Voyager 1
Explanation:
What are those spots on Jupiter?
Largest and furthest, just right of center, is the
Great Red Spot --
a huge
storm system that has been raging on
Jupiter
possibly since
Giovanni Cassini's likely notation of it
352 years ago.
It is not yet known why this
Great Spot is red.
The spot toward the lower left is one of Jupiter's largest moons:
Europa.
Images from Voyager
in 1979 bolster the modern hypothesis that
Europa has an underground ocean and is therefore a
good place to look for extraterrestrial life.
But what about the dark spot on the upper right?
That is a shadow of another of Jupiter's large moons:
Io.
Voyager 1 discovered
Io to be so volcanic that no
impact craters could be found.
Sixteen frames from
Voyager
1's flyby of Jupiter in 1979 were recently reprocessed and merged to create the
featured image.
Forty years ago today,
Voyager
1 launched from Earth and started one of the
greatest explorations of the
Solar System ever.
APOD: 2017 April 13 - Moons and Jupiter
Explanation:
On April 10, a Full Moon and Jupiter shared this telephoto field of view.
Both were near opposition, opposite the Sun in Earth's night sky.
Captured when a passing cloud bank dimmmed the bright moonlight,
the single exposure reveals the familiar
face of our fair planet's own large natural satellite, along
with a line up of the ruling gas giant's four Galilean moons.
Labeled top to bottom,
the tiny pinpricks of light above bright Jupiter are
Callisto,
Europa,
Ganymede, and
Io.
Closer and brighter, our own natural satellite appears to loom large.
But Callisto, Ganymede, and Io are physically larger than Earth's Moon,
while water
world Europa is only slightly smaller.
In fact, of the Solar System's six
largest
planetary satellites, only Saturn's moon Titan is missing
from the scene.
APOD: 2017 March 25 - Ganymede's Shadow
Explanation:
Approaching
opposition
early next month, Jupiter is offering
some of its best telescopic views from planet Earth.
On March 17, this impressively sharp image of the solar system's
ruling gas giant was taken from a remote observatory in Chile.
Bounded by
planet girdling winds, familiar dark belts and light zones
span the giant planet spotted with rotating
oval storms.
The solar system's
largest moon Ganymede is above and left in the frame,
its shadow seen in transit across the northern
Jovian
cloud tops.
Ganymede itself is seen in remarkable detail along with bright
surface features on fellow Galilean moon Io,
right of Jupiter's looming disk.
APOD: 2016 September 4 - Io over Jupiter from Voyager 1
Explanation:
Back in 1979, NASA's Voyager 1 spacecraft flew past Jupiter and its moons.
The images in this mosaic, featuring the moon Io against a background of gas giant
Jupiter's diffuse swirling cloud bands,
were recorded by Voyager's camera from a distance of about 8.3 million kilometers.
The
Io image from this mosaic may be the first to show curious round features on
Io's surface
with dark centers and bright rims more than 60 kilometers across.
Now known to be volcanic in origin,
these features were then thought likely to be impact craters,
commonly seen on rocky bodies
throughout the Solar System.
But as
Voyager
continued to approach Io, close-up pictures revealed a bizarre world devoid of impact craters, frequently resurfaced by volcanic activity.
Earlier this year a new robotic spacecraft,
NASA's Juno, began to orbit Jupiter and last week
made a pass within 5,000 kilometers of Jupiter's clouds.
During the next two years, it is hoped that
Juno will discover new things about Jupiter, for example
what's in Jupiter's core.
APOD: 2016 August 7 - Io: Moon over Jupiter
Explanation:
How big is Jupiter's moon Io?
The most volcanic body in the Solar System,
Io (usually pronounced "EYE-oh") is
3,600 kilometers in diameter, about the size of
planet Earth's single large
natural satellite.
Gliding
past Jupiter
at the turn of the millennium, the Cassini spacecraft captured this
awe
inspiring view of active Io
with the
largest gas giant as a backdrop,
offering a
stunning demonstration of the ruling planet's
relative size.
Although in the featured picture Io appears
to be located just in front of the
swirling Jovian clouds,
Io hurtles around its orbit once every 42 hours
at a distance of 420,000 kilometers or so from the center
of Jupiter.
That puts
Io
nearly 350,000 kilometers above
Jupiter's cloud tops,
roughly equivalent to the distance between
Earth and Moon.
In July, NASA's
Juno
satellite began orbiting
Jupiter
and will sometimes swoop to within 5,000 kilometers of Jupiter's cloud tops.
APOD: 2016 July 10 - Moon Meets Jupiter
Explanation:
What's that next to the Moon?
Jupiter -- and its four largest moons.
Skygazers
around planet Earth enjoyed the close encounter of planets and
Moon in 2012 July 15's predawn skies.
And while many saw bright Jupiter next to the slender, waning crescent,
Europeans also had the opportunity to watch the
ruling gas giant pass
behind the lunar disk, occulted by the Moon as it slid through the
night.
Clouds threaten in this telescopic view from
Montecassiano,
Italy, but
the frame still captures Jupiter after it emerged from the occultation
along with all four of its large Galilean moons.
The sunlit crescent is overexposed with the Moon's night side faintly
illuminated by Earthshine.
Lined up left to right beyond the dark lunar limb are Callisto,
Ganymede, Jupiter, Io, and Europa.
In fact,
Callisto, Ganymede, and Io are larger than Earth's Moon, while
Europa is only slightly smaller.
Last week,
NASA's Juno became the second
spacecraft ever to orbit Jupiter.
APOD: 2016 March 3 - Moons and Jupiter
Explanation:
Some of the Solar System's largest moons rose together
on February 23.
On that night, a twilight pairing of a waning gibbous Moon
and Jupiter was captured in this sharp
telescopic field of view.
The composite of short and long exposures reveals the familiar
face of our fair planet's own large natural satellite, along
with a line up of the ruling gas giant's four Galilean moons.
Left to right, the tiny pinpricks of light are
Callisto,
Io,
Ganymede, [Jupiter], and
Europa.
Closer and brighter, our own natural satellite appears to loom large.
But Callisto, Io, and Ganymede are actually larger than Earth's Moon,
while water
world Europa is only slightly smaller.
In fact, of the Solar System's six
largest
planetary satellites, only Saturn's moon Titan is missing
from the scene.
(Editor's note: Composite corrected for orientation and field of
view posted on March 7.)
APOD: 2015 February 6 - Jupiter Triple-Moon Conjunction
Explanation:
Our solar system's
ruling giant planet
Jupiter and 3 of its 4 large Galilean moons are captured in this single
Hubble snapshot
from January 24.
Crossing in front of Jupiter's banded cloud tops
Europa, Callisto, and Io
are framed from lower left to
upper right in a rare triple-moon conjunction.
Distinguishable by colors alone
icy Europa is almost white,
Callisto's ancient cratered surface looks dark brown,
and volcanic Io appears yellowish.
The transiting moons and
moon shadows can be identified by
sliding your cursor over the image, or following
this link.
Remarkably, two small, inner Jovian moons,
Amalthea and Thebe, along with
their shadows,
can
also be found in the
sharp Hubble view.
The Galilean moons have diameters of 3,000 to 5,000 kilometers or so,
comparable in size to Earth's moon.
But odd-shaped Amalthea and Thebe are only about 260 and 100
kilometers across respectively.
APOD: 2014 November 26 - Io and Callisto Mutual Event
Explanation:
A 24 minute sequence from top to bottom,
this intriguing series of telescopic frames
tracks the occultation of Io by Callisto, two of Jupiter's
Galilean moons,
from San Pietro Polesine, Italy, planet Earth.
A challenging observational project using a small telescope,
the two contrasting
Jovian worlds
are both slightly
larger than Earth's Moon.
In fact, bright, volcanic
Io and dark, cratered
Callisto are
about 3,640 and 4,820 kilometers in diameter respectively.
With Earth itself now crossing near the orbital plane
of Jupiter's moons, astronomers are enjoying a season of
Galilean moon mutual
events ranging from eclipses to occultations.
The series of orbital plane crossings produce a
mutual event season every 5 to 6 years.
APOD: 2014 March 30 - Io in True Color
Explanation:
The strangest moon in the
Solar System is bright yellow.
This
picture,
an attempt to show how Io would appear in the "true colors" perceptible to the average human eye, was taken in 1999 July by the
Galileo spacecraft that orbited Jupiter from 1995 to 2003.
Io's colors derive from
sulfur and molten
silicate rock.
The unusual surface of Io
is kept very young by its system of
active volcanoes.
The intense
tidal gravity of
Jupiter stretches
Io and damps wobbles caused by Jupiter's other
Galilean moons.
The resulting
friction greatly heats
Io's interior, causing
molten rock to explode through the surface.
Io's volcanoes
are so active that they are effectively turning the
whole moon inside out.
Some of
Io's volcanic lava is so hot it
glows in the dark.
APOD: 2013 November 2 - Jupiter's Triple Shadow Transit
Explanation:
This webcam and telescope image of banded gas giant Jupiter
shows the transit of
three shadows cast
by Jupiter's moons in progress, captured in Belgian skies on
October 12 at 0528 UT.
Such a three shadow transit is a relatively
rare event,
even for a
large planet with many moons.
Visible in the frame are the three Galilean moons responsible,
Callisto at the far left edge,
Io closest to Jupiter's disk,
and Europa below and just left of Io.
Of their shadows on the
sunlit Jovian cloud tops,
Callisto casts the most elongated one near
the planet's south polar region at the bottom.
Io's shadow is above and right of Jupiter's Great Red Spot.
Of course viewed from Jupiter's perspective, these
shadow crossings could be seen as solar eclipses, analogous to the
Moon's shadow crossing
the sunlit face of planet Earth.
APOD: 2013 August 4 - Io's Surface: Under Construction
Explanation:
Like the downtown area of your favorite city
and any self-respecting
web site ...
Io's surface is constantly under construction.
This
moon of Jupiter holds the
distinction of being
the Solar System's most volcanically active body --
its bizarre looking surface continuously
formed and reformed by lava flows.
Generated using 1996 data from NASA's Galileo spacecraft,
this
high resolution composite image
is centered on the side of Io that always faces away from Jupiter.
It has been enhanced to emphasize Io's surface brightness
and color variations, revealing features as small as 1.5 miles across.
The notable absence of
impact craters
suggests that the entire
surface is covered with new volcanic deposits much more rapidly
than craters are created.
What drives this volcanic powerhouse?
A likely energy source is the changing gravitational
tides caused by Jupiter and the other
Galilean moons as Io orbits the massive gas giant planet.
Heating Io's interior, the pumping tides would generate
the sulfurous volcanic activity.
APOD: 2013 February 25 - Fly Me to the Moons
Explanation:
Sometimes the Moon is a busy direction.
Last week, for example, our very
Moon passed in front of the planet Jupiter.
While capturing this unusual spectacle from
New South Wales,
Australia,
a quick-thinking astrophotographer realized that a nearby plane
might itself pass in front of the Moon,
and so quickly reset his camera to take a continuous series of short duration shots.
As hoped, for a brief instant, that
airplane, the Moon,
and Jupiter were all visible in a single exposure, which is
shown above.
But the project was not complete -- a longer exposure was then taken to bring up three of the Jupiter's own moons:
Io, Callisto, and Europa (from left to right).
Unfortunately, this triple spectacle soon disappeared.
Less than a second later, the
plane flew away from the Moon.
A few seconds after that,
the Moon moved to cover all of Jupiter.
A few minutes after that,
Jupiter reappeared on the other side of the Moon,
and even a few minutes after that the Moon moved completely away from Jupiter.
Although hard to catch,
planes cross in front of the Moon
quite frequently, but the
Moon won't eclipse Jupiter again for another three years.
APOD: 2013 February 15 - Shadows Across Jupiter
Explanation:
Two dark shadows loom across the banded and mottled
cloud tops of Jupiter in this
sharp telescopic view.
In fact, captured on January 3rd, about a month after the ruling gas giant
appeared at opposition in planet Earth's sky,
the scene includes the shadow casters.
Visible in remarkable
detail at the left are the large
Galilean moons Ganymede (top)
and Io.
With the two moon shadows still in transit, Jupiter's
rapid rotation has
almost carried its famous
Great Red Spot
(GRS) around the planet's limb from the right.
The pale GRS was preceded by the smaller but similar hued
Oval
BA, dubbed Red Spot Jr., near top center.
North is down in the
inverted image.
APOD: 2012 November 28 - Jupiter and Io
Explanation:
On December 3 (UT), Jupiter,
the
solar system's largest planet, will be at opposition,
opposite the Sun in planet Earth's sky,
shining brightly and rising as the Sun sets.
That
configuration results in Jupiter's almost annual
closest approach to planet Earth.
So, near opposition the gas giant offers earthbound telescopes
stunning views of its stormy, banded atmosphere and large
Galilean moons.
For example, this sharp series was recorded on the night of November
16/17 from the island of Sardinia near Dolianova, Italy.
North is up in the images that show off Jupiter's
famous Great Red Spot, and planet girdling
dark belts and light zones.
Also seen in transit is Jupiter's
volcanic moon Io, its
round, dark shadow tracking across the
Jovian cloud tops
as the sequence progresses left to right.
APOD: 2012 July 20 - Moon Meets Jupiter
Explanation:
Skygazers
around planet Earth enjoyed the close encounter of planets and
Moon in July 15's predawn skies.
And while many saw bright Jupiter next to the slender, waning crescent,
Europeans also had the
opportunity to watch the
ruling gas giant pass
behind the lunar disk, occulted by the Moon as it slid through the
night.
Clouds threaten in this telescopic view from Montecassiano, Italy, but
the frame still captures Jupiter after it emerged from the occultation
along with all four of its large Galilean moons.
The sunlit crescent is overexposed with the Moon's night side faintly
illuminated by Earthshine.
Lined up left to right beyond the dark lunar limb are Callisto,
Ganymede, Jupiter, Io, and Europa.
In fact,
Callisto, Ganymede, and Io are larger than Earth's Moon, while
Europa is only slightly smaller.
APOD: 2012 April 8 - Io: Moon Over Jupiter
Explanation:
How big is Jupiter's moon Io?
The most volcanic body in the Solar System,
Io (usually pronounced "EYE-oh") is
3,600 kilometers in diameter, about the size of
planet Earth's single large
natural satellite.
Gliding
past Jupiter
at the turn of the millennium, the Cassini spacecraft captured this
awe
inspiring view of active Io
with the
largest gas giant as a backdrop,
offering a stunning demonstration of the ruling planet's
relative size.
Although in the above picture Io appears
to be located just in front of the
swirling Jovian clouds,
Io hurtles around its orbit once every 42 hours
at a distance of 420,000 kilometers or so from the center
of Jupiter.
That puts
Io
nearly 350,000 kilometers above
Jupiter's cloud tops,
roughly equivalent to the distance between
Earth and Moon.
The
Cassini
spacecraft itself was about 10 million kilometers
from Jupiter when recording the image data.
APOD: 2012 March 2 - Jupiter Unplugged
Explanation:
Five hand drawn sketches of Jupiter were used to create this
beautifully detailed flat map of the ruling gas giant's
turbulent cloud tops.
Made with colored pencils at the eyepiece of a 16 inch diameter
telescope, the original drawings are about 5 inches (12.5 cm) in
diameter.
The drawn
planisphere
map dimensions are 16x8 inches (40x20 cm).
Observing on different dates in November and December of 2011,
astronomical artist Fred Burgeot has relied
on
Jupiter's rotation to
cover the planet's complete circumference.
Digital animator Pascal Chauvet has also translated Burgeot's drawings
into an intriguing video (vimeo),
synthesizing a telescopic view of the rotating planet
with a tilt and phase appropriate for the observing dates.
The video includes the Galilean moons
moving along their orbits,
beginning with Ganymede and Io casting shadows as they
glide in front of Jupiter, followed
by Europa and Callisto passing behind the planet's banded disk.
APOD: 2011 October 22 - Jupiter Near Opposition
Explanation:
On
October 29 (UT), Jupiter,
the
solar system's largest planet, will be at opposition,
opposite the Sun in planet Earth's sky,
shining brightly and rising as the Sun sets.
That
configuration results in Jupiter's almost annual
closest approach to planet Earth, so near opposition
the gas giant offers earthbound telescopes stunning views of its
stormy, banded atmosphere and large
Galilean moons.
This sharp snapshot of Jupiter was captured on October 13 with the
1 meter telescope
at the Pic Du Midi
mountain top observatory in the
French Pyrenees.
North is up in the image that shows off oval shaped vortices
and planet girdling
dark belts
and light zones.
Also seen in remarkable detail, Jupiter's
icy Ganymede,
the solar system's largest moon, is emerging from
behind the planet (top) while
volcanic Io
enters the frame near the lower left edge.
APOD: 2011 May 22 - Io: The Prometheus Plume
Explanation:
What's happening on Jupiter's moon Io?
Two sulfurous eruptions are visible on
Jupiter's volcanic moon Io in this color
composite image from the robotic
Galileo spacecraft that orbited Jupiter from 1995 to 2003.
At the image top, over
Io's limb,
a bluish plume rises about 140 kilometers above the surface of a
volcanic caldera known as
Pillan Patera.
In the image middle, near the night/day shadow line, the
ring shaped Prometheus plume is seen rising about 75 kilometers
above Io while
casting a shadow below the
volcanic vent.
Named for
the
Greek god who gave mortals
fire, the
Prometheus plume
is visible in every
image ever made of the region dating back to
the Voyager flybys
of 1979 - presenting the possibility that
this plume has been
continuously active for at least 18 years.
The above digitally
sharpened image of
Io was originally recorded in 1997
from a distance of about 600,000 kilometers.
Recent analyses of Galileo data has
uncovered evidence of a magma ocean
beneath Io's surface.
APOD: 2010 October 8 - Two Planet Opposition
Explanation:
In late September, two planets were
opposite the Sun in Earth's
sky, Jupiter and Uranus.
Consequently closest to Earth,
at a distance of only 33 light-minutes
and 2.65 light-hours respectively,
both were good targets for telescopic observers.
Recorded on September 27, this well-planned composite of
consecutive multiple exposures captured both gas giants
in their remarkable celestial line-up accompanied by their brighter
moons.
The faint greenish disk of distant planet Uranus is near the upper
left corner.
Of the tilted planet's 5
larger moons, two
can be spotted
just above and left of the planet's disk.
Both discovered by 18th century British astronomer Sir William Herschel
and later named for characters in Shakespeare's
A Midsummer Night's Dream,
Oberon
is farthest left, with Titania
closer in.
At the right side of the frame is ruling gas giant Jupiter, flanked
along a line by all four of its
Galilean satellites.
Farthest from Jupiter is
Callisto, with
Europa and
Io all left of the planet's disk, while
Ganymede
stands alone at the right.
APOD: 2010 October 3 - Io in True Color
Explanation:
The strangest moon in the
Solar System is bright yellow.
This
picture,
an attempt to show how Io would appear in the "true colors" perceptible to the average human eye, was taken in 1999 July by the
Galileo spacecraft that orbited Jupiter from 1995 to 2003.
Io's colors derive from
sulfur and molten
silicate rock.
The unusual surface of Io
is kept very young by its system of
active volcanoes.
The intense
tidal gravity of
Jupiter stretches
Io and damps wobbles caused by Jupiter's other
Galilean moons.
The resulting
friction greatly heats
Io's interior, causing
molten rock to explode through the surface.
Io's volcanoes
are so active that they are effectively turning the
whole moon inside out.
Some of
Io's volcanic lava is so hot it
glows in the dark.
APOD: 2008 August 17 - Io's Surface: Under Construction
Explanation:
Like the downtown area of your favorite city,
the roads you drive to work on, and any self-respecting
web site ...
Io's surface is constantly under construction.
This
moon of Jupiter holds the
distinction of being
the Solar System's most volcanically active body --
its bizarre looking surface continuously
formed and reformed by lava flows.
Generated using 1996 data from NASA's Galileo spacecraft,
this
high resolution composite image
is centered on the side of Io that always faces away from Jupiter.
It has been enhanced to emphasize Io's surface brightness
and color variations,
revealing features as small as 1.5 miles across.
The notable absence of
impact craters
suggests that the entire
surface is covered with new volcanic deposits much more rapidly
than craters are created.
What drives this volcanic powerhouse?
A likely energy source is the changing gravitational
tides caused by Jupiter and the other
Galilean moons as Io orbits the massive gas giant planet.
Heating Io's interior, the pumping tides would generate
the sulfurous volcanic activity.
APOD: 2008 January 8 - A Jupiter-Io Montage from New Horizons
Explanation:
As the New Horizons spacecraft sweeps through the Solar System,
it is taking breathtaking images of the planets.
In February of last year,
New Horizons
passed Jupiter and the ever-active Jovian moon
Io.
In this
montage, Jupiter was captured in three bands of
infrared light making
the Great Red Spot look white.
Complex
hurricane-like ovals, swirls, and
planet-ringing bands are visible in
Jupiter's complex atmosphere.
Io is
digitally
superposed in natural color.
Fortuitously, a plume was emanating from
Io's volcano
Tvashtar.
Frost and sulfuric lava cover the volcanic moon, while
red-glowing lava
is visible beneath the
blue sunlight-scattering plume.
The robotic
New Horizons spacecraft
is on track to arrive at
Pluto in 2015.
APOD: 2007 May 7 - Europa Rising
Explanation:
When passing Jupiter on your way to Pluto, what should you look for?
NASA pondered just this question recently,
and the response from one space enthusiast was to capture the
above breathtaking moonrise.
The unusual vista was then actually captured by the
New Horizons spacecraft
in February just after it buzzed past
Jupiter on its way to
Pluto and the outer
Solar System.
Visible above is the
cracked surface of Europa's expansive ice fields,
visible just behind a jumble of
Jupiter's swirling clouds.
Europa is one of the largest moons of
Jupiter and a possible host to sub-surface
liquid oceans that are real candidates for containing
extra-terrestrial life.
During the Jupiter flyby,
New Horizons
also carried out scientific observations of
Jupiter's cloud tops and comparative images of Io's volcanoes and its
continually changing surface.
APOD: 2007 April 4 - New Horizons at Io
Explanation:
Spewed from
a volcano,
a complex plume rises over
300 kilometers above the horizon of Jupiter's moon Io
in this image from cameras onboard the
New Horizons
spacecraft.
The volcano,
Tvashtar, is marked by the bright
glow (about 1 o'clock)
at the moon's edge, beyond the terminator or night/day shadow line.
The shadow of Io cuts across the plume itself.
Also capturing stunning details on the dayside surface, the
high resolution image was recorded when the
spacecraft was 2.3 million kilometers from Io.
Later it was combined with lower resolution
color data
by astro-imager Sean Walker to produce this
sharp portrait of the solar system's
most active moon.
Outward bound at almost 23 kilometers per second,
the New Horizons spacecraft should cross the orbit of Saturn in
June next year, and is ultimately
destined to encounter
Pluto in 2015.
APOD: 2007 March 29 - Jupiter Moon Movie
Explanation:
South is toward the top in this frame from a stunning movie featuring
Jupiter and moons recorded last Thursday from the Central Coast
of New South Wales, Australia.
In fact, three jovian moons and
two red spots are ultimately seen in the full video as
they glide around
the solar system's ruling gas giant.
In the early frame above,
Ganymede,
the largest moon in the solar system, is
off the lower right limb of the planet, while intriguing
Europa
is visible against
Jupiter's cloud tops, also near the lower right.
Jupiter's new red spot junior
is just above the broad white band
in the planet's southern (upper) hemisphere.
In later frames, as planet and moons rotate (right to left), red spot junior
moves behind Jupiter's left edge while the
Great Red Spot
itself comes into view from the right.
Also finally erupting into view at the right, is Jupiter's
volcanic moon, Io.
To download the full 2 megabyte movie as an animated gif file, click
on the picture.
APOD: 2007 February 11 - Io: The Prometheus Plume
Explanation:
What's happening on Jupiter's moon Io?
Two sulfurous eruptions are visible on
Jupiter's volcanic moon Io in this color
composite image from the robotic
Galileo spacecraft that orbited Jupiter from 1995 to 2003.
At the image top, over
Io's limb,
a bluish plume rises about 140 kilometers above the surface of a
volcanic caldera known as
Pillan Patera.
In the image middle, near the night/day shadow line, the
ring shaped Prometheus plume is seen rising about 75 kilometers
above Io while
casting a shadow below the
volcanic vent.
Named for
the
Greek god who gave mortals
fire, the
Prometheus plume
is visible in every image ever made of the region dating back to
the Voyager flybys
of 1979 - presenting the possibility that
this plume has been
continuously active for at least 18 years.
The above digitally
sharpened image was originally recorded in 1997 on June 28
from a distance of about 600,000 kilometers.
APOD: 2004 November 24 - A Radar View of Titan
Explanation:
Where are Titan's craters?
Throughout our Solar System's five billion-year history,
dangerous rocks and
chunks of ice have
continually slammed into planets and moons -
usually creating numerous long lasting
impact craters.
When the robot spacecraft Cassini swooped past
Saturn's moon
Titan
last month, however,
radar images showed few craters.
One such image, spanning 75 kilometers across, is
shown above.
The imaged structures are not yet understood, but may involve some sort of
flows.
Titan is already known to be an unusual moon, sporting a
thick atmosphere, large size,
small amounts of
organic compounds.
Craters are surely created on all surfaces in the Solar System,
but might be destroyed later, as on
Earth and Jupiter's moon
Io.
How craters
are destroyed on Titan remains a topic of speculation,
but might become better understood by consideration of data returned by
future flybys of Cassini and by the
probe Huygens that will descend toward
Titan's surface in December.
APOD: 2004 November 11 - Pastel Planet, Triple Eclipse
Explanation:
This false-color
image of banded gas giant Jupiter
shows a triple eclipse in progress on March 28 - a relatively
rare
event, even for a large planet with many moons.
Captured by the Hubble Space Telescope's near-infrared camera are
shadows of
Jupiter's moons Ganymede (left edge), Callisto (right
edge) and Io, three black spots crossing the sunlit Jovian cloud tops.
In fact, Io itself is
visible as a white spot
near picture center with a bluish Ganymede above and to the right,
but Callisto is off the right hand edge of the scene.
Viewed from Jupiter's perspective, these
shadow crossings would be
seen as solar eclipses, analogous to the
Moon's shadow crossing
the sunlit face of planet Earth.
Historically,
timing the eclipses of Jupiter's moons allowed
astronomer Ole Roemer
to make the first accurate
measurement of
the speed of light in 1676.
APOD: 2004 May 2 - Io in True Color
Explanation:
The strangest moon in the
Solar System is bright yellow.
This
picture, showing Io's true colors, was taken in 1999 July by the
Galileo spacecraft that orbited Jupiter from 1995 to 2003.
Io's colors derive from
sulfur
and molten silicate rock.
The unusual
surface of Io
is kept very young by its system of
active volcanoes.
The intense
tidal gravity of
Jupiter stretches
Io and
damps wobbles caused by Jupiter's other
Galilean moons.
The resulting
friction greatly heats
Io's interior, causing
molten rock to explode through the surface.
Io's volcanoes
are so active that they are effectively turning the
whole moon inside out.
Some of
Io's volcanic lava is so hot it
glows in the dark.
APOD: 2003 September 6 - Jupiter Unpeeled
Explanation:
Slice
Jupiter
from pole to pole, peel back its outer layers
of clouds,
stretch them onto a flat surface ... and for all your
trouble you'd end up with something that looks a lot like this.
Scrolling right will reveal the full picture,
a color mosaic of
Jupiter
from the Cassini spacecraft.
The mosaic is actually a single frame from a fourteen frame
movie constructed from image data recorded by Cassini
during its
leisurely
flyby of the solar system's largest
planet in late 2000.
The
engaging movie approximates
Jupiter's cloud motions over 24 jovian rotations.
To make it, a series of observations covering
Jupiter's complete circumference
60 degrees north and south
of the equator were combined in an animated
cylindrical
projection map of the planet.
As in the familiar rectangular-shaped wall maps of the
Earth's surface, the
relative sizes and shapes of features are
correct near the equator but become progressively more distorted
approaching the polar regions.
In the Cassini movie, which also features guest appearances
by moons Io and
Europa, the smallest cloud structures
visible at the equator are about 600 kilometers across.
APOD: 2003 February 27 - When Moons and Shadows Dance
Explanation:
It's no wonder Jupiter is a favorite
target
for even modest earthbound telescopes.
The most massive planet
in the solar system with
four of the largest moons also boasts the famous
Great Red Spot,
a giant hurricane-like storm system over three hundred years old.
Recorded on December 15, 2002 between 7:19 and 8:40 UT,
over a thousand digital images were processed and stacked to
create this spectacular 21 frame animation of the
Jovian system.
South is up and as the Great Red Spot tracks across the face of Jupiter,
innermost Galilean
moon Io enters the scene at the far right.
Io occults (passes in front of) the edge of the more
sedately orbiting Ganymede with
Io's shadow moving quickly across the gas giant's
cloud tops, just below the Red Spot.
While the moon Callisto is outside the field of view, its large,
dark shadow is also
visible crossing the Jovian disk at the upper left.
Viewed from Earth, the orbits of the Galilean moons presently
lie nearly edge-on, offering many chances to observe similar
dances of Jupiter's moons.
APOD: 2003 January 20 - Io at Sunset
Explanation:
How tall are mountains on
Jupiter's moon
Io?
One way to find out is to view them at
sunset.
Tall structures facing the
Sun
are then better-lit and cast long
shadows.
The above image highlights
Mongibello Mons on the far left, a sharp ridge rising
so high it would rank among the
highest mountains on
Earth.
The violently
changing surface of
Io shows not only classic volcano
cinder cones but also many
thrust faults where the ground has fractured and created
dramatic shear cliffs.
The grayscale image was taken two years ago by the
robot spacecraft Galileo currently orbiting
Jupiter.
APOD: 2002 December 18 - Io Volcano Culann Patera
Explanation:
What causes the unusual colors surrounding Io's volcanoes?
Io,
the innermost
large moon of
Jupiter, is known to be the most
tumultuous body in the
Solar System.
Approximately the size of
Earth's Moon, Io undergoes nearly
continuous volcanic eruptions
from an interior heated by
gravitational tides from Jupiter and Jupiter's other large moons.
The robot spacecraft Galileo currently orbiting Jupiter
has been monitoring the active volcano Culann Patera over the past few years.
The above images indicate that the
volcano
has produced not only red and black colored
lava flows, but yellow
sulfur patches from explosive plumes.
Green colors may arise when these processes affect the same terrain.
White patches may be caused, in part, by
sulfur dioxide
snow.
As Galileo has fulfilled its
mission objectives and is running low on maneuvering fuel, NASA plans to
crash the spacecraft into Jupiter during 2003.
APOD: 2002 December 7 - Jupiter, Io, and Shadow
Explanation:
Pictured above is the innermost of
Jupiter's Galilean satellites, Io,
superposed in front of the gas giant planet.
To the left of
Io
is a dark spot that is Io's own shadow.
A solar eclipse
would be seen from within the shadow spot on Jupiter.
Viewed from
planet Earth, similar shadows of Jupiter's large moons
can often be seen crossing
the giant planet's disk.
But during the next several months, the Galilean moons can also be seen
crossing in front
of each other as, for a while, their
orbits lie nearly edge-on
when viewed
by earthbound observers.
This true-color contrast-enhanced image
was
taken two years ago by the robot
spacecraft Cassini, as it passed Jupiter
on its way to Saturn in 2004.
APOD: 2002 October 19 - Io's Surface: Under Construction
Explanation:
Like the downtown area of your favorite city,
the roads you drive to work on, and any self-respecting
web site ...
Io's surface is constantly under construction.
This
moon of Jupiter holds the
distinction of being
the Solar System's most volcanically active body --
its bizarre looking surface
continuously
formed and reformed by lava flows.
Generated using 1996 data from NASA's Galileo spacecraft,
this
high resolution composite image of Io
is centered on the side of Io that always faces away from Jupiter.
It has been enhanced to emphasize Io's surface brightness
and color variations,
revealing features as small as 1.5 miles across.
The notable absence of
impact craters
suggests that the entire
surface is covered with new volcanic deposits much more rapidly
than craters are created.
What drives this volcanic powerhouse?
A likely energy source is the changing gravitational
tides caused by Jupiter and the other
Galilean moons as Io orbits the massive gas giant planet.
Heating Io's interior, the pumping tides would generate
the sulfurous
volcanic activity.
APOD: 2002 July 6 - Io: Moon Over Jupiter
Explanation:
How big is the Jovian moon Io?
The most volcanic body in the Solar System,
Io (usually pronounced "EYE-oh") is
3,600 kilometers in diameter, about the size of
planet Earth's single large
natural satellite.
Gliding
past Jupiter
at the turn of the millennium, the Cassini spacecraft captured this
awe
inspiring view of
active Io
with the
largest gas giant as a backdrop,
offering a stunning demonstration of the ruling planet's
relative size.
Although in the picture Io appears
to be located just in front of the
swirling Jovian clouds, Io hurtles around its orbit once every 42 hours
at a distance of 420,000 kilometers or so from the center
of Jupiter.
That puts it nearly 350,000 kilometers above
Jupiter's cloud tops,
roughly equivalent to the distance between
Earth and Moon.
The
Cassini
spacecraft itself was about 10 million kilometers
from Jupiter when recording the image data.
APOD: 2002 June 22 - Io: The Prometheus Plume
Explanation:
Two sulfurous eruptions are visible on
Jupiter's volcanic moon Io in this color
composite Galileo image.
On the left, over Io's limb, a new bluish plume rises about 86 miles
above the surface of a
volcanic caldera known as Pillan Patera.
In the middle of the image, near the night/day shadow line, the
ring shaped Prometheus plume is seen rising 45 miles
above Io while
casting a shadow to the right of the
volcanic vent.
Named for
the
Greek god who gave mortals fire, the
Prometheus plume is visible in every
image ever
made of the region dating back to
the Voyager flybys
of 1979 - presenting the possibility that
this
plume has been continuously active for at least 18 years.
This image was recorded in 1997 on June 28 at a distance of 372,000 miles.
APOD: 2002 March 27 - Looking Into an Io Volcano
Explanation:
What would it look like to peer into one of the
volcanoes currently active on
Jupiter's moon
Io?
The caldera of Tupan Patera, named after a
Brazilian thunder god,
reveals itself to be a strange and dangerous place,
replete with hot black
lava, warm red
sulfur deposits likely deposited from vented gas, and
hilly yellow terrain also high in sulfur.
The robot spacecraft Galileo
currently orbiting Jupiter provided the
above vista late last year when it swooped by the active world.
Tupan Patera is actually a
volcanic depression,
surrounded by cliffs nearly a kilometer high.
The width of the depression is about 75 kilometers.
As Galileo has filled its mission objectives and is running low on
maneuvering fuel,
NASA plans to crash the spacecraft into
Jupiter
during 2003.
APOD: 2002 March 1 - Jupiter's Great X Ray Spot
Explanation:
The Solar System's largest planet,
gas
giant Jupiter, is famous
for its swirling
Great Red Spot.
In the right hand panel above, the familiar giant planet with
storm system and
cloud bands is shown in an
optical image from the passing
Cassini spacecraft.
In the left hand panel, a false-color image from the
orbiting
Chandra
Observatory presents a corresponding x-ray view of Jupiter.
The Chandra image
shows clearly, for the first time, x-ray spots and
auroral x-ray emission
from the poles.
The x-ray spot dominating the emission from Jupiter's
north pole (top)
is perhaps as surprising for astronomers today as the Great Red Spot
once
was.
Confounding previous theories,
the x-ray spot is too far north to be
associated with heavy electrically charged particles
from
the vicinity of volcanic moon Io.
Chandra data also show that the spot's
x-ray
emission mysteriously pulsates over a period of about 45 minutes.
APOD: 2002 January 20 - Callisto Full Face
Explanation:
Callisto's surface shows its age.
While probably formed at the same time as
Io, the difference between the
surfaces of these two moons of
Jupiter could hardly be greater.
Io's surface is young,
shows practically no impact craters,
and is continually being repaved by the
lava exploding from its many
large volcanoes.
Callisto's surface is old, shows the highest density of
impact craters in the
Solar System, and harbors no
volcanoes or even any large mountains.
Callisto's surface
is one large ice-field, laced with
cracks and
craters
from billions of years of collisions with
interplanetary debris.
The above image was taken in 2001 May and is, so far,
the only complete global color image taken by the Jupiter-orbiting
Galileo spacecraft.
APOD: 2001 October 22 - The First Rocket Launch from Cape Canaveral
Explanation:
A new chapter in space flight began on 1950 July with the
launch of the first rocket from
Cape Canaveral,
Florida: the Bumper 2.
Shown above, the
Bumper 2 was an ambitious two-stage
rocket program that topped a
V-2 missile base with a
WAC Corporal rocket.
The upper stage was able to reach then-record altitudes of almost 400 kilometers, higher than even modern
Space Shuttles fly today.
Launched
under the direction of the
General Electric Company,
the Bumper 2 was used primarily for
testing rocket systems and for research on the
upper atmosphere.
Bumper 2 rockets carried small payloads that
allowed them to measure attributes including air temperature and
cosmic ray impacts.
Seven years later, the Soviet Union launched
Sputnik I and Sputnik II, the first
satellites into Earth orbit.
In response, in 1958, the
US created NASA.
APOD: 2001 October 16 - A Newly Active Volcano On Jupiters Io
Explanation:
Would a volcano plume discovered in January
above Jupiter's Moon Io still be active months later?
To answer this question, the
robot spacecraft Galileo currently in orbit around
Jupiter was maneuvered to image the
plume site during its recent flyby of
Io in August.
What was found was the
highest volcano plume yet discovered
-- but above a completely different and
previously undocumented volcano!
The original plume, above the Tvashtar Catena volcanic area,
was not even visible.
A picture taken in January
of the area surrounding the
Tvashtar Catena eruption is shown above in enhanced color, with a
new picture taken in August shown in the inset.
Careful inspection of the two images will show a newly prominent
dark volcano
surrounded by a light-colored ring visible only in the
smaller, more recent image.
APOD: 2001 July 15 - Io in True Color
Explanation:
The strangest moon in the
Solar System is bright yellow.
This
picture, showing Io's true colors, was taken in 1999 July by the
Galileo spacecraft currently orbiting Jupiter.
Io's colors derive from
sulfur
and molten silicate rock.
The unusual
surface of Io
is kept very young by its system of
active volcanoes.
The intense
tidal gravity of
Jupiter stretches
Io and
damps wobbles caused by Jupiter's other
Galilean moons.
The resulting
friction greatly heats
Io's interior, causing
molten rock to explode through the surface.
Io's volcanoes
are so active that they are effectively turning the
whole moon inside out.
Some of
Io's volcanic lava is so hot it
glows in the dark.
APOD: 2001 April 20 - Io: Moon Over Jupiter
Explanation:
How big is the Jovian moon Io?
The most volcanic body in the Solar System,
Io (usually pronounced "EYE-oh") is
3,600 kilometers in diameter, about the size of
planet Earth's single large
natural satellite.
Gliding
past Jupiter
at the turn of the millennium, the Cassini spacecraft captured this
awe
inspiring view of
active Io
with the
largest gas giant as a backdrop,
offering a stunning demonstration of the ruling planet's
relative size.
Although in the picture Io appears
to be located just in front of the
swirling Jovian clouds, Io hurtles around its orbit once every 42 hours
at a distance of 420,000 kilometers or so from the center
of Jupiter.
That puts it nearly 350,000 kilometers above
Jupiter's cloud tops,
roughly equivalent to the distance between
Earth and Moon.
The
Cassini
spacecraft itself was about 10 million kilometers
from Jupiter when recording the image data.
APOD: 2001 February 15 - Jupiter Unpeeled
Explanation:
Slice
Jupiter
from pole to pole, peel back its outer layers
of clouds,
stretch them onto a flat surface ... and for all your
trouble you'd end up with something that looks a lot like this.
Scrolling right will reveal the full picture,
a color mosaic of
Jupiter
from the Cassini spacecraft.
The mosaic is actually a single frame from a fourteen frame
movie constructed from image data recorded by Cassini
during its
leisurely
flyby of the solar system's largest
planet late last year.
The engaging movie approximates
Jupiter's cloud motions over 24 jovian rotations.
To make it, a series of observations covering
Jupiter's complete circumference
60 degrees north and south
of the equator were combined in an animated
cylindrical
projection map of the planet.
As in the familiar rectangular-shaped wall maps of the
Earth's surface, the
relative sizes and shapes of features are
correct near the equator but become progressively more distorted
approaching the polar regions.
In the Cassini movie, which also features guest appearances
by moons Io and
Europa, the smallest cloud structures
visible at the equator are about 600 kilometers across.
(Note: Downloading a large
gif or
quicktime version of
the movie may take 15 minutes or longer.)
APOD: 2001 January 16 - Europa Rotating
Explanation:
Evidence has been mounting that beneath the
vast planes of ice that cover
Europa lies water --
liquid oceans that might be home to
alien life.
The smallest of
Jupiter's
Galilean Moons
(which include
Io,
Ganymede, and
Callisto), Europa's deep interior is composed of mostly of
silicate rock.
Upon close inspection, many
surface cracks
stop abruptly only to continue on somewhere else -- indicating
surface plates that might be sliding.
The
above time-lapse sequence is a composite of images
taken during the
Voyager spacecraft flyby of the moon twenty years ago.
Not all regions are resolved in high detail.
The movie shows
Europa during a complete rotation,
which corresponds to a complete revolution around
Jupiter since
Europa always keeps the same face toward the giant planet.
The cause of many of the surface colors on
Europa also remains a
topic of research.
APOD: 2001 January 2 - Jupiter, Europa, and Callisto
Explanation:
As the
robot Cassini spacecraft rounds
Jupiter on its way toward
Saturn, it has taken a
sequence of images
of the gas giant with its
four largest moons.
Previously released images have highlighted
Ganymede and
Io.
Pictured above are the two remaining
Galilean satellites:
Europa and
Callisto.
Europa is the bright moon superposed near
Jupiter's Great Red Spot,
while Callisto is the dark moon near the frame edge.
Callisto is so dark that it would be hard to see
here if its brightness was not digitally enhanced.
Recent evidence indicates that both moons hold salt-water seas under surface ice that might be home to extra-terrestrial life.
By noting the times that moons disappeared and
reappeared behind Jupiter in 1676,
Ole Roemer was able to make the
first accurate estimation of the speed of light.
APOD: 2000 December 26 - Jupiter, Io, and Shadow
Explanation:
Just as planets orbit our Sun,
Jupiter's Moons orbit Jupiter.
Pictured above is the closest of
Jupiter's Galilean Satellites,
Io, superposed in front of the giant planet it circles.
To the left of
Io is a dark spot that is its own shadow.
The tremendous complexities that can be seen in
Jupiter's banded, swirling atmosphere
are being studied and may provide insight as to how
Earth's atmosphere behaves.
The
above true-color contrast-enhanced image was
taken two weeks ago by the
robot spacecraft Cassini, currently passing
Jupiter and on its way to
Saturn in 2004.
Engineers
continue to study the
Cassini spacecraft itself to understand why it
required more force than normal to turn one of its maneuvering wheels.
APOD: 2000 December 19 - A Close Up of Aurora on Jupiter
Explanation:
Jupiter has
aurorae.
Like Earth, the
magnetic field of the gas giant funnels
charged particles released from the Sun
onto the poles.
As these particles strike the atmosphere,
electrons are temporarily knocked away from existing gas
molecules.
Electric force attracts these electrons back.
As the
electrons recombine to remake neutral molecules,
auroral light is emitted.
In the
above recently released photograph by the
Hubble Space Telescope taken in
ultraviolet light, the
aurorae
appear as annular sheets around the pole.
Unlike
Earth's aurorae,
Jupiter's aurorae include
several bright streaks and dots.
These marks are caused by magnetic flux tubes connecting
Jupiter to its
largest moons.
Specifically,
Io
caused the bright streak on the far left,
Ganymede
caused the bright dot below center, and
Europa caused the dot to its right.
APOD: 2000 November 18 - Jupiter And Family
Explanation:
This composite image features classic portraits of members of one of
the Solar System's
most prominent families -
Jupiter and its four large
"Galilean" moons.
Starting from the top the moons are
Io,
Europa,
Ganymede, and
Callisto.
The top-to-bottom order is also the order of increasing distance from
Jupiter.
These are big moons indeed which attend
the largest planet.
The smallest of the lot, Europa, is the size of
Earth's moon while
Ganymede is the largest moon in the Solar System.
In fact, Ganymede with a diameter of 3,100 miles, is larger
than the planets Mercury and
Pluto.
The swirling
Great Red Spot appears at the edge of Jupiter.
A hurricane-like storm system that has persisted for over 300 years,
two to three earths could fit inside it.
Battered Callisto's
image was recorded during the 1979 flyby
of Voyager.
The other portraits were taken by
the
Galileo spacecraft which began
exploring the Jovian system in 1995.
APOD: 2000 October 24 - Io Rotating
Explanation:
The surface of Io is continually changing.
Jupiter's moon
is the home to many powerful
volcanoes so active
they are effectively turning the moon inside out.
The above time-lapse sequence is a composite of images
taken during two space missions that approached the violent moon:
Voyager and
Galileo.
The sequence shows
Io during a complete rotation,
which corresponds to a complete revolution around
Jupiter since
Io always keeps the same face toward the giant planet.
The rampant volcanism is thought to be caused by
Jupiter's more distant
Galilean Moons
(Europa,
Ganymede, and
Callisto) pulling on Io and continually distorting its shape,
causing internal
frictional heating.
Io is composed mostly of rock, with the yellow color originating from
sulfur.
The causes of many of the other colors remain a
topic of research.
APOD: 2000 September 26 - Approaching Jupiter
Explanation:
In 1979 the
Voyager 1 spacecraft compiled this view as it
approached the gas giant
Jupiter.
Snapping a picture every time the
Great Red Spot
was properly aligned, the above time-lapse sequence shows not only
spot
rotation but also the swirling of neighboring
clouds.
Since Jupiter takes about 10 hours to rotate,
this short sequence actually covers several days.
Voyager 1 shot past
Jupiter rapidly taking
pictures on which
many discoveries would be made,
including previously unknown
cloud patterns,
rings,
moons, and
active volcanoes on Jupiter's moon
Io.
Voyager is moving so fast that it will one day
leave our
Solar System.
APOD: 2000 June 7 - Up Close to Jupiter's Moon Io
Explanation:
Above is the
highest resolution photograph yet taken of the
Solar System's strangest moon.
The surface of
Jupiter's moon
Io is home to
violent volcanoes
that are so active they turn the entire moon inside out.
The
above photograph shows a region four kilometers across and
resolves features only five
meters across.
Many revealed details are not well understood.
In general, the bright areas are higher terrain
than the darker areas, but some areas of the surface appear eroded by an unknown process.
Although the parts of
Io's surface
near erupting volcanoes are hot enough to melt rock, most of
Io has cooled well
below the freezing point of water.
The
robot spacecraft Galileo during its most
recent flyby of
Io took the above image in 2000 February.
APOD: 2000 June 6 - A Continuous Eruption on Jupiter's Moon Io
Explanation:
A volcano on Jupiter's moon
Io has been photographed recently during an ongoing eruption.
Hot glowing lava is visible on the left on this representative-color image.
A glowing landscape of plateaus and valleys covered in
sulfur and
silicate rock surrounds the active volcano.
Many features including several of the
dark spots have
evolved between February 2000, when the
robot spacecraft Galileo currently orbiting
Jupiter took this picture, and November 1999.
Io is slightly larger than
Earth's Moon and is the
closest large moon to
Jupiter.
The above image shows a region about 250 kilometers across.
How the
internal structure of Io creates these
active volcanoes
remains under investigation.
APOD: 2000 May 8 - Jupiters Moons Thebe, Amalthea, and Metis
Explanation:
The robot
spacecraft Galileo in orbit around
Jupiter has recently photographed the
inner moons of Jupiter in greater detail than ever before.
These pictures of
Thebe,
Amalthea,
and
Metis
are shown to scale, and reveal details as
small as three kilometers across.
Amalthea, by contrast, has a
total length of about 200 kilometers.
The
moons are composed
mostly of ice, are much smaller than Jupiter's
more famous
Galilean satellites
(Io,
Europa,
Ganymede, and
Callisto), and orbit between Io and
Jupiter's rings.
Thebe appears dominated by a huge
impact crater
40 kilometers across.
Astronomers are uncertain of the
origin of the unusual white gash at the bottom of
Amalthea.
APOD: 2000 April 27 - Calderas And Cliffs Near Io's South Pole
Explanation:
Braving intense
radiation
belts,
the Galileo spacecraft
once again flew past the surface of Jupiter's
moon Io (sounds like
EYE-oh)
on February 22.
Combining high resolution black and white images from that
flyby with color data recorded last summer has resulted in
this dramatic view
of a region near the volcanic moon's south pole.
An active and alien landscape, the bright white areas are
likely due to sulfur dioxide frost and seem to be
concentrated near ridges and cliffs.
The three ominous black spots, each about 6-12 miles across, are
volcanic craters or
calderas covered with recent dark lava.
A sinuous channel
connects the lower left caldera with a yellowish lava flow.
Io is small, but its
continuous activity is driven by the
drastic
tides
induced by
Jupiter and the other Jovian moons.
It is estimated that the resulting
volcanism completely
resurfaces Io every million years.
APOD: 2000 March 7 - Zal Patera on Jupiter's Moon Io
Explanation:
The
Galileo orbiter's flyby of
Io last November captured an unusual part of
Jupiter's volcanic moon.
From 26,000 kilometers away, Zal
Patera was found to be a cauldron of
flowing lava,
gaseous vents, and
tremendous peaks.
Red lava can be seen in the
above picture erupting along the base of the volcanic caldera,
while cooling black lava lines the edge of a volcanic plateau.
Shadow lengths indicate that the top of Zal
Patera towers nearly 5 kilometers over
Io's molten surface.
Galileo zoomed past Io again last month,
and has begun beaming back images taken only
200 kilometers over
Io's surface.
APOD: December 20, 1999 - Lava Fountain on Jupiter's Io
Explanation:
A lava fountain shooting over a kilometer high has been
discovered on
Jupiter's moon
Io.
The robot Galileo spacecraft orbiting
Jupiter photographed the volcanic eruption during its
close flyby of the moon late last month.
The fountain is visible in the
above mosaic of images from the
flyby.
The lava
plume was so bright it
saturated Galileo's camera, and so has been
digitally reconstructed in false color.
The hot lava appears to be shooting from a 20-kilometer long canyon on
Io's active surface.
APOD: November 26, 1999 - Io Volcano: Pele's Hot Lava
Explanation:
Glowing hot lava from the heart of Io's volcano Pele
is visible in this false-color
infrared composite image.
It was recorded last month during the Galileo spacecraft's
close flyby of the Jovian moon.
Pele is near the middle of the large 1,300 kilometer diameter
ring of yellowish
sulfurous material deposited by its frequent
volcanic plumes.
The dull dark red spot
on Pele itself corresponds to hot lava in
the volcano's eruptive center.
Temperatures up to 1,027 degrees
Celsius
(1,880 degrees Fahrenheit)
have been previously measured for the lava.
Galileo's close
October Io flyby has revealed that
the most volcanic body in the solar system is
even more active than previously suspected, with more than 100
erupting volcanos.
Yesterday, the spacecraft was
scheduled to perform an even closer
flyby of Io approaching to within 300 kilometers.
APOD: September 20, 1999 - Io in True Color
Explanation:
The strangest moon in the
Solar System is bright yellow.
This recently
released picture, showing Io's true colors, was taken in July
by the
Galileo spacecraft currently orbiting Jupiter.
Io's colors derive from
sulfur
and molten silicate rock.
The unusual
surface of Io
is kept very young by its system of
active volcanoes.
The intense
tidal gravity of
Jupiter stretches
Io and
damps wobbles caused by Jupiter's other
Galilean moons.
The resulting
friction greatly heats
Io's interior,
causing molten rock to explode through the surface.
Io's volcanoes
are so active that they are effectively turning the
whole moon inside out. Some of
Io's volcanic lava is so hot it
glows in the dark.
APOD: April 23, 1999 - Io Shadow
Explanation:
Orbiting Jupiter once every 43 hours, the
volcanic moon Io cruises
500,000 kilometers above swirling, banded cloud-tops.
Orbiting Earth once every 1.5 hours,
the Hubble Space Telescope watched as Io accompanied
by its shadow crossed the face of the
reigning gas giant planet in 1997.
This and other sharp false-color images have recently
been chosen
to celebrate
the ninth anniversary of
the Hubble's launch (April 24, 1990).
Reflective patches of sulfur dioxide "frost"
are visible on Io's surface while Io's round dark shadow is seen passing
over brownish white regions of Jupiter's high altitude haze and clouds.
In October and November of this year, the Galileo spacecraft
currently operating in the Jovian system
is scheduled to make two daring
close approaches to Io,
possibly flying through a
volcanic plume.
APOD: March 11, 1999 - 5 Million Miles From Io
Explanation:
Twenty years ago this month, NASA's
Voyager 1 spacecraft flew past Jupiter and its moons.
This sharp picture
of moon Io against a background of
gas giant Jupiter's diffuse swirling cloud bands was
recorded by Voyager's camera
from a distance
of about 5 million miles.
Even this early image shows curious round features on Io's surface with
dark centers and bright rims more than 40 miles across.
Now known to be
volcanic in origin,
these features were then thought likely to be impact craters,
commonly seen on rocky bodies throughout
the Solar System.
But as
Voyager continued to approach Io, close-up pictures
revealed a bizarre world devoid of impact craters,
frequently resurfaced by volcanic activity.
In fact,
Io's volcanism is so intense that subsequent Voyager images produced
an astounding discovery -
the first observed
extraterrestrial volcanic eruptions.
APOD: October 16, 1998 - Io Aurora
Explanation:
Alluring
aurora surrounding Io
(eye-oh) appear as a ghostly glow while
the volcanic moon orbits
within Jupiter's dark shadow.
Gas giant Jupiter is off to the right of this image, recorded in May
by the robot Galileo spacecraft's
solid state imaging camera
from a distance of about 1.3 million kilometers.
Energetic charged particles colliding with Io's atmospheric gases create
the vivid colors and produce the red and green glow analogous to
the aurora of Earth.
The striking blue light is caused by
dense volcanic plumes and may
indicate regions electrically connected
to Jupiter itself.
APOD: July 6, 1998 - Sizzling Io
Explanation:
What's cooking on Io? This active moon of
Jupiter is marked with
volcanoes spewing lava that is now known to be hotter than any
lava on Earth.
Above is the highest resolution
color-enhanced image yet composed of the
most active surface in our
Solar System.
Features as small as three kilometers are visible.
Sulfur compounds cause many of
Io's
unusual colors, while darker regions are probably composed of
silicate rock.
APOD: May 13, 1998 - Occultations and Rising Moons
Explanation:
On April 23, the rising crescent Moon
occulted (passed in front of) Venus and Jupiter.
The double occultation was a rare event
and only visible from certain
locations tracing a path across Earth's surface.
This dramatic telephoto picture was
taken at one such location,
Ascension Island in the South Atlantic.
The sunlit crescent is over-exposed revealing the rest of the lunar surface
illuminated by faint earthshine.
Venus is emerging just beyond the crescent's tip
and Jupiter is trailing above the dark lunar edge with a spot of light,
Jupiter's moon Ganymede, between the lunar limb and the planet's disk.
Look closely at Jupiter and you can see yet another
Jovian moon,
Io, just visible against Jupiter's glare!
APOD: February 2, 1998 - A Triple Eclipse on Jupiter
Explanation:
Part of Jupiter is missing.
Actually, three parts appear to be missing.
In reality though, the three dark spots seen in the above photograph are only shadows. The
unusual alignment of three of Jupiter's moons between the
Jovian giant and the Sun was imaged last November 10th.
The shadows of
Io,
Callisto, and
Ganymede move across
Jupiter as these moons progress in their orbits.
It was by noting the times of eclipse
of Jupiter's moons in 1675 that Ole Roemer became the first person to measure the
speed of light.
When a shadow from
Earth's Moon
crosses the Earth's surface, the people inside the shadow see an
eclipse of the Sun.
APOD: January 23, 1998 - Jovian Aurora
Explanation:
These two recently
released Hubble Space Telescope close-ups show the
Northern and Southern lights ...
on Jupiter.
Like aurora on Earth,
these Jovian
aurora are caused by charged particles
funneled into the atmosphere above the planet's North (right) and
South poles by
magnetic fields.
But Jupiter's magnetic field is extremely large and
ionized material expelled from
the volcanic moon Io
is trapped in it creating
light shows 1,000 times more intense than
Earth's auroral storms.
Charged particles released by Io are also funneled
along magnetic flux tubes which form a direct "bridge" to the Jovian
atmosphere.
The result is auroral hot spots - magnetic footprints 600 or more miles
across which race over
Jupiter's cloud tops.
A hot spot is visible in both images as a comet-like feature just
outside the polar auroral rings.
In these false color ultraviolet images, Jupiter's limb (edge)
appears dull brown while
the auroral displays
are shades of white and blue.
APOD: December 16, 1997 - Night Lightning on Jupiter
Explanation:
Why is there
lightning on Jupiter?
Lightning is a sudden rush of electrically charged particles from one location to another.
To create lightning, charges must first separate inside a cloud. On
Earth,
drafts of colliding ice and water droplets
usually create this charge separation,
but what happens on
Jupiter?
Many astronomers theorize that
Jovian lightning is also created in clouds containing water ice.
To help investigate this, the
above photograph
was taken in October by the
Galileo spacecraft now orbiting
Jupiter.
Clouds are dimly lit by sunlight reflected off Jupiter's moon
Io.
The bright flashes appear to originate in active regions
at the level where water clouds would exist,
and illuminate an even lower cloud level containing
ammonia. One thing is for sure:
lightning on Jupiter is a lot brighter than lighting on Earth.
APOD: November 27, 1997 - Jupiter's Inner Moons
Explanation:
The potato-shaped
inner moons of Jupiter are lined-up
in this mosaic
"family portrait" of these
tiny Jovian satellites.
The individual images were recorded over the last year by NASA's Galileo
spacecraft and are scaled to the moons' relative sizes.
Left to right in increasing order of
distance from Jupiter are
Metis (longest dimension 37 miles), Adrastea (12 miles),
Amalthea
(154 miles), and Thebe (72 miles).
All these moons orbit in the zone between
Io and
Jupiter's rings,
are bombarded by high-energy ions within the Jovian magnetosphere,
and are probably locked
in synchronous rotation by Jupiter's
strong gravity.
Why are they shaped like potatoes?
Like the asteroids and the
diminutive moons of Mars,
their own gravity is not strong enough to mold them into spheres.
APOD: November 11, 1997 - The Annotated Galactic Center
Explanation:
The sky toward the center of
our Galaxy is
filled with a wide variety of
celestial wonders. Most are visible with only binoculars.
Constellations of nearby stars include
Sagittarius,
Libra,
Scorpius,
Scutum,
and
Ophiuchus.
Nebulae include
Messier Objects
M8,
M16,
M17,
M20 and the
Pipe Nebula.
Open clusters include
M6,
M7,
M18,
M21,
M23,
M24,
M25.
Globular clusters include
M9,
M22,
M28,
M54,
M69,
M70.
And don't forget
Baade's Window.
Click on the photo to get the un-annotated version.
APOD: November 10, 1997 - Dark Volcano Active on Io
Explanation:
The surface of
Io
is changing even as we watch. The inset frame of
Jupiter's
most active moon was taken
by the robot spacecraft
Galileo in April.
Just last month the
larger image was taken. The new large black spot reveals that a
volcano named
Pillan Patera
has been erupting during the interim. A vast moonscape
roughly the size of
Arizona
has just been covered by some dark material. What is this material?
It's composition remains unknown although it is certainly
different in color from the red material seen surrounding volcano
Pele on the upper left.
APOD: September 29, 1997 - Jupiter And Family
Explanation:
This composite image features classic portraits of members of one of
the Solar System's most prominent families -
Jupiter and its four large
"Galilean" moons.
Starting from the top the moons are
Io,
Europa,
Ganymede, and
Callisto.
The top-to-bottom order is also the order of increasing distance from
Jupiter.
These are big moons indeed which attend
the largest planet.
The smallest of the lot, Europa, is the size of
Earth's moon while
Ganymede is the largest moon in the Solar System.
In fact, Ganymede with a diameter of 3,100 miles, is larger
than the planets Mercury and
Pluto.
The swirling
Great Red Spot appears at the edge of Jupiter.
A hurricane-like storm system that has persisted for over 300 years,
two to three earths could fit inside it.
Battered Callisto's
image was recorded during the 1979 flyby
of Voyager.
The other portraits were taken by
the Galileo spacecraft which began
exploring the Jovian system in 1995.
APOD: August 18, 1997 - Io: The Prometheus Plume
Explanation:
Two sulfurous eruptions are visible on
Jupiter's volcanic moon Io in
this color composite Galileo image.
On the left, over Io's limb, a new bluish plume rises about 86 miles
above the surface of
a volcanic caldera known as Pillan Patera.
In the middle of the image, near the night/day shadow line, the
ring shaped Prometheus plume is seen rising 45 miles
above Io while
casting a shadow to the right of the
volcanic vent.
Named for
the Greek god who gave mortals fire,
the
Prometheus plume is visible in every
image ever made of the region dating back to
the Voyager flybys
of 1979 - presenting the possibility that
this plume has been continuously active for at least 18 years.
This image was
recorded on June 28 at a
distance of 372,000 miles.
APOD: June 23, 1997 - Eruption on Io
Explanation:
There it goes again.
Gas and rock were catapulted hundreds of kilometers into space as
Jupiter's most volatile moon,
Io, showed yet another
impressive volcanic display
in this just-released photograph by the
Hubble Space Telescope.
This time the culprit was
Pele, a volcano thought previously inactive
since photographed by the passing
Voyager
1 spacecraft in 1979.
The explosion is visible on
Io's lower left in
this
false-color photograph, taken in July 1996. Io's thin atmosphere and low
gravity allow
volcanic plumes to rise higher than they would
on Earth.
APOD: June 12, 1997 - Jupiter's Dry Spots
Explanation:
Known for its spectacular images of Jupiter's moons,
Io,
Ganymede,
Callisto,
and Europa,
the robot spacecraft Galileo has also aggressively explored the Jovian
atmosphere.
In December of 1995,
Galileo's atmospheric probe descended into
Jupiter's clouds and reported
a surprising absence of water.
It is now believed that the probe entered through one of
Jupiter's dry spots,
similar to the dark region in
this image of the swirling Jovian cloud deck.
The smallest features visible here are tens of miles in size.
These dry regions appear to correspond to locations where
winds converge creating downdrafts. The downdrafts generate
local cloudless clearings through which
Jupiter's deeper warmer layers can be glimpsed.
Just as the dark areas are extremely dry, the surroundings are
full of moisture. The contrast is analogous to
the desert and tropics of Earth.
APOD: May 26, 1997 - Old Faithful Meets Hale-Bopp
Explanation:
As Comet Hale-Bopp leaves our Northern Skies, it provides us with
yet another burst of joy.
On May 11th the fading
comet
was photographed behind the famous
"Old Faithful" water geyser of
Yellowstone National Park, Wyoming, USA, Planet Earth.
Perhaps more familiar to Earth Dwellers
than the dark geysers on
Neptune's moon
Triton, the gas geysers on
Jupiter's moon Io,
and the dirty water geysers hypothesized on Jupiter's
moon Europa,
Earth's Old Faithful is also reliable -
every 60-80 minutes it gushes a plume of water and
steam high into the air.
Comet Hale-Bopp
will continue to be visible
to observers in the Southern Hemisphere
as it moves away from the Sun towards the outer Solar System.
APOD: April 28, 1997 - Io's Sodium Cloud
Explanation:
Io has its own cloud.
Jupiter's
most active moon is visible on the left of the
above false-color photograph,
with its left side illuminated by sunlight.
But what is happening on
Io's right side?
Here a plume of gas from the active volcano
Prometheus also reflects sunlight.
A second active volcano,
Pele, is also visible: marked by the red spot just below
Io's center. Surrounding the moon is a
yellow haze
originating from
gas ejected by
Io's volcanos.
Sodium atoms in the gas
cloud are particulary efficient at reflecting
yellow light.
Several points of light are background stars.
APOD: March 21, 1997 - Io's Surface: Under Construction
Explanation:
Like the downtown area of your favorite city,
the roads you drive to work on, and any
self-respecting Web site ...
Io's surface is constantly under construction.
This moon of Jupiter holds the
distinction of being
the Solar System's most volcanically active body --
its bizarre looking surface
continuously
formed and reformed by lava flows.
Generated using 1996 data from NASA's Galileo spacecraft,
this highest resolution composite image of Io
is centered on the side of Io that always faces away from Jupiter.
It has been enhanced to emphasize Io's surface brightness
and color variations,
revealing features as small as 1.5 miles across.
The notable absence of
impact craters
suggests that the entire
surface is covered with new volcanic deposits much more rapidly
than craters are created.
What drives this volcanic powerhouse?
A likely energy source is the changing gravitational
tides caused by Jupiter and the other
Galilean moons as Io orbits the massive gas giant planet.
Heating Io's interior, the pumping tides could generate
the sulfurous
volcanic activity.
APOD: December 31, 1996 - Io Rotating
Explanation: Are any volcanoes on Io currently erupting?
To help answer this, scientists instructed the robot spacecraft Galileo
to take hourly pictures of this moon
of Jupiter prior to its most recent
encounter. The most obvious changes in Io are due to the changing
amount of sunlight reflected from the moon to the spacecraft.
More careful inspection does verify continuous volcanic plumes.
The most prominent plume visible is from Prometheus, visible
just below Io's
equator. This plume was first photographed in 1979 by Voyager,
so Prometheus appears to have been erupting continuously for at
least 18 years! On most browsers, the above picture will appear
animated. To stop the movie, click on your broswer's "stop"
button.
APOD: December 9, 1996 - Callisto Full Face
Explanation: Callisto's surface shows its age. While probably
formed at the same time as Io, the
difference between the surfaces of these two moons of Jupiter
could hardly be greater. Io's
surface is young, shows practically no impact craters, and is
continually being repaved by the lava
exploding from its many large volcanoes.
Callisto's
surface is old, shows the highest density of impact craters in
the Solar System, and harbors no
volcanoes or even any large mountains. Callisto's
surface is one large ice-field, laced with cracks and craters
from billions of years of collisions with interplanetary debris.
The high-resolution vertical band in the above mosaic
was taken by the robot spacecraft Galileo
currently orbiting Jupiter. The
rest of the mosaic was compiled from pictures taken by the Voyager spacecraft
which passed the Callisto
in 1979.
APOD: December 5, 1996 - Io's Giant Volcano Pele
Explanation: Io has some very large volcanoes. One of
the largest is evident near the center of the above photograph
and named Pele,
for the mythological Polynesian fire goddess. The Galileo spacecraft
now orbiting Jupiter took this
picture of Jupiter's most active moon
in June, although it was released just last week. Evident around
Pele is a large red ring, thought to be evidence of recent volcanic activity.
The red color indicates the presence of Sulfur,
although how the Sulfur was produced is not precisely known.
APOD: November 29, 1996 - Io: The Fissure King?
Explanation:
Is Io the solar system's Fissure King?
Well, probably not ... but it is the most active
volcanic moon.
Active volcanoes on Jupiter's moon Io
were a surprise discovery of
the Voyager missions of the late 1970s.
The extent of Io's
volcanic activity today
is being investigated close-up by the Galileo spacecraft currently exploring
the Jovian system.
The two frames above show a roughly 300 mile square area around
the Io volcano called Marduk.
The left-hand view of Marduk was made by
Voyager in 1979, the right-hand view by Galileo earlier this year.
A comparison reveals that dramatic changes have occured, including
the creation of a dark, linear feature running diagonally through
the Galileo image that is probably a huge volcanic fissure.
APOD: October 29, 1996 - Io Full Face
Explanation: Io is a colorful place. The closest large
moon of Jupiter,
Io
is the most volcanic moon in the Solar System
with its surface being completely buried in volcanic lava
every few thousand years. The black and red material corresponds
to the most recent volcanic eruptions
and is probably no more than a few years old. This image
by the automated spacecraft Galileo
highlights the side of Io that always
faces away from Jupiter. In this image released last week,
picture colors have been adjusted to enhance contrast, but are
based on real composite infrared,
green and violet-light images.
APOD: October 27, 1996 - Io's Active Volcanoes
Explanation: Why is Io green at night? In this just-released nighttime picture
of Jupiter's moon Io,
the red spots clearly show Io's
current volcanically active regions.
But what is causing the global green sheen? This telling picture
was taken by the automated Galileo
spacecraft currently orbiting Jupiter
while Io was in Jupiter's shadow. One hypothesis is that the green
glow is caused by a different type of aurora
resulting from high-energy particles interacting with Io's volcanic plumes.
APOD: October 25, 1996 - A Flyby View of Ganymede
Explanation: This is what it would look like to fly over
the surface of Jupiter's moon Ganymede. NASA's robot spacecraft Galileo
recently approached only 6000 miles from this frozen ice-ball
of a moon. The above image
is a digital reconstruction from two images taken during this
flyby. The blue color of the sky is artificial. Deep furrows
cover Ganymede's surface, and several
impact craters are also present. Galileo continues to orbit Jupiter
and send back breathtaking photos of Ganymede,
Io, Europa,
Callisto, and, of course, Jupiter
itself.
APOD: October 22, 1996 - The Cracked Ice Plains of Europa
Explanation: What caused the cracks in this giant ice-ball?
Jupiter's moon Europa
has smoothest surface in the solar system and is composed mostly
of cracked water-ice. In the above false-colored picture
released last week by the NASA team
in charge of the Galileo mission,
blue hues represent ice plains divided by dirty red and brown
bands of mottled terrain. As the robot Galileo spacecraft orbits
Jupiter, it sends back revealing pictures of Jupiter and
its large moons
including Europa, Io,
Ganymede, and Callisto.
The region of Europa
highlighted above is known as Minos Linea. The cause for many
of the cracks remains unknown but may involve shifting stresses
from gravity and temperature variations. The new Galileo pictures
have increased evidence that liquid oceans may indeed exist
under these giant ice-sheets, a place possibly ripe for the development of life.
APOD: October 18, 1996 - Jupiter's Auroras
Explanation: Auroras are especially large on Jupiter.
In pictures
released
yesterday, the Hubble Space Telescope
imaged these unusual light displays in more detail than ever before.
Jupiter's auroras
are linked to its volcanic moon Io.
Io's volcanoes release particles,
some of which become ionized, trapped by Jupiter's
magnetic field, and rain down on the gas giant. The resulting
auroral displays may be thousands
of times brighter than any auroral display on Earth,
and involve unusual spots. The above pictures
show how the extended auroral emissions rotate with Jupiter, while
the auroral spots stay synchronized to Io as it circles Jupiter.
APOD: October 7, 1996 - Io's Shadow
Explanation:
Caught in the act earlier this summer by the Hubble Space Telescope,
the volcanic moon Io
(above and right of center) and its shadow (black dot) are seen here against
Jupiter's clouds.
Io's shadow is 2,262 miles in diameter (about the size of Io)
as it races across the swirling cloud tops
at about 38,000 miles per hour.
From our perspective in the inner Solar System, dramatic scenes like this one
are possible when Jupiter, Io, and
the Sun line up.
What would this scene look like when viewed from Jupiter's cloud tops?
As the shadow passed over Jupiter, for observers along the shadow's track,
Io's disk would appear to eclipse the sun.
The situation is familiar to those Earth Dwellers
who have seen
a Solar Eclipse - visible from along the track of
the Moon's shadow passing across
the surface of the Earth.
APOD: October 3, 1996 - Three Views of Jupiter's Io
Explanation: The Galileo spacecraft
orbiting Jupiter continues to return impressive results. The
Galileo team
has just released three more photographs of Jupiter's
volcanic moon Io taken in June.
These three photos
are reflected at the bottom of the above picture, digitally enhanced
to better show important features. Some areas of Io,
it now appears, are truly red, not the usual green and yellow
hues recorded previously. In fact, the last major mission - Voyager
- did not have cameras sensitive to red light. This red material
appears to be associated with recent volcanic eruptions,
and the red color appears to fade with time. Comparisons of these
photos with 17-year old Voyager photos
show that about a dozen surface regions -- each the size of Connecticut--
have been affected by Io's active volcanoes.
APOD: September 8, 1996 - Volcano Euboea Fluctus On Io
Explanation:
Jupiter's moon
Io is turning out to be our
Solar System's geologic powerhouse. The churning moon was photographed again just recently on June 27th and again shows signs of violent activity.
Shown above are photographs of the volcano Euboea Fluctus taken at different times. The black and white photograph on the upper left was taken by the
Voyager 1 spacecraft when it flew by in 1979, the upper right and lower left photographs were taken in 1996 by the
Galileo spacecraft, while the lower right photograph is a color image taken by Voyager 2, also in 1979. The upper right Galileo picture has been artifically changed to simulate the color sensitivity of the
Voyager 2 mission. The marked difference in the two images is highlighted by new red and yellow deposits. These markings may indicate that Euboea Fluctus erupts in an unusual fashion, possibly caused by an obstruction near the volcanic vent.
APOD: September 4, 1996 - IRTF: Scanning the Infrared Skies
Explanation:
Above, NASA's Infrared Telescope Facility (IRTF) poses in front of a starry
background. Located on top of
Hawaii's towering
volcano
Mauna Kea, the
IRTF
is the premier telescope for observing in near
infrared light. This
3-meter telescope was established in 1979 and spends about half its time
observing
Solar System
objects. In 1994, for example, the
IRTF recorded
pieces of the famous comet
Shoemaker-Levy 9 plunge into
Jupiter. Last year, the
IRTF
recorded
an outburst of a volcano on Jupiter's moon
Io.
IRTF's
observational successes outside our Solar System include
understanding the infrared emission of
dust and
Pre-Main
Sequence stars and even the
identification
of faint galaxies.
APOD: August 15, 1996 - Galileo Views Io Eruption
Explanation:
Io's surface is active.
Geyser-like eruptions from volcanoes on this Jovian moon were seen by
both Voyager spacecraft in 1979 and were also spotted this year in
late June by Galileo's camera from a distance of about 600,000 miles.
The blue plume seen at the moon's edge (magnified in the inset)
arises from Ra Patera, a large shield volcano, and extends about
60 miles above the surface. The blue color is attributed to
condensing and freezing sulfur dioxide gas.
Galileo images have also revealed that the plume glows in the dark -
perhaps due to fluorescence of excited sulfur and oxygen ions.
Io's surface is cold, its temperature averages about -230
degrees Fahrenheit,
so why is it so active?
The most likely cause is the
gravitational tug of war over Io between Jupiter and the other Galilean
moons which perturbs Io's orbit.
The orbital changes would result in tidal force variations
heating Io's interior and and generating the sulfurous
volcanic activity.
APOD: August 5, 1996 - Erupting Volcanoes on Io
Explanation:
Jupiter's moon Io has active volcanoes. The
Voyager spacecraft
caught several erupting when they passed the energetic moon in 1979. In the
above picture, several of
Io's volcanoes are visible and one is seen
actually
erupting. Debris from this explosive event can be seen on the upper left of
the photo, just beyond Io's edge.
Io's volcanism is thought to be caused
by the large tidal distortions raised by
Jupiter,
Europa, and
Ganymede.
These tides stretch
Io, cause internal friction, and thus heat the
interior. The hot interior then expands and forces its
way out through volcanoes. Currently, the
spacecraft Galileo is orbiting
Jupiter and
photographing Jupiter's Galilean moons.
APOD: July 19, 1996 - Galileo's First Color Image of Io
Explanation:
Above is
the first color image
of
Jupiter's volcanic moon Io released by the Galileo Project.
(Io sounds like "eye-oh".)
The image was made on June 25 when the
Galileo spacecraft approached within 1.4 million miles.
It reveals features as small as 14 miles across - comparable to the resolution
of the best 1979 vintage
Voyager images.
The Voyager flybys discovered
active volcanos on Io's mottled surface
and this image indicates that
dramatic changes have occurred since, notably in the region of
the Masubi volcano located in Io's southern hemisphere.
This region, apparently covered with new deposits
of sulfur and sulfur dioxide frost deposited by volcanic eruption,
is seen as the pronounced white area at the bottom of the picture.
While scientists continue to analyze this image and
other recent Galileo data the robot spacecraft will continue
to explore Jupiter's moons.
Its next scheduled
close encounter is set for September 6th with
the moon Ganymede.
Higher resolution images of Io are also expected during the ongoing
mission.
APOD: July 12, 1996 - Ancient Cratered Plains on Ganymede
Explanation:
The largest moon in the Solar System shows regions that are ancient and
battered. The high density of craters demonstrate that patches of
Ganymede
are indeed billions of years old.
This photo is
one of a series
released by
NASA two days ago from the
Galileo spacecraft orbiting
Jupiter.
The large impact crater on the left is 19 kilometers across, while dark
indentations in
Ganymede's crusty surface-ice run diagonally.
Ganymede is composed of
half rock and half water-ice. The
Galileo
spacecraft will continue to orbit
Jupiter
over the next 16 months and send back data about
Jupiter and its
four largest moons:
Io,
Europa,
Ganymede, and
Callisto.
APOD: July 10, 1996 - Galileo Photographs Ganymede
Explanation:
Ganymede's surface is slowly being pulled apart.
This photo of Ganymede was
released earlier today by the Galileo team at NASA. The
Galileo Spacecraft arrived at
Jupiter
in December 1995. In late June, the spacecraft passed
within 10,000 kilometers of
Ganymede's icy surface, and took pictures
showing complex surface details for the first time. The
line-like features in this photo are sunlit ridges rising above
Ganymede's ice-plains.
The circular features are impact craters.
Ganymede
is the largest moon of
Jupiter and hence the largest of
the four Galilean satellites:
Io,
Europa,
Ganymede, and
Callisto.
APOD: November 3, 1995 - Jupiter's Moon Amalthea
Explanation:
Amalthea is
Jupiter's fifth largest moon, much smaller than
the four
Galilean
satellites
Io,
Europa,
Ganymede, and
Callisto.
The orbit of
Amalthea is inside of these moons, and with its long axis always
pointing toward
Jupiter. It's dark surface color is
probably due to sulfur being
expelled from Io.
Amalthea is not massive enough for its internal
gravity to make it spherical.
Amalthea was discovered in 1892 by Edward Barnard.
APOD: October 13, 1995 - Jupiter, Io, and Ganymede's Shadow
Explanation:
Jupiter, the
solar system's largest planet,
is seen here next to
Io, its closest
Galilean moon.
On the cloud tops of
Jupiter
near the left edge of the picture can be seen a dark circular spot which is
caused by the shadow of
Jupiter's largest moon
Ganymede.
Jupiter's cloud tops show light bands
and dark belts. The clouds are primarily composed of
hydrogen and
helium,
but their intense colors are probably caused by very small amounts of
heavier elements such as sulfur or organic (carbon-containing) compounds.
APOD: September 6, 1995 - Callisto: Dark Smashed Iceball
Explanation:
Callisto is a dirty battered world, showing the most beaten surface of
Jupiter's major moons. Made of a rocky core
covered by fractured ice,
Callisto's past collisions with large meteors are evident as large
craters surrounded by concentric rings. The four largest moons of Jupiter:
Io,
Europa,
Ganymede, and
Callisto were all discovered by
Galileo
and
Marius in 1610 with early telescopes and are now known as the
Galilean satellites. The
NASA spacecraft Galileo
is scheduled to arrive at Jupiter is December of 1995.
APOD: August 4, 1995 - Closeup of an Io Volcano
Explanation:
In 1979, one of NASA's
Voyager
spacecraft made a spectacular and unexpected
discovery. Io,
the innermost Galilean moon of Jupiter, was covered
with volcanoes and some of them were erupting! In all, Voyager 1 observed
nine volcanic eruptions during its encounter with the moon.
When Voyager 2 flew past four months
later it was able to confirm that at least six of them were still erupting.
This Voyager image of Ra Patera, a large shield volcano, shows colorful
flows up to about 200 miles long emanating from the
dark central volcanic vent.
APOD: August 3, 1995 - Io: A Volcanic Moon
Explanation:
In 1610,
Galileo
turned his telescope to the heavens and discovered that
the planet Jupiter had four bright moons. The innermost of these
Galilean moons,
Io,
turned out to be one of the most exotic objects in
the solar system. About the size of the earth's moon, Io is covered
with volcanoes, many of which are currently active.
The material expelled in the volcanic eruptions may contain compounds
of Sulfur which take on a variety of colors and could account for
its mottled, "pizza-like" appearance.