Planet Jupiter: Facts About Its Size, Moons and Red Spot
Jupiter is the largest planet in the solar system. Fittingly, it was
named after the king of the gods in Roman mythology. In a similar
manner, the ancient Greeks named the planet after Zeus, the king of the
Greek pantheon.
Jupiter is the most massive planet in our solar system,
more than twice as massive as all the other planets combined, and had
it been about 80 times more massive, it would have actually become a
star instead of a planet. Its atmosphere resembles that of the sun, made
up mostly of hydrogen and helium, and with four large moons and many
smaller moons in orbit around it, Jupiter by itself forms a kind of
miniature solar system. All told, the immense volume of Jupiter could
hold more than 1,300 Earths.
The colorful bands of Jupiter are arranged in dark belts and light zones
created by strong east-west winds in the planet's upper atmosphere
traveling more than 400 mph (640 kph). The white clouds in the zones are
made of crystals of frozen ammonia, while darker clouds of other
chemicals are found in the belts. At the deepest visible levels are blue
clouds. Far from being static, the stripes of clouds change over time. Inside the atmosphere, diamond rain may fill the skies.
The most extraordinary feature on Jupiter is undoubtedly the Great Red Spot,
a giant hurricane-like storm seen for more than 300 years. At its
widest, the Great Red Spot is three times the diameter of the Earth, and
its edge spins counterclockwise around its center at a speed of about
225 mph (360 kph). The color of the storm, which usually varies from
brick red to slightly brown, may come from small amounts of sulfur and
phosphorus in the ammonia crystals in Jupiter's clouds. The spot grows and shrinks over time, and every now and again, seems to fade entirely.
Jupiter's gargantuan magnetic field is the strongest of all the planets
in the solar system at nearly 20,000 times the strength of Earth's. It
traps electrically charged particles in an intense belt of electrons and
other electrically charged particles that regularly blasts the planet's
moons and rings with a level of radiation more than 1,000 times the
lethal level for a human, damaging even heavily shielded spacecraft such
as NASA's Galileo probe. The magnetosphere of Jupiter, which is
composed of these fields and particles, swells out some 600,000 to 2
million miles (1 million to 3 million km) toward the sun and tapers to a
tail extending more than 600 million miles (1 billion km) behind
Jupiter.
Jupiter spins faster than any other planet, taking a little under 10
hours to complete a turn on its axis, compared with 24 hours for Earth.
This rapid spin makes Jupiter bulge at the equator and flatten at the
poles, making the planet about 7 percent wider at the equator than at
the poles.
Jupiter broadcasts radio waves strong enough to detect on Earth. These come in two forms — strong bursts that occur when Io, the closest of Jupiter's large moons, passes through certain regions of Jupiter's magnetic field, and continuous radiation from Jupiter's surface and high-energy particles in its radiation belts. These radio waves could help scientists to probe the oceans on its moons.
Jupiter has at least 63 moons, which are often named after the Roman god's many lovers. The four largest moons of Jupiter, now called Io, Europa, Ganymede, and Callisto, were discovered by Galileo Galilei himself, and are appropriately known today as the Galilean satellites.
Ganymede is the largest moon in our solar system, larger even than Mercury and Pluto. It is also the only moon known to have its own magnetic field. The moon has at least one thick ocean between layers of ice, although it may contain several layers of both materials.
Io is the most volcanically active body in our solar system. The sulfur its volcanoes spew out gives Io a blotted yellow-orange appearance that is often compared to a pepperoni pizza. As Io orbits Jupiter, the planet's immense gravity causes 'tides' in Io's solid surface that rise 300 feet (100 meters) high, generating enough heat for volcanic activity.
The frozen crust of Europa
is made up mostly of water ice, and it may hide a liquid ocean holding
twice as much water as Earth does. Icy oceans may also exist beneath the
crusts of Callisto and Ganymede. Some of this liquid spouts from the
surface in newly spotted sporadic plumes at the southern pole. Its potential to host life caused NASA to request funding for a mission to explore Europa.
Callisto has the lowest reflectivity, or albedo, of the four Galilean moons. This suggests that its surface may be composed of dark, colorless rock.
The inner cloud-like ring, called the halo, is roughly 12,000 miles (20,000 km) thick. The halo extends halfway from the main ring down to the planet's cloud tops and expands by interaction with Jupiter's magnetic field. Both the main ring and halo are composed of small, dark particles.
The third ring, known as the gossamer ring because of its transparency, is actually three rings of microscopic debris from three of Jupiter's moons, Amalthea, Thebe and Adrastea. It is probably made up of dust particles less than 10 microns in diameter, about the same size of the particles found in cigarette smoke, and extends to an outer edge of about 80,000 miles (129,000 km) from the center of the planet and inward to about 18,600 miles (30,000 km).
As the most massive body in the solar system after the sun, the pull of
Jupiter's gravity has helped shape the fate of our system. It may have violently hurled Neptune and Uranus outward, according to calculations published in the journal Nature. Jupiter, along with Saturn, may have slung a barrage of debris
toward the inner planets early in the system's history, according to an
article in Science magazine. It may even nowadays help keep asteroids
from bombarding Earth, and recent events certainly have shown that it can absorb potentially deadly impacts.
Currently, Jupiter's gravitational field influences numerous asteroids that have clustered into the regions preceding and following Jupiter in its orbit around the sun. These are known as the Trojan asteroids, after three large asteroids there, Agamemnon, Achilles and Hector, names drawn from the Iliad, Homer's epic about the Trojan War.
www.space.com
Jupiter broadcasts radio waves strong enough to detect on Earth. These come in two forms — strong bursts that occur when Io, the closest of Jupiter's large moons, passes through certain regions of Jupiter's magnetic field, and continuous radiation from Jupiter's surface and high-energy particles in its radiation belts. These radio waves could help scientists to probe the oceans on its moons.
Jupiter has at least 63 moons, which are often named after the Roman god's many lovers. The four largest moons of Jupiter, now called Io, Europa, Ganymede, and Callisto, were discovered by Galileo Galilei himself, and are appropriately known today as the Galilean satellites.
Ganymede is the largest moon in our solar system, larger even than Mercury and Pluto. It is also the only moon known to have its own magnetic field. The moon has at least one thick ocean between layers of ice, although it may contain several layers of both materials.
Io is the most volcanically active body in our solar system. The sulfur its volcanoes spew out gives Io a blotted yellow-orange appearance that is often compared to a pepperoni pizza. As Io orbits Jupiter, the planet's immense gravity causes 'tides' in Io's solid surface that rise 300 feet (100 meters) high, generating enough heat for volcanic activity.
The frozen crust of Europa
is made up mostly of water ice, and it may hide a liquid ocean holding
twice as much water as Earth does. Icy oceans may also exist beneath the
crusts of Callisto and Ganymede. Some of this liquid spouts from the
surface in newly spotted sporadic plumes at the southern pole. Its potential to host life caused NASA to request funding for a mission to explore Europa.Callisto has the lowest reflectivity, or albedo, of the four Galilean moons. This suggests that its surface may be composed of dark, colorless rock.
Jupiter's rings
Jupiter's three rings came as a surprise when NASA's Voyager 1 spacecraft discovered them around the planet's equator in 1979. Each are much fainter than Saturn's rings.
The main ring is flattened. It is about 20 miles (30 km) thick and more than 4,000 miles (6,400 km) wide.The inner cloud-like ring, called the halo, is roughly 12,000 miles (20,000 km) thick. The halo extends halfway from the main ring down to the planet's cloud tops and expands by interaction with Jupiter's magnetic field. Both the main ring and halo are composed of small, dark particles.
The third ring, known as the gossamer ring because of its transparency, is actually three rings of microscopic debris from three of Jupiter's moons, Amalthea, Thebe and Adrastea. It is probably made up of dust particles less than 10 microns in diameter, about the same size of the particles found in cigarette smoke, and extends to an outer edge of about 80,000 miles (129,000 km) from the center of the planet and inward to about 18,600 miles (30,000 km).
Jupiter's gravitational impact on the solar system
As the most massive body in the solar system after the sun, the pull of
Jupiter's gravity has helped shape the fate of our system. It may have violently hurled Neptune and Uranus outward, according to calculations published in the journal Nature. Jupiter, along with Saturn, may have slung a barrage of debris
toward the inner planets early in the system's history, according to an
article in Science magazine. It may even nowadays help keep asteroids
from bombarding Earth, and recent events certainly have shown that it can absorb potentially deadly impacts.Currently, Jupiter's gravitational field influences numerous asteroids that have clustered into the regions preceding and following Jupiter in its orbit around the sun. These are known as the Trojan asteroids, after three large asteroids there, Agamemnon, Achilles and Hector, names drawn from the Iliad, Homer's epic about the Trojan War.
Possibility of life on Jupiter
If one were to dive into Jupiter's atmosphere, one would discover it to grow warmer with depth, reaching room temperature, or 70 degrees F (21 degrees C), at an altitude where the atmospheric pressure is about 10 times as great as it is on Earth. Scientists have conjectured that if Jupiter has any form of life, it might dwell at this level, and would have to be airborne. However, researchers have found no evidence for life on Jupiter.www.space.com
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