Diameter 49528 km
... Neptune is the eighth and farthest planet from the Sun (after the demotion of Pluto to a dwarf planet status) in our Solar System. It is the Solar System’s fourth largest by diameter and third largest by size. Like Jupiter, Saturn and its neighbour Uranus, Neptune is a gas giant. In its southern hem ...
... Neptune is the eighth and farthest planet from the Sun (after the demotion of Pluto to a dwarf planet status) in our Solar System. It is the Solar System’s fourth largest by diameter and third largest by size. Like Jupiter, Saturn and its neighbour Uranus, Neptune is a gas giant. In its southern hem ...
Neptune - Midland ISD
... nickel and silicates, with an interior model giving a mass about 1.2 times that of Earth. ...
... nickel and silicates, with an interior model giving a mass about 1.2 times that of Earth. ...
Outer or Jovian Planets - Academic Computer Center
... Images like this one particles settling out of the from Voyager were atmosphere, and instead of among the best we had lava, Titanian volcanoes until the spew very cold ice. Cassini/Huygens mission ...
... Images like this one particles settling out of the from Voyager were atmosphere, and instead of among the best we had lava, Titanian volcanoes until the spew very cold ice. Cassini/Huygens mission ...
Planet Uranus Reading Comprehension Page
... Planet Uranus If Earth is known as the Blue Planet because its atmosphere appears blue from space then Uranus should be known as the Green Planet. Pictures returned from space in 1985 and 1986 by NASA’s Voyager 2 space probe show Uranus appears light blue-green when viewed from space. Uranus has spo ...
... Planet Uranus If Earth is known as the Blue Planet because its atmosphere appears blue from space then Uranus should be known as the Green Planet. Pictures returned from space in 1985 and 1986 by NASA’s Voyager 2 space probe show Uranus appears light blue-green when viewed from space. Uranus has spo ...
Neptune`s - P7
... Our solar system :The sun is at the centre of our solar system. It is a massive ball of gasses which produces as 100’000m hydrogen bombs exploding...every second! The nine planets of the solar system and more than 60 moons orbit the sun. ...
... Our solar system :The sun is at the centre of our solar system. It is a massive ball of gasses which produces as 100’000m hydrogen bombs exploding...every second! The nine planets of the solar system and more than 60 moons orbit the sun. ...
The Jovian Planets
... – Gravity pulls harder on near-side of orbiting object than on far-side – If this differential gravitational force is stronger than the object’s self-gravitation (what holds the object together), it gets torn apart – Gravity pulls pieces into orbit – Side-by-side differences in rings suggest whole r ...
... – Gravity pulls harder on near-side of orbiting object than on far-side – If this differential gravitational force is stronger than the object’s self-gravitation (what holds the object together), it gets torn apart – Gravity pulls pieces into orbit – Side-by-side differences in rings suggest whole r ...
m15a02
... Uranus: Less than half the diameter of Saturn and twice as distant from the Sun, Uranus is much colder and lacking a strong internal energy source. Though it has high speed winds its atmosphere is generally featureless. Traces of methane give it its blue-green tint. Uranus’ unique feature is its 98° ...
... Uranus: Less than half the diameter of Saturn and twice as distant from the Sun, Uranus is much colder and lacking a strong internal energy source. Though it has high speed winds its atmosphere is generally featureless. Traces of methane give it its blue-green tint. Uranus’ unique feature is its 98° ...
Document
... Obliquity 98°: thus its rotation axis is almost parallel to the ecliptic plane, instead of perpendicular. • Component perpendicular to the ecliptic points the opposite direction of revolution: retrograde rotation. • The orbital plane of Uranus’s moons is similarly tilted: thus one can’t explain th ...
... Obliquity 98°: thus its rotation axis is almost parallel to the ecliptic plane, instead of perpendicular. • Component perpendicular to the ecliptic points the opposite direction of revolution: retrograde rotation. • The orbital plane of Uranus’s moons is similarly tilted: thus one can’t explain th ...
The Gas Giant Planets
... at their surfaces. • The gas giants have many satellites as well as ring systems, and they are all very large. ...
... at their surfaces. • The gas giants have many satellites as well as ring systems, and they are all very large. ...
a-cr-ccp-803/pf-001 15-5-1 royal canadian air cadets
... Voyager-2 was aimed to fly by Saturn at a point that would automatically send the spacecraft in the direction of Uranus. After Voyager-2’s successful Saturn encounter, it was shown that the spacecraft would likely be able to fly to Uranus with all instruments operating. Subsequently, NASA also autho ...
... Voyager-2 was aimed to fly by Saturn at a point that would automatically send the spacecraft in the direction of Uranus. After Voyager-2’s successful Saturn encounter, it was shown that the spacecraft would likely be able to fly to Uranus with all instruments operating. Subsequently, NASA also autho ...
Activity Voyager Key Learning Students will develop their
... 8 – Mercury, Venus, Earth, Mars, Jupiter, Saturn, Uranus and Neptune. Sun – the sun is the star at the centre of the solar system. Mercury – Mercury is the smallest and closest planet to the sun. 4.6 billion years ago – scientists believe that the solar system evolved from a giant cloud of dust and ...
... 8 – Mercury, Venus, Earth, Mars, Jupiter, Saturn, Uranus and Neptune. Sun – the sun is the star at the centre of the solar system. Mercury – Mercury is the smallest and closest planet to the sun. 4.6 billion years ago – scientists believe that the solar system evolved from a giant cloud of dust and ...
Voyager
... 8 – Mercury, Venus, Earth, Mars, Jupiter, Saturn, Uranus and Neptune. Sun – the sun is the star at the centre of the solar system. Mercury – Mercury is the smallest and closest planet to the sun. 4.6 billion years ago – scientists believe that the solar system evolved from a giant cloud of dust and ...
... 8 – Mercury, Venus, Earth, Mars, Jupiter, Saturn, Uranus and Neptune. Sun – the sun is the star at the centre of the solar system. Mercury – Mercury is the smallest and closest planet to the sun. 4.6 billion years ago – scientists believe that the solar system evolved from a giant cloud of dust and ...
Jupiter
... Great Red Spot • A particularly violent storm, about three times Earth's diameter, is known as the Great Red Spot, and has persisted through more than three centuries of human observation. • The spot rotates counterclockwise, once every 7 days. ...
... Great Red Spot • A particularly violent storm, about three times Earth's diameter, is known as the Great Red Spot, and has persisted through more than three centuries of human observation. • The spot rotates counterclockwise, once every 7 days. ...
Jupiter and Saturn
... Gas giants rotate differentially: rotation is faster at their equator than their poles (like which other object in the solar system?? They all have magnetic fields (molten interiors) ...
... Gas giants rotate differentially: rotation is faster at their equator than their poles (like which other object in the solar system?? They all have magnetic fields (molten interiors) ...
Chapter 8 The Giant Planets
... preferentially along their equators. d. They have very active aurorae that heat the atmospheres along the poles. ...
... preferentially along their equators. d. They have very active aurorae that heat the atmospheres along the poles. ...
Neptune - SUSD Student Community
... Special Markings- Neptune's most prominent feature is the Great Dark Spot (left) in the southern hemisphere. It is about half the size as Jupiter's Great Red Spot (about the same diameter as Earth). Neptune's winds blew the Great Dark Spot westward at 300 meters/second (700 mph). Voyager 2 also saw ...
... Special Markings- Neptune's most prominent feature is the Great Dark Spot (left) in the southern hemisphere. It is about half the size as Jupiter's Great Red Spot (about the same diameter as Earth). Neptune's winds blew the Great Dark Spot westward at 300 meters/second (700 mph). Voyager 2 also saw ...
File
... E. Very ______ ring (~ 50 m in places) F. __________ ________ 1. _____ forces increase close to planet 2. Limit at which large moon torn apart G. Voyager discoveries 1. Thousands of ringlets (few gaps) 2. Only true gaps caused by “_______” 3. Moon _____ found in Encke gap H. Mysterious, thin, “braid ...
... E. Very ______ ring (~ 50 m in places) F. __________ ________ 1. _____ forces increase close to planet 2. Limit at which large moon torn apart G. Voyager discoveries 1. Thousands of ringlets (few gaps) 2. Only true gaps caused by “_______” 3. Moon _____ found in Encke gap H. Mysterious, thin, “braid ...
Neptune - Peterborough Astronomical Association
... of our solar system. I say “for the time being” because there is still a great deal of controversy about Pluto’s being demoted to a dwarf planet. I’ll save that for the chapter on Pluto, which should contain a number of exciting new images once the New Horizons Mission arrives there in mid-July. We’ ...
... of our solar system. I say “for the time being” because there is still a great deal of controversy about Pluto’s being demoted to a dwarf planet. I’ll save that for the chapter on Pluto, which should contain a number of exciting new images once the New Horizons Mission arrives there in mid-July. We’ ...
Jupiter - Copeland Science Online
... • Few craters; only three craters larger than 5 km in diameter have been found. • Surface strongly resembles images of sea ice on Earth. • Possible that liquid water is below ice, perhaps as much as 50 km deep. • Kept liquid by tidally generated heat. • Only place in the solar system besides Earth w ...
... • Few craters; only three craters larger than 5 km in diameter have been found. • Surface strongly resembles images of sea ice on Earth. • Possible that liquid water is below ice, perhaps as much as 50 km deep. • Kept liquid by tidally generated heat. • Only place in the solar system besides Earth w ...
What are the Jovian Planets? Characteristics of Jovian Planets
... • Jupiter –axis of rotation tilted by 3o - no seasons • Saturn –axis tilted by 27o - has seasons • Neptune –axis tilted by 29o - has seasons –seasonal changes slower than Saturn’s • Uranus –axis tilted by 98o - strange seasons ...
... • Jupiter –axis of rotation tilted by 3o - no seasons • Saturn –axis tilted by 27o - has seasons • Neptune –axis tilted by 29o - has seasons –seasonal changes slower than Saturn’s • Uranus –axis tilted by 98o - strange seasons ...
planets of our solar system
... Jupiter and its moons. Launched in 1977 from Titan III/Centaur rockets, both visited Jupiter and Saturn, with Voyager 2 going on to return the first close-ups of Uranus and Neptune. One of the biggest surprises to scientists were the photos here of an active volcano erupting on the moon, Io. Scienti ...
... Jupiter and its moons. Launched in 1977 from Titan III/Centaur rockets, both visited Jupiter and Saturn, with Voyager 2 going on to return the first close-ups of Uranus and Neptune. One of the biggest surprises to scientists were the photos here of an active volcano erupting on the moon, Io. Scienti ...
Saturn - Otterbein University
... Callisto), Saturn’s Titan, Neptune’s Triton diameters >2500 km, largest: 5260 km • Medium moons: diameter 400-1600 km e.g. all of Uranus’ major moons ...
... Callisto), Saturn’s Titan, Neptune’s Triton diameters >2500 km, largest: 5260 km • Medium moons: diameter 400-1600 km e.g. all of Uranus’ major moons ...
DTU 8e Lecture PPT Chap 8 The Outer Planets v2
... 1996, shows what this giant storm would look like if you were traveling over it in a spacecraft. The counterclockwise circulation of gas in the Great Red Spot takes about 6 days to make one rotation. The clouds that encounter it are forced to pass around it, and when other oval features are near it, ...
... 1996, shows what this giant storm would look like if you were traveling over it in a spacecraft. The counterclockwise circulation of gas in the Great Red Spot takes about 6 days to make one rotation. The clouds that encounter it are forced to pass around it, and when other oval features are near it, ...
Voyager 2
Voyager 2 is a space probe launched by NASA on August 20, 1977 to study the outer planets. Part of the Voyager program, it was launched 16 days before its twin, Voyager 1, on a trajectory that took longer to reach Jupiter and Saturn but enabled further encounters with Uranus and Neptune. It is the only spacecraft to have ever visited either of the ice giants.Its primary mission ended with the exploration of the Neptunian system on October 2, 1989, after having visited the Uranian system in 1986, the Saturnian system in 1981, and the Jovian system in 1979. Voyager 2 is now in its extended mission to study the outer reaches of the Solar System and has been operating for 38 years, 1 month and 29 days. It remains in contact through the Deep Space Network.At a distance of 108 AU (1.62×1010 km) from the Sun as of April 2015, Voyager 2 is one of the most distant human-made objects, along with Voyager 1, Pioneer 10 and Pioneer 11. The probe was moving at a velocity of 15.4 km/s (55,000 km/h) relative to the Sun as of December, 2014 and is traveling through the heliosheath. Upon reaching interstellar space, Voyager 2 is expected to provide the first direct measurements of the density and temperature of the interstellar plasma.