Neptune
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For other uses, see Neptune (disambiguation).
- Note: This article contains special characters.
Discovery | |||||||
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Discovered by | Urbain Le Verrier John Couch Adams Johann Galle |
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Discovered on | September 23, 1846 | ||||||
Orbital characteristics (Epoch J2000) | |||||||
Semi-major axis | 4,498,252,900 km 30.068 963 48 AU |
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Orbital circumference | 28.263 Tm 188.925 AU |
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Eccentricity | 0.008 585 87 | ||||||
Perihelion | 4,459,631,496 km 29.810 795 27 AU |
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Aphelion | 4,536,874,325 km 30.327 131 69 AU |
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Orbital period | 60,223.3528 d (164.88 a) |
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Synodic period | 367.49 d | ||||||
Avg. Orbital Speed | 5.432 km/s | ||||||
Max. Orbital Speed | 5.479 km/s | ||||||
Min. Orbital Speed | 5.385 km/s | ||||||
Inclination | 1.769 17° (6.43° to Sun's equator) |
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Longitude of the ascending node |
131.721 69° | ||||||
Argument of the perihelion |
273.249 66° | ||||||
Number of satellites | 13 | ||||||
Physical characteristics | |||||||
Equatorial diameter | 49,528 km [1] (3.883 Earths) |
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Polar diameter | 48,681 km (3.829 Earths) |
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Oblateness | 0.0171 | ||||||
Surface area | 7.619×109 km2 (14.94 Earths) |
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Volume | 6.254×1013 km3 (57.74 Earths) |
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Mass | 1.0243×1026 kg (17.147 Earths) |
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Mean density | 1.638 g/cm3 | ||||||
Equatorial gravity (At 1 bar) |
11.15 m/s2 (1.14 g) |
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Escape velocity | 23.5 km/s | ||||||
Rotation period | 16.11 h (16 h 6 min 36 s) 1 | ||||||
Rotation velocity | 2.68 km/s = 9660 km/h (at the equator) | ||||||
Axial tilt | 28.32° | ||||||
Right ascension of North pole |
299.33° (19 h 57 min 20 s) | ||||||
Declination | 42.95° | ||||||
Albedo | 0.41 | ||||||
Surface temp. |
|
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Adjective | Neptunian | ||||||
Atmospheric characteristics | |||||||
Atmospheric pressure | ≫100 kPa | ||||||
Hydrogen - H2 | 80% ±3.2% | ||||||
Helium - He | 19% ±3.2% | ||||||
Methane - CH4 | 1.5% ±0.5% | ||||||
Hydrogen Deuteride - HD | 192 ppm | ||||||
Ethane - C2H6 | 1.5 ppm | ||||||
Neptune (IPA: /ˈnɛpt(j)uːn/) is the eighth planet in our solar system. It is the fourth-largest planet by diameter and the third-largest by mass; Neptune is 17 times the mass of Earth and is slightly more massive than its near twin Uranus which is 14 Earth Masses, but slightly smaller due to its higher density. The planet is named after the Roman god of the sea. Its astronomical symbol (♆, Unicode U+2646) is a stylized version of Poseidon's Trident.
Neptune's atmosphere is primarily composed of hydrogen and helium, with traces of methane that account for the planet's blue appearance. Neptune's blue colour is much more vivid than that of Uranus, which has a similar amount of methane, so an unknown component is presumed to cause Neptune's intense colour. [1] Neptune also has the strongest winds of any planet in the solar system, with estimates as high as 2,500 km/h or 1,500 mph. At the time of the 1989 Voyager 2 flyby, it had in its southern hemisphere a Great Dark Spot comparable to the Great Red Spot on Jupiter. Neptune's temperature at its cloud tops is usually close to −210℃ (−346°F), one of the coldest in the solar system, due to its long distance from the sun. Neptune's center is about 7,000℃ (13,000°F), however, hotter than the sun's surface. This is due to extremely hot gases and rock in the center.
Faint azure coloured rings have been detected around the blue planet, but are much less substantial than those of Saturn. When these rings were discovered by a team led by Edward Guinan, it was thought that they might not be complete. However, this was disproved by Voyager 2. Neptune possesses thirteen confirmed moons. Neptune's largest moon, Triton, is notable for its retrograde orbit, extreme cold (38K), and extremely tenuous (14 microbar) nitrogen/methane atmosphere.
Discovered on September 23, 1846, Neptune is notable for being the first planet discovered based on mathematical prediction rather than regular observations. Perturbations in the orbit of Uranus led astronomers to deduce Neptune's existence. It has been visited by only one spacecraft, Voyager 2, which flew by the planet on August 25, 1989. In 2003, there was a proposal to NASA's "Vision Missions Studies" to implement a "Neptune Orbiter with Probes" mission that does Cassini-level science without fission-based electric power or propulsion. The work is being done in conjunction with JPL and the California Institute of Technology.[2]
Contents |
[edit] Discovery
Galileo's astronomical drawings show that he had first observed Neptune on December 27, 1612, and again on January 27, 1613; on both occasions Galileo had mistaken Neptune for a fixed star when it appeared very close (in conjunction) to Jupiter in the night sky. Believing it to be a fixed star, he cannot be credited with its discovery. At the time Galileo first observed Neptune on December 28, 1612, it was stationary in the sky because it had just turned retrograde that very day;[citation needed] because it was only beginning its yearly retrograde cycle, Neptune's motion was far too slight to be detected with Galileo's small telescope.
In 1821, Alexis Bouvard published astronomical tables of the orbit of Uranus[3]. Subsequent observations revealed substantial deviations from the tables, leading Bouvard to hypothesize some perturbing body. In 1843, John Couch Adams calculated the orbit of an eighth planet that would account for Uranus' motion. He sent his calculations to Sir George Airy, the Astronomer Royal, who asked Adams for a clarification. Adams began to draft a reply but never sent it.
In 1846, Urbain Le Verrier, independently of Adams, produced his own calculations but also experienced difficulties in encouraging any enthusiasm in his compatriots. However, in the same year, John Herschel started to champion the mathematical approach and persuaded James Challis to search for the planet.
After much procrastination, Challis began his reluctant search in July 1846. However, in the meantime, Le Verrier had convinced Johann Gottfried Galle to search for the planet. Though still a student at the Berlin Observatory, Heinrich d'Arrest suggested that a recently drawn chart of the sky, in the region of Le Verrier's predicted location, could be compared with the current sky to seek the displacement characteristic of a planet, as opposed to a fixed star. Neptune was discovered that very night, September 23, 1846, within 1° of where Le Verrier had predicted it to be, and about 10° from Adams' prediction. Challis later realized that he had observed the planet twice in August, failing to identify it owing to his casual approach to the work.
In the wake of the discovery, there was much nationalistic rivalry between the French and the British over who had priority and deserved credit for the discovery. Eventually an international consensus emerged that both Le Verrier and Adams jointly deserved credit. However, the issue is now being re-evaluated by historians with the rediscovery in 1998 of the "Neptune papers" (historical documents from the Royal Greenwich Observatory), which had apparently been misappropriated by astronomer Olin Eggen for nearly three decades and were only rediscovered (in his possession) immediately after his death. After reviewing the documents, some historians now suggest that Adams does not deserve equal credit with Le Verrier.[4]
[edit] Naming
Shortly after its discovery, Neptune was referred to simply as "the planet exterior to Uranus" or as "Le Verrier's planet." The first suggestion for a name came from Galle. He proposed the name Janus. In England, Challis put forth the name Oceanus, particularly appropriate for a seafaring people. In France, Arago suggested that the new planet be called Leverrier, a suggestion which was met with stiff resistance outside France. French almanacs promptly reintroduced the name Herschel for Uranus and Leverrier for the new planet.
Meanwhile, on separate and independent occasions, Adams suggested altering the name Georgian to Uranus, while Leverrier (through the Board of Longitude) suggested Neptune for the new planet. Struve came out in favor of that name on December 29, 1846, to the Saint Petersburg Academy of Sciences.[5] Soon Neptune became the internationally accepted nomenclature. In Roman mythology, Neptune was the god of the sea, identified with the Greek Poseidon. The demand for a mythological name seemed to be in keeping with the nomenclature of the other planets, all of which, except for Uranus, were named in antiquity.
The planet's name is translated literally as the sea king star in the Chinese,[6] Korean, Japanese, and Vietnamese languages (海王星 in Chinese characters, 해왕성 in Korean).
In India the name given to the planet is Varuna (Devanagari वरुण); who is god of Sea in Vedic / Hindu mythology. Though, this would have been a more apt name for the planet Uranus which is Greek mythological equivalent of Varuna.
[edit] Physical characteristics
[edit] Relative size
At 1.0243×1026 kg Neptune is an intermediate body between Earth and the largest gas giants: it is seventeen Earth masses but just 1/18th the mass of Jupiter. It and Uranus are often considered a sub-class of gas giant termed "ice giants", given their smaller size and important differences in composition relative to Jupiter and Saturn. In the search for extra-solar planets Neptune has been used as a metonym: discovered bodies of similar mass are often referred to as "Neptunes"[7] just as astronomers refer to various extra-solar "Jupiters."
[edit] Composition
Orbiting so far from the sun, Neptune receives very little heat with the uppermost regions of the atmosphere at −218 °C (55 K). Deeper inside the layers of gas, however, the temperature rises steadily. It is thought that this may be leftover heat generated by infalling matter during the planet's birth, now slowly radiating away into space.
The internal structure resembles that of Uranus. There is likely to be a core consisting of molten rock and metal, surrounded by a mixture of rock, water, ammonia, and methane. There is no solid surface and the atmosphere, extending perhaps 10 to 20 percent of the way towards the center, is mostly hydrogen and helium at high altitudes (80% and 19%, respectively). Increasing concentrations of methane, ammonia, and water are found as the dark, hotter and lower regions atmosphere approaches and finally blends into the superheated liquid interior. The pressure at the center of Neptune is millions of times more than that on the surface of Earth. Comparing its rotational speed to its degree of oblateness indicates that it has its mass less concentrated towards the center than does Uranus.
[edit] Magnetic field
Neptune also resembles Uranus in its magnetosphere, with a magnetic field strongly tilted relative to its rotational axis at 47° and offset at least 0.55 radii (about 13,500 kilometres) from the planet's physical center. Comparing the magnetic fields of the two planets, scientists think the extreme orientation may be characteristic of flows in the interior of the planet and not the result of Uranus' sideways orientation.
[edit] Weather
One difference between Neptune and Uranus is the level of meteorological activity. Uranus is visually quite bland, while Neptune's high winds come with notable weather phenomena. Neptune's atmosphere has the highest wind speeds in the solar system, thought to be powered by the flow of internal heat, and its weather is characterized by extremely violent hurricanes, with winds reaching up to 2000 km/h.
In 1989, the Great Dark Spot, a cyclonic storm system the size of Eurasia, was discovered by NASA's Voyager 2 spacecraft. The storm resembled the Great Red Spot of Jupiter. However, on November 2, 1994 the Hubble Space Telescope did not see the Great Dark Spot on the planet. Instead, a new storm similar to the Great Dark Spot was found in the planet's northern hemisphere. The reason for the Great Dark Spot's disappearance is unknown. Many scientists believe heat transfer from the planet's core disrupted the atmospheric equilibrium and disrupted existing circulation patterns. The Scooter is another storm described as a white cloud south of the Great Dark Spot. The Wizard's eye (Great Dark Spot 2) is a southern hurricane, the second most intensive hurricane on the planet.
Unique among the gas giants is the presence of high clouds casting shadows on the opaque cloud deck below. Though Neptune's atmosphere is much more dynamic than that of Uranus, both planets are made of the same gases and ices. Uranus and Neptune are not strictly gas giants similar to Jupiter and Saturn, but are rather ice giants, meaning they have a larger solid core and are also made of ices. Neptune is very cold, with temperatures as low as -224°C (-372°F) recorded at the cloud tops in 1989.
[edit] Exploration of Neptune
The closest approach of Voyager 2 to Neptune occurred on August 25, 1989. Since this was the last major planet the spacecraft could visit, it was decided to make a close flyby of the moon Triton, regardless of the consequences to the trajectory, similarly to what was done for Voyager 1's encounter with Saturn and its moon Titan.
The probe also discovered the Great Dark Spot, which has since disappeared, according to Hubble Space Telescope observations. Originally thought to be a large cloud itself, it was later postulated to be a hole in the visible cloud deck.
Neptune turned out to have the strongest winds of all the solar system's gas giants. In the outer regions of the solar system, where the Sun shines over 1000 times fainter than on Earth (still very bright with a magnitude of -21), the last of the four giants defied all expectations of the scientists.
One might expect that the farther one gets from The Sun, the less energy there would be to drive the winds around. The winds on Jupiter were already hundreds of kilometres per hour. Rather than seeing slower winds, the scientists found faster winds (over 1600 km/h) on more distant Neptune.
Scientists now know why this is the case —if enough energy is produced, turbulence is created, which slows the winds down (like those of Jupiter). At Neptune however, there is so little energy, that once winds are started, they meet very little resistance, and are able to maintain extremely high velocities.
[edit] Planetary rings
Neptune has a faint planetary ring system of unknown composition. The rings have a peculiar "clumpy" structure, the cause of which is not currently understood but which may be due to the gravitational interaction with small moons in orbit near them.
Evidence that the rings are incomplete first arose in the mid-1980s, when stellar occultation experiments were found to occasionally show an extra "blink" just before or after the planet occulted the star. Images by Voyager 2 in 1989 settled the issue, when the ring system was found to contain several faint rings. The outermost ring, Adams, contains three prominent arcs now named Liberté, Egalité, and Fraternité (Liberty, Equality, and Fraternity). The existence of arcs is very difficult to understand because the laws of motion would predict that arcs spread out into a uniform ring over very short timescales. The gravitational effects of Galatea, a moon just inward from the ring, are now believed to confine the arcs.
Several other rings were detected by the Voyager cameras. In addition to the narrow Adams Ring 63,000 km from the centre of Neptune, the Leverrier Ring is at 53,000 km and the broader, fainter Galle Ring is at 42,000 km. A faint outward extension to the Leverrier Ring has been named Lassell; it is bounded at its outer edge by the Arago Ring at 57,000 km.[8]
New Earth-based observations announced in 2005 appeared to show that Neptune's rings are much more unstable than previously thought. In particular, it seems that the Liberté ring might disappear in as little as one century. The new observations appear to throw our understanding of Neptune's rings into considerable confusion.[9]
Name of ring | Radius (km) | Width (km) | Notes |
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1989 N3R ('Galle') | 41,900 | 15 | Named after Johann Galle |
1989 N2R ('Leverrier') | 53,200 | 15 | Named after Urbain Le Verrier |
1989 N4R ('Lassell') | 55,400 | 6 | Named after William Lassell |
Arago Ring | 57,600 | - | Named after François Arago |
Liberté Ring Arc | 62,900 | - | "Leading" arc |
Égalité Ring Arc | 62,900 | - | "Equidistant" arc |
Fraternité Ring Arc | 62,900 | - | "Trailing" arc |
Courage Ring Arc | 62,900 | - | |
1989 N1R ('Adams') | 62,930 | <50 | Named after John Couch Adams |
[edit] Natural satellites
Neptune has 13 known moons. The largest by far, and the only one massive enough to be spheroidal, is Triton, discovered by William Lassell just 17 days after the discovery of Neptune itself. Unlike all other large planetary moons, Triton has a retrograde orbit, indicating that it was captured, and probably represents a large example of a Kuiper Belt object (although clearly no longer in the Kuiper Belt). It is close enough to Neptune to be locked into a synchronous orbit, and is slowly spiraling inward and eventually will be torn apart when it reaches the Roche limit. Triton is the coldest object that has been measured in the solar system, with temperatures of 38.15K (-235°C, -392°F).
Triton, compared to Earth's Moon | |||||
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Name |
Diameter (km) |
Mass (kg) |
Orbital radius (km) | Orbital period (days) | |
Triton | trye'-tən ˈtraɪtən |
2700 (80% Luna) |
2.15×1022 (30% Luna) |
354,800 (90% Luna) |
-5.877 (20% Luna) |
Neptune's second known satellite, the irregular moon Nereid, has one of the most eccentric orbits of any satellite in the solar system.
From July to September 1989, Voyager 2 discovered six new Neptunian moons. Of these, the irregularly shaped Proteus is notable for being as large as a body of its density can be without being pulled into a spherical shape by its own gravity. Although the second most massive Neptunian moon, it is only one quarter of one percent of the mass of Triton. Neptune's innermost four moons, Naiad, Thalassa, Despina, and Galatea, orbit close enough to be within Neptune's rings. The next farthest out, Larissa was originally discovered in 1981 when it had occulted a star. This was attributed to ring arcs, but when Voyager 2 observed Neptune in 1989, it was found to have been caused by the moon. Five new irregular moons discovered between 2002 and 2003 were announced in 2004.[10] [11] As Neptune was the Roman god of the sea, the planet's moons have been named after lesser sea gods.
- For a timeline of discovery dates, see Timeline of discovery of Solar System planets and their natural satellites
[edit] Appearance and visibility from Earth
Neptune is never visible with the naked eye. The brightness of Neptune is between magnitudes +7.7 and +8.0, so a telescope or binoculars are required to observe it. With the use of a telescope it appears as a small blue-green disk, similar in appearance to Uranus; the blue-green colour comes from the methane in its atmosphere. Its small apparent size has made it almost impossible to study visually; even observatory data was fairly poor until the advent of adaptive optics.
With an orbital period of 165 years, Neptune will soon return to the approximate position in the sky where Galle discovered it. This will happen three different times. These are April 11, 2009, when it will be in prograde motion; July 17, 2009, when it will be in retrograde motion; and finally for the last time for the next 165 years, on February 7, 2010. This is explained by the concept of retrogradation. Like all planets in the solar system beyond Earth, Neptune undergoes retrogradation at certain points during its synodic period. In addition to the start of retrogradation, other events within the synodic period include astronomical opposition, the return to prograde motion, and conjunction to the Sun.
In its orbit around the Sun, Neptune will return to its original point of discovery in August 2011.
- See also: Aspects of Neptune
[edit] Voyager flyby
In 1989, Voyager II flew by Neptune and the images relayed back to Earth became the basis of a PBS all-night program called Neptune All Night.
[edit] See also
- Planets in astrology - Neptune
- Neptune in fiction
- Neptune Orbiter - Proposed space probe to Neptune to be launched in 2017
- Neptune Trojans - asteroids orbiting in Neptune's Lagrangian points
[edit] Notes
- ^ "Neptune overview," Solar System Exploration, NASA.
- ^ T. R. Spilker and A. P. Ingersoll (November 9, 2004). Outstanding Science in the Neptune System From an Aerocaptured Vision Mission. 36th DPS Meeting, Session 14 Future Missions.
- ^ A. Bouvard (1821), Tables astronomiques publiées par le Bureau des Longitudes de France, Paris, FR: Bachelier
- ^ William Sheehan, Nicholas Kollerstrom, Craig B. Waff (December 2004). The Case of the Pilfered Planet - Did the British steal Neptune? Scientific American.
- ^ Second report of proceedings in the Cambridge Observatory relating to the new Planet (Neptune) (1847). Astronomische Nachrichten, volume 25, p.309. Found at articles.adsabs.harvard.edu.
- ^ Using Eyepiece & Photographic Nebular Filters, Part 2 (October 1997). Hamilton Amateur Astronomers at amateurastronomy.org.
- ^ "Trio of Neptunes", Astrobiology Magazine, May 21, 2006.
- ^ Gazetteer of Planetary Nomenclature Ring and Ring Gap Nomenclature (December 8, 2004). USGS - Astrogeology Research Program.
- ^ Neptune's rings are fading away (March 26, 2005). New Scientist.
- ^ Holman, Matthew J. et. al. (August 19, 2004). Discovery of five irregular moons of Neptune. Nature, p. 865 - 867.
- ^ Five new moons for planet Neptune (August 18, 2004). BBC News.
[edit] References
- Adams, J. C., "Explanation of the observed irregularities in the motion of Uranus, on the hypothesis of disturbance by a more distant planet", Monthly Notices of the Royal Astronomical Society, Vol. 7, p. 149, November 13, 1846.
- Airy, G. B., "Account of some circumstances historically connected with the discovery of the planet exterior to Uranus", Monthly Notices of the Royal Astronomical Society, Vol. 7, pp. 121-144, November 13, 1846.
- Challis, J., Rev., "Account of observations at the Cambridge observatory for detecting the planet exterior to Uranus", Monthly Notices of the Royal Astronomical Society, Vol. 7, pp. 145-149, November 13, 1846.
- Dale P. Cruikshank (1995). Neptune and Triton. ISBN 0-8165-1525-5.
- Galle, "Account of the discovery of the planet of Le Verrier at Berlin", Monthly Notices of the Royal Astronomical Society, Vol. 7, p. 153, November 13, 1846.
- Lunine J. I. (1993). "The Atmospheres of Uranus and Neptune". Annual Review of Astronomy and Astrophysics 31: 217-263. DOI:10.1146/annurev.aa.31.090193.001245.
- Ellis D. Miner et Randii R. Wessen (2002). Neptune: The Planet, Rings, and Satellites. ISBN 1-85233-216-6.
- Smith, Bradford A. "Neptune." World Book Online Reference Center. 2004. World Book, Inc. Accessed at nasa.gov.
- Scott S. Sheppard, Chadwick A. Trujillo A Thick Cloud of Neptune Trojans and Their Colors, Science, June 2006.
[edit] External links
Dictionary definitions from Wiktionary
Textbooks from Wikibooks
Quotations from Wikiquote
Source texts from Wikisource
Images and media from Commons
News stories from Wikinews
Learning resources from Wikiversity
- NASA's Neptune fact sheet
- MPC's List Of Neptune Trojans
- Planets - Neptune A kid's guide to Neptune.
Future missions to Neptune
- Popular Science article
- Universe Today
- Scientific American Magazine (December 2004 Issue) The Case of the Pilfered Planet
edit Neptune's natural satellites |
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Naiad · Thalassa · Despina · Galatea · Larissa · Proteus Triton Nereid · S/2002 N 1 · S/2002 N 2 · S/2002 N 3 · Psamathe · S/2002 N 4 |
See also: Neptune Trojans · Rings of Neptune |
The Sun · Mercury · Venus · Earth · Mars · Ceres · Jupiter · Saturn · Uranus · Neptune · Pluto · Eris |
Planets · Dwarf planets · Moons: Terran · Martian · Asteroidal · Jovian · Saturnian · Uranian · Neptunian · Plutonian · Eridian |
Small bodies: Meteoroids · Asteroids (Asteroid belt) · Centaurs · TNOs (Kuiper belt/Scattered disc) · Comets (Oort cloud) |
See also astronomical objects and the solar system's list of objects, sorted by radius or mass. |
[edit] Special characters