Uranus

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Uranus Astronomical symbol of Uranus
The planet Uranus

Uranus, as seen by Voyager 2

Discovery
Discovered by William Herschel
Discovered on March 13, 1781
Orbital characteristics (Epoch J2000)
Semi-major axis 2,870,972,220 km
19.191 263 93 AU
Orbital circumference 18.029 Tm
120.515 AU
Eccentricity 0.047 167 71
Perihelion 2,735,555,035 km
18.286 055 96 AU
Aphelion 3,006,389,405 km
20.096 471 90 AU
Orbital period 30,707.4896 d
(84.07 a)
Synodic period 369.65 d
Orbital speed 6.795 km/s
Max. orbital speed 7.128 km/s
Min. orbital speed 6.486 km/s
Inclination 0.769 86°
(6.48° to Sun's equator)
Longitude of the
ascending node
74.229 88°
Argument of the
perihelion
96.734 36°
Number of satellites 27
Physical characteristics
Equatorial diameter 51,118 km
(4.007 Earths)
Polar diameter 49,946 km
(3.929 Earths)
Oblateness 0.0229
Surface area 8.084×109 km2
(15.849 Earths)
Volume 6.834×1013 km3
(63.086 Earths)
Mass 8.6832×1025 kg
(14.536 Earths)
Mean density 1.318 g/cm3
Equatorial gravity 8.69 m/s2
(0.886 g)
Escape velocity 21.29 km/s
Rotation period −0.718 33 d (17 h 14 min 24 s
by convention)
Rotation velocity 2.59 km/s = 9320 km/h (at the equator)
Axial tilt 97.77°
Right ascension
of North pole
77.31° (5 h 9 min 15 s)
Declination +15.175°
Albedo 0.51
Cloudtop avg. temp. 55 K
Surface temp.
min mean max
59 K 68 K N/A
Adjective Uranian
Atmospheric characteristics
Atmospheric pressure 120 kPa (at the cloud level)
Hydrogen 83%
Helium 15%
Methane 1.99%
Ammonia 0.01%
Ethane 0.00025%
Acetylene 0.00001%
Carbon monoxide
Hydrogen sulfide
trace

Uranus is the seventh planet from the Sun. It is the third largest by diameter and fourth largest by mass. Uranus is similar in composition to Neptune, and both have bulk chemical compositions which differ from that of the larger gas giants Jupiter and Saturn. For this reason, scientists often classify Uranus and Neptune as "ice giants" to distinguish them from the other giant planets. It is named after Uranus, the Greek god of the sky and progenitor of the other gods. Its symbol is either Uranus's astrological symbol.svg (astrological) or Astronomical symbol for Uranus (astronomical). The first symbol derives from the name of its discoverer, William Herschel. The second symbol is a combination of the devices for the Sun and Mars, as Uranus was the personification of heaven in Greek mythology, dominated by the light of the Sun and the power of Mars. It is also the alchemical symbol of platinum.

NASA's Voyager 2 is the only spacecraft to have visited the planet and no other visits are currently planned. Launched in 1977, Voyager 2 made its closest approach to Uranus on January 24, 1986, before continuing its journey to Neptune.

Uranus is the first planet discovered in the modern era. Sir William Herschel formally discovered the planet on March 13, 1781. The other planets, (from Mercury out to Saturn), have been known since ancient times, and Uranus' discovery expanded the boundaries of the Solar System for the first time in modern human history. It was also the first planet discovered using technology (a telescope) rather than the naked eye.

Visibility

The brightness of Uranus is between magnitude +5.5 and +6.0, so it can be seen with the naked eye as a faint star under dark sky conditions. It can be easily found with binoculars. From the Earth, it has a diameter of four arc-seconds. In larger amateur telescopes with an objective diameter greater than 12" (30cm) the planet appears as a pale blue disc with distinct limb shading, and two of the larger satellites, Titania and Oberon, may be visible. Even in large professional instruments no details can be seen on its disc. However, infrared studies of its atmosphere using adaptive optics have yielded interesting data in the years since the Voyager flyby.[1]

Discovery and naming

Uranus is the first planet to be discovered that was not known in ancient times. Sir William Herschel discovered it on March 13, 1781, but reported it as a "comet" on April 26, 1781.[2]

On the 13th of March, 1781, between ten and eleven o'clock at night, while Herschel was examining the small stars near H Geminorum with a seven-foot telescope, bearing a magnifying power of two hundred and twenty-seven times, one of these stars seemed to have an unusual diameter; and it was, therefore, thought to be a comet. It was under this denomination that it was discussed at the Royal Society of London. But the researches of Herschel and of Laplace showed later that the orbit of the new body was nearly circular, and Uranus was consequently elevated to the rank of a planet.[3]

Although Uranus had been observed on many previous occasions, it was often mistakenly identified as a star. The earliest recorded sighting was in 1690, when John Flamsteed cataloged Uranus as 34 Tauri. Flamsteed observed Uranus at least six more times. The record belongs to a French astronomer, Pierre Lemonnier, who observed Uranus at least 12 times between 1750 and 1771, including on four consecutive nights (Lemonnier realized 9 of these within a short time of Herschel's discovery, and most of his observations occurred at the stationary point in Uranus' orbit).

Size comparison of Earth and Uranus.

Herschel originally named it Georgium Sidus (George's Star) in honor of King George III of Great Britain (cf. American poet Elizabeth Graeme Fergusson's "Upon the Discovery of the Planet…" about the event). When it was pointed out that sidus means star and not planet, Herschel rebaptized it the Georgian Planet. This name was not acceptable outside of Britain. Lalande proposed, in 1784, to name it Herschel, at the same time that he created the planet's (astrological) symbol ("a globe surmounted by your initial"); his proposal was readily adopted by French astronomers. Prosperin, of Uppsala, proposed the names Astraea, Cybele, and Neptune (now borne by two asteroids and another planet). Lexell, of St. Petersburg, compromised with George III's Neptune and Great-Britain's Neptune. Bernoulli, from Berlin, suggested Hypercronius and Transaturnis. Lichtenberg, from Göttingen, chimed in with Austräa, a goddess mentioned by Ovid (but who is traditionally associated with Virgo). Finally, Bode, as editor of the Berliner Astronomisches Jahrbuch, opted for Uranus,[4] after the Latinized version of the Greek god of the sky, Ouranos; Maximilian Hell followed suit by using it in the first ephemeris, published in Vienna and computed by the Benedictine priest, Placido Fixlmillner.

The earliest publication to include Uranus in its title was in 1823.[5] The name was in use in Germany at least as far back as 1791, however.[6] Examination of earliest issues of Monthly Notices of the Royal Astronomical Society from 1827, shows that the name Uranus was already the most common name used even by British astronomers by then, and probably earlier. The name Georgium Sidus or "the Georgian" was still used infrequently (by the British alone) thereafter. The final holdout was HM Nautical Almanac Office, which did not switch to Uranus until 1850.

In the Chinese, Japanese, Korean, and Vietnamese languages, the planet's name is literally translated as the "sky king star," while in India it is named Aruna, the charioteer of the sun god Surya in Hindu mythology.

Physical characteristics

Composition

Uranus is composed primarily of gas and various ices. The atmosphere is about 83 percent hydrogen, 15 percent helium, 2 percent methane, and traces of acetylene. The interior is richer in heavier elements, most likely compounds of oxygen, carbon, and nitrogen, as well as rocky materials. This is in contrast to Jupiter and Saturn, which are mostly hydrogen and helium. Uranus (like Neptune) is very much similar to the cores of Jupiter and Saturn without the massive fluid metallic hydrogen envelope. Uranus' cyan color is due to the absorption of red light by atmospheric methane. Surface temperature on Uranus' cloud cover is approximately 55 K (−218 °C or −360 °F).[7]

Axial tilt

One of the most distinctive features of Uranus is its axial tilt of ninety-eight degrees. Consequently, for part of its orbit, one pole faces the Sun continually while the other pole faces away. At the other side of Uranus' orbit, the orientation of the poles towards the Sun is reversed. This gives each pole 42-years of continuous sunlight, followed by 42 years of darkness. Between these two extremes of its orbit, the Sun rises and sets around the equator normally.

At the time of Voyager 2's passage in 1986, Uranus' south pole was pointed almost directly at the Sun. The labeling of this pole as "south" uses the coordinate definitions currently endorsed by the International Astronomical Union, namely that the north pole of a planet or satellite shall be the pole which points above the invariable plane of the solar system (regardless of the direction the planet is spinning). A different system is sometimes used, defining a body's north and south poles according to the right-hand rule in relation to the direction of rotation. In terms of this latter coordinate system, it was Uranus' north pole which was in sunlight in 1986. On page 47 of the September 2006, issue of the Sky at Night magazine, Patrick Moore, commenting on the issue, sums it up with, "take your pick!"

One result of this orientation is that the polar regions of Uranus receive a greater energy input from the Sun than its equatorial regions. Uranus is nevertheless hotter at its equator than at its poles, although the underlying mechanism which causes this is unknown. The reason for Uranus' extreme axial tilt is also not known. In general, axial tilt of a planet can change significantly by an impact of relatively large body in the late stage of planetary formation in the early Solar System.

It appears that Uranus' extreme axial tilt also results in extreme seasonal variations in its weather. During the Voyager 2 flyby, Uranus' banded cloud patterns were extremely bland and faint. Recent Hubble Space Telescope observations, however, show a more strongly banded appearance now that the Sun is approaching Uranus' equator. The sun was directly over Uranus' equator in 2007.

Magnetic field

Uranus' magnetic field is peculiar, since it does not originate from the geometric center of the planet and is tilted almost 60° from the axis of rotation. It is probably generated by motion at relatively shallow depths within Uranus. Neptune has a similarly displaced magnetic field, which suggests the magnetic field is not necessarily a consequence of Uranus' axial tilt. The magnetotail is twisted by the planet's rotation into a long corkscrew shape behind the planet. The magnetic field's source is unknown.

Explanation for bland atmosphere

The internal heat of Uranus is lower than that of Jupiter and Saturn. Both Jupiter and Saturn radiate more energy than they receive from the Sun. This causes many powerful convection currents to form in the atmosphere. On Uranus, that heat source is much lower due to its lower mass, with the temperature of its core roughly 7,000 K compared to 30,000 K at Jupiter's core and 18,000 K at Saturn's. The convection currents formed in the Uranian atmosphere are not as strong and, hence, it lacks the atmosphere banding of the larger giants. However, as stated above, the weather patterns of Uranus do vary with season, being more pronounced at the equinoxes than at the solstices.

Cloud Features

For a short period in Autumn 2004, a number of large clouds appeared in the Uranian atmosphere, giving it a Neptune-like appearance. [8]

Planetary rings

Uranus with its rings in false color.

Uranus has a faint planetary ring system, composed of dark particulate matter up to ten meters in diameter. This ring system was discovered in March 1977, by James L. Elliot, Edward W. Dunham, and Douglas J. Mink, using the Kuiper Airborne Observatory. The discovery was serendipitous; they planned to use the occultation of a star by Uranus to study the planet's atmosphere. However, when their observations were analyzed, they found that the star had disappeared briefly from view five times both before and after it disappeared behind the planet. They concluded that there must be a ring system around the planet; it was directly detected when Voyager 2 passed Uranus in 1986. As of 2005, 13 rings had been identified. In December 2005, the Hubble Space Telescope photographed a pair of previously unknown rings. The largest is twice the diameter of the planet's previously known rings. The new rings are so far from the planet that they are being called Uranus' "second ring system." Hubble also spotted two small satellites. One shares its orbit with one of the newly discovered rings. The new data reveals that the orbits of Uranus' family of inner moons have changed significantly in the last decade.

In April 2006, information about the color of the outer rings was published, one of them appearing spectrally blue and the other red.[9] The rest of the planet's rings appear grey. The blue ring is thought to get its color from being swept by a moon, which may draw away all large debris, leaving only fine dust which refracts light in much the same way the Earth's atmosphere does.

Natural satellites

Uranus has 27 known natural satellites. The names for these satellites are chosen from characters from the works of Shakespeare and Alexander Pope. The five main satellites are Miranda, Ariel, Umbriel, Titania, and Oberon.

The main Uranian moons
(compared to Earth's Moon)
Name

(Pronunciation key)

Diameter
(km)
Mass
(kg)
Orbital radius
(km)
Orbital period
(d)
Miranda mə-ran'-də
/mɪˈrændə/
470
(14%)
7.0×1019
(0.1%)
129,000
(35%)
1.4
(5%)
Ariel arr'-ee-əl
/ˈɛəriəl/
1160
(33%)
14×1020
(1.8%)
191,000
(50%)
2.5
(10%)
Umbriel um'-bree-əl
/ˈʌmbriəl/
1170
(34%)
12×1020
(1.6%)
266,000
(70%)
4.1
(15%)
Titania tə-taan'-yə
/tɪˈtɑ:njə/ or /tɪˈteɪnjə/
1580
(45%)
35×1020
(4.8%)
436,000
(115%)
8.7
(30%)
Oberon oe'-bər-on
/ˈoʊbərɒn/
1520
(44%)
30×1020
(4.1%)
584,000
(150%)
13.5
(50%)
Major moons of Uranus in order of increasing distance (left to right), at their proper relative sizes and albedos (collage of Voyager 2 photographs)

Notes

  1. New Images Reveal Clouds on Planet Uranus Space.com, November 10, 2004. Retrieved August 7, 2022.
  2. Dr. Watson, Jun. of Bath, F. R. S. "Account of a Comet, By Mr. Herschel, F. R. S." Philosophical Transactions of the Royal Society of London 71 (1781): 492-501.
  3. M. Arago, "Herschel," Annual Report of the Board of Regents of the Smithsonian Institution (1781): 198-223.
  4. Mark Littmann, Planets Beyond: Discovering the Outer Solar System (Courier Dover Publications, 2004, ISBN 0486436020).
  5. Friedrich Magnus Schwerd, "Opposition des Uranus 1821," Astronomische Nachrichten 1 (1823): 18-21.
  6. Placido Fixlmillner Acta Astronomica Cremifanensia (Steyr, AT: Franz Josef Medter, 1791).
  7. J. I. Lunine, "The Atmospheres of Uranus and Neptune," Annual Review of Astronomy and Astrophysics 31 (1993): 217-263.
  8. Terry Devitt, Keck zooms in on the weird weather of Uranus Phys.org, October 17, 2012. Retrieved August 7, 2022.
  9. Robert Sanders, Blue ring discovered around Uranus UC Berkeley News, April 6, 2006. Retrieved August 7, 2022.

References
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External links

All links retrieved August 7, 2022.

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