Uranus’s Moons
Uranus seen from Umbriel
Miranda Uranus's Moons Miranda Ariel
HISTORY
Uranus has twenty-seven known moons. The first two moons (Titania and Oberon) were discovered by William Herschel on March 13, 1787. Two more moons (Ariel and Umbriel) were discovered by William Lassell in 1851. In 1852, Herschel's son John Herschel gave the four then-known moons their names. In 1948 Gerard Kuiper discovered the moon Miranda.
The flyby of the Voyager 2 space probe in January 1986 led to the discovery of a further 10 inner moons, and another satellite Perdita was later found after studying old Voyager photographs. Two more small inner moons were discovered by astronomers using the Hubble Space Telescope. Until 1997, Uranus was the only giant planet with no known irregular satellites. Since then, nine distant irregular moons have been identified using ground-based telescopes.
The region between the main rings and Miranda appears to be very crowded. The small moons there are constantly perturbed by each other. The system is chaotic and apparently unstable, and simulations show that the moons may perturb each other into crossing orbits which may result in collisions between the moons.[1]
Unlike most planetary moons, which are named from antiquity, all the moons of Uranus are named after characters from the works of Shakespeare and Alexander Pope--specifically Pope's The Rape of the Lock.
Basic Physical Data:
| Order |
Name (spheroidal moons in bold)
(Pronunciation key)
|
Image |
Mean diameter (km) |
Mass (kg) |
Semi-major
axis (km)
|
Orbital period (day) |
Inclination (°)
(to Uranus' equator)
|
Discovery date |
| 1 |
Uranus VI |
Cordelia |
IPA: [kʰɔɹˈdi.li.ə] |
|
40 ± 6 |
4.5×1016? |
49,770 |
0.335034 |
0.147° |
1986 |
| 2 |
Uranus VII |
Ophelia |
IPA: [oʊˈfi.li.ə] |
|
43 ± 8 |
5.4×1016? |
53,790 |
0.376400 |
0.093° |
1986 |
| 3 |
Uranus VIII |
Bianca |
IPA: [baɪˈæŋ.kə] |
|
51 ± 4 |
9.3×1016? |
59,170 |
0.434579 |
0.162° |
1986 |
| 4 |
Uranus IX |
Cressida |
IPA: [ˈkʰɹɛ.sə.də] |
|
80 ± 4 |
3.43×1017? |
61,780 |
0.463570 |
0.038° |
1986 |
| 5 |
Uranus X |
Desdemona |
IPA: [ˌdɛz.dəˈmoʊ.nə] |
|
64 ± 8 |
1.78×1017? |
62,680 |
0.473650 |
0.164° |
1986 |
| 6 |
Uranus XI |
Juliet |
IPA: [ˈdʒu.liˌɛt] |
|
94 ± 8 |
5.57×1017? |
64,350 |
0.493065 |
0.056° |
1986 |
| 7 |
Uranus XII |
Portia |
IPA: [ˈpʰɔɹ.ʃə] |
|
135 ± 8 |
1.68×1018? |
66,090 |
0.513196 |
0.087° |
1986 |
| 8 |
Uranus XIII |
Rosalind |
IPA: [ˈɹɑ.zəˌlɪnd] |
|
72 ± 12 |
2.54×1017? |
69,940 |
0.558460 |
0.285° |
1986 |
| 9 |
Uranus XXVII |
Cupid |
IPA: [ˈkʰju.pɪd] |
|
~ 17.8 |
3.8×1015? |
74,800 |
0.618 |
0.1° |
2003 |
| 10 |
Uranus XIV |
Belinda |
IPA: [bəˈlɪn.də] |
|
81 ± 16 |
3.57×1017? |
75,260 |
0.623527 |
0.031° |
1986 |
| 11 |
Uranus XXV |
Perdita |
IPA: [ˈpʰɚ.də.tə] |
|
~ 26.6 |
1.3×1016? |
76,420 |
0.638 |
0.07° |
1986 |
| 12 |
Uranus XV |
Puck |
IPA: [ˈpʰʌk] |
|
162 ± 4 |
2.89×1018? |
86,010 |
0.761833 |
0.318° |
1985 |
| 13 |
Uranus XXVI |
Mab |
IPA: [ˈmæb] |
|
~ 24.8 |
1.0×1016? |
97,734 |
0.923 |
0.1335° |
2003 |
| 14 |
Uranus V |
Miranda |
IPA: [mɪˈɹæn.də] |
|
471.6 ± 1.4 |
(6.6 ± 0.7)×1019 |
129,390 |
1.413479 |
4.232° |
1948 |
| 15 |
Uranus I |
Ariel |
IPA: [ˈe.ɹiˌɛl] |
|
1157.8 ± 1.2 |
(1.35 ± 0.12)×1021 |
191,020 |
2.520379 |
0.260° |
1851 |
| 16 |
Uranus II |
Umbriel |
IPA: [ˈʌm.bɹiˌɛl] |
|
1169.4 ± 5.6 |
(1.17 ± 0.13)×1021 |
266,300 |
4.144177 |
0.205° |
1851 |
| 17 |
Uranus III |
Titania |
IPA: [tʰaɪˈtʰeɪ.ni.ə] |
|
1577.8 ± 3.6 |
(3.53 ± 0.09)×1021 |
435,910 |
8.705872 |
0.340° |
1787 |
| 18 |
Uranus IV |
Oberon |
IPA: [ˈoʊ.bəˌɹɑn] |
|
1522.8 ± 5.2 |
(3.01 ± 0.07)×1021 |
583,520 |
13.463239 |
0.058° |
1787 |
| 19 |
Uranus XXII |
Francisco |
IPA: [frænˈsɪ.skoʊ] |
|
~ 12 |
1.3×1015? |
4,276,000 |
-267.12** |
147.459° |
2001 |
| 20 |
Uranus XVI |
Caliban |
IPA: [ˈkʰæ.ləˌbæn] |
|
~ 98 |
7.3×1017? |
7,231,000 |
-579.39** |
139.885° |
1997 |
| 21 |
Uranus XX |
Stephano |
IPA: [ˈstɛ.fəˌnoʊ] |
|
~ 20 |
6×1015? |
8,004,000 |
-677.48** |
141.873° |
1999 |
| 22 |
Uranus XXI |
Trinculo |
IPA: [ˈtʰɹɪŋ.kjəˌloʊ] |
|
~ 10 |
7.5×1014? |
8,504,000 |
-748.83** |
166.252° |
2001 |
| 23 |
Uranus XVII |
Sycorax |
IPA: [ˈsɪ.kəˌɹæks] |
|
~ 190 |
5.4×1018? |
12,179,000 |
-1285.62** |
152.456° |
1997 |
| 24 |
Uranus XXIII |
Margaret |
IPA: [ˈmaɹ.gəˌɹɛt] |
|
~ 11 |
1.3×1015? |
14,345,000 |
+1654.32 |
51.455° |
2003 |
| 25 |
Uranus XVIII |
Prospero |
IPA: [ˈpʰɹɑ.spəˌɹoʊ] |
|
~ 30 |
2.1×1016? |
16,256,000 |
-1962.95** |
146.017° |
1999 |
| 26 |
Uranus XIX |
Setebos |
IPA: [ˈsɛ.təˌbɑs] |
|
~ 30 |
2.1×1016? |
17,418,000 |
-2196.35** |
145.883° |
1999 |
| 27 |
Uranus XXIV |
Ferdinand |
IPA: [ˈfɚ.dəˌnænd] |
|
~ 12 |
1.3×1015? |
20,901,000 |
-2805.51** |
167.346° |
2001 |
URanuS!
Diameter- 51,800 kilometers (32,190 miles)
Distance from the Sun- 2.87 billion kilometers (1.78 billion miles)
Rotation Period- -17.9
Revolution Period- 17.24 hrs
It is Retrograde
Tilt/Axis- Tilted 60 degrees from the planet's axis of rotation
There are magnetic fields- The magnetic field source is unknown; the electrically conductive, super-pressurized ocean of water and ammonia once thought to lie between the core and the atmosphere now appears to be nonexistent. The magnetic fields of Earth and other planets are believed to arise from electrical currents produced in their molten cores.
Average Density (gm/cm^3) - 1.29
Atmospheric composition- Hydrogen Helium Methane. The interior/Uranus's core is composed of rock and ice, and is likely no more than one Earth mass. Uranus appears to be composed of a mantle rich in water, methane, ammonia, and other elements.
Surface Temperature- (moon of Miranda: surface temperature is measured to be -187° C or -335° F with icy material on the crust.)
Atmospheric temperatures- On average, Uranus radiates the same amount of energy as an ideal, perfectly absorbing surface at a temperature of 59.1 kelvins (K; -353 °F, -214 °C). This radiation temperature is equal to the physical temperature of the atmosphere at a pressure of about 0.4 bar.
85% Hydrogen, 12% helium and 3% methane.
---------------
avg in diameter
|
Cordelia
Ophelia
Bianca
Cressida
Desdemona
Juliet
Portia
Rosaline
Belinda
Puck
Miranda
Ariel
Umbrial
Titania
Oberon
|
25
30
45
65
60
85
110
60
68
155
470
1160
1170
1580
1520
|
Planet Object Geology:
Surface/ Atmospheric Temperatures-
-
Many moons are icy moons with fascinating surface features.
-
These icy moons have no atmosphere or magnetosphere.
-
The interiors of these moons are not active, and there is not much possibility for life.
Geologically Active-
-
Miranda is geologically the most active body in the Uranus system.
-
Because the moon is large in comparison with Earth, the Earth-moon system is sometimes called a double planet.
-
Dwarf planets can also have moons.
-
Miranda is one of the most geologically active moons in the Uranus system.
On Miranda, there are many geological features such as
- Craters
- Coronae
- Regions
- Scarps
- Sulci
moons and rings:
Rings-
- 1986U2R
- 6
- 5
- 4
- Alpha
- Beta
- Eta
- Gamma
- Delta
- 1986U1R
- Epsilon
- Uranus's 27 known moons are accompanied by at least 10 narrow rings.
- Each of the countless particles that make up the rings can be considered a tiny moon in its own orbit.
- The rings are located closest to the planet, some small moons orbit just outside the rings, the largest moons orbit beyond them, and other small moons orbit much farther out.
- The orbits of the outermost group of moons are elongated.
-
***Uranus has 27 fascinating moons and a complicated ring system***
Characteristics:
- There is water ice on the five major moons.
- Volcanic deposits observed on the major moons are generally flat, with lobed edges and surface ripples characteristic of fluid flow.
- Water ice
- iron-bearing minerals
- carbon- originating from inside the moons or from Uranus's rings, which could have released methane gas that later decomposed to produce solid carbon when charged by particles and solar light.
All of Uranus's inner moons (those observed by Voyager 2) appear to be roughly half water ice and half rock. The composition of the moons outside the orbit of Oberon remains unknown, but they are likely captured asteroids.
Miranda, the innermost and smallest of the five major satellites, has a surface unlike any other moon that's been seen. It has giant fault canyons as much as 12 times as deep as the Grand Canyon, terraced layers, surfaces that appear very old, and others that look much younger.
Collisions between the tightly packed ring particles would naturally lead to an increase in the radial width of the rings.
Moons more massive than the rings can cause spreading in a process called shepherding.
- Shepherding moons are satellites that orbit along side a ring.
- Due to gravitational effects from the shepherding moon, the edges of the rings are kept sharp and distinct. If the shepherding moon was not present, then the ring material would have a tendency to spread out.
- If two satellites are orbiting on both sides of the ring, then ring will be constrained on both sides into a narrow band.
- Voyager 1 discovered the first pair of shepherding moons, Prometheus and Pandora, in 1981, shepherding the narrow F ring.
Source of Information we have:
Miranda Facts----
- Miranda is not one of the larger satellites of Uranus.
- It was the one that was approached the closest by Voyager 2. This was not the satellite scientists would have chosen to get close to if they had a choice, but they had no choice.
- Voyager 2 had to fly close to the planet in order to get the boost it needed to go to Neptune. The resolution at which the larger satellites were photographed was around 2 to 3 kilometers (1.2 to 1.9 miles).
- On the other hand, details on the order of a few hundred meters can be seen on Miranda. Fortunately, Miranda turned out to be the most remarkable of all the satellites.
Miranda
Sources
http://en.wikipedia.org/wiki/Uranus_moons
http://www.solarviews.com/eng/uranus.htm
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