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Margaret is the only known prograde irregular satellite of the moons of Uranus. It was discovered by Scott S. Sheppard, et al. in 2003 and given the provisional designation S/2003 U 3.[8]

Margaret
Discovery image of Margaret taken by the Subaru Telescope in August 2003
Discovery
Discovered by
Discovery dateAugust 29, 2003[1][2]
Designations
Designation
Uranus XXIII
Pronunciation/ˈmɑːrɡərət/[3]
AdjectivesMargaretian /ˌmɑːrɡəˈrɛtiən/[4]
Orbital characteristics
Mean orbit radius
14,345,000 km[5][6]
Eccentricity0.6608[6] (mean)
1687.01 d
Inclination57° (to the ecliptic)[5]
Satellite ofUranus
Physical characteristics
10 km (estimate)[7]
~1,300 km2 (estimate)
Volume~4,200 km3 (estimate)
Mass~5.5×1015 kg (estimate)
Mean density
~1.3 g/cm3 (assumed)
~0.0023 m/s2 (estimate)
~0.0085 km/s (estimate)
?
?
Albedo0.04 (assumed)[7]
Temperature~65 K (estimate)

Confirmed as Uranus XXIII, it was named after the servant of Hero in William Shakespeare's play Much Ado About Nothing.[1] The name was also chosen to match the name of Sheppard's mother.[9]

Orbit

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Animation of discovery images showing Margaret's motion relative to background stars and galaxies
 
Irregular satellites of Uranus

Margaret stands out as the only prograde irregular satellite of Uranus. The diagram illustrates the orbital parameters of Margaret, unique among the irregular satellites of Uranus, with inclination on the vertical axis and the eccentricity of the orbits represented by the segments extending from the pericentre to the apocentre.

Margaret's inclination of 57° is close to the limit of stability. The intermediate inclinations 60 < i < 140 are devoid of known moons due to the Kozai instability.[10] In this instability region, solar perturbations at apoapse cause the moons in this region to acquire large eccentricities that lead to collisions or ejection over 10 million to a billion years. Margaret's periapsis precession period (Pw) is almost 1.6 million years long.[6] Margaret itself may be ejected from the Uranian system in the far future.[11]

Margaret's orbit is subject to solar and planetary perturbations; thus, its orbital elements are variable over short timescales. Over a timescale of 8,000 years, the average orbital eccentricity of Margaret is 0.68. In 2010, its eccentricity grew to 0.81,[12] temporarily making Margaret with the most eccentric orbit of any moon in the Solar System, though Nereid's average eccentricity of 0.75 is greater.[6]

See also

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References

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  1. ^ a b Blue, Jennifer (2008-10-16). "Planet and Satellite Names and Discoverers". Working Group for Planetary System Nomenclature (WGPSN). Retrieved 2008-12-19.
  2. ^ Sheppard, Scott S. "New Satellites of Uranus Discovered in 2003". Institute for Astronomy at the University of Hawaii. Archived from the original on 5 May 2008. Retrieved 2008-12-19.
  3. ^ Benjamin Smith (1903) The Century Dictionary and Cyclopedia
  4. ^ Cathcart (1971) The Duchess of Kent
  5. ^ a b Sheppard, Jewitt & Kleyna 2005, p. 523, Table 3.
  6. ^ a b c d Jacobson, R.A. (2003) URA067 (2007-06-28). "Planetary Satellite Mean Orbital Parameters". JPL/NASA. Retrieved 2008-01-23.{{cite web}}: CS1 maint: numeric names: authors list (link)
  7. ^ a b Sheppard, Jewitt & Kleyna 2005, p. 523, Table 3 ... ri (km) ... 10 ... i Radius of satellite assuming a geometric albedo of 0.04.
  8. ^ IAU Circular 8217
  9. ^ Paul, Richard (2014). "The Shakespearean Moons of Uranus". folger.edu. Folger Shakespeare Library. Retrieved 25 February 2024. So, I just simply did a search for "Margaret," which was my Mom's name, on the Web, and "Shakespeare." And it came up with Much Ado about Nothing. And I said that's it, that's what I'll name it.
  10. ^ Sheppard, Jewitt & Kleyna 2005, pp. 524–525.
  11. ^ Brozovic, M.; Jacobson, R. A. (4 March 2009). "The Orbits of the Outer Uranian Satellites". The Astronomical Journal. 137 (4): 3834–42. Bibcode:2009AJ....137.3834B. doi:10.1088/0004-6256/137/4/3834.
  12. ^ "IAU-MPC Natural Satellites Ephemeris Service". IAU: Minor Planet Center. Retrieved 2008-01-26. (Select Uranian, deselect Ephemerides and select Orbital Elements)
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