31 Euphrosyne Explained

Minorplanet:yes
Background:
  1. D6D6D6
31 Euphrosyne
Discovered:September 1, 1854
Mpc Name:(31) Euphrosyne
Alt Names:A907 GP; A918 GB
Pronounced:[1]
Adjective:Euphrosynean [2]
Named After:Εὐφροσύνη Eyphrosynē
Epoch:April 27, 2019 (JD 2458600.5)
Semimajor:3.1554 AU
(472.041 Gm)
Perihelion:2.4585 AU
(367.786 Gm)
Aphelion:3.8523 AU
(576.296 Gm)
Eccentricity:0.2209
Period:5.61 yr (2041.585 d)
Inclination:26.3033°
Asc Node:31.1186°
Arg Peri:61.4704°
Mean Anomaly:87.1671°
Satellites:1
Mean Diameter:[3]

Dimensions:c/a =
× × km
Mass:
Density:
Rotation:0.230400 d (5.529595 h)
Spectral Type:C[4]
Magnitude:10.16[5] to 13.61
Abs Magnitude:6.74
Albedo:0.05
0.0543[6]

31 Euphrosyne is a very young asteroid. It is one of the largest asteroids (approximately tied for 7th place, to within measurement uncertainties). It was discovered by James Ferguson on September 1, 1854, the first asteroid found from North America. It is named after Euphrosyne, one of the Charites in Greek mythology. In 2019 a small companion was discovered. It is the third-roundest known asteroid (after 1 Ceres and 10 Hygiea); this is thought to be due to having re-accreted after being disrupted by a collision, and it is not close to hydrostatic equilibrium.

Observations

Euphrosyne is a fairly dark body near the belt's outer edge. Consequently, it is never visible with binoculars, having a maximum apparent magnitude at the best possible opposition of around +10.2 (as in November 2011), which is fainter than any of the thirty asteroids previously discovered.[7]

Euphrosyne has a high orbital inclination and eccentricity having nodes near perihelion and aphelion, Euphrosyne's perihelion lies at the northernmost point of its orbit. During perihelic oppositions, Euphrosyne is very high in the sky from northern latitudes and invisible from southern countries such as New Zealand and Chile.

Surface

Euphrosyne is a C-type asteroid with a primitive surface possibly covered by thick ejecta blanket from the collision that created its moon and collisional family. There are no deep basins. Any craters larger than 40 km in diameter must have flat floors to not be visible in the VLT images, consistent with an icy C-type composition. The lack of craters could also be due to the young age of the surface.

Mass and density

The discovery of its satellite enabled the first accurate measure of Euphrosyne's mass in 2020, at, and thus a density of . The low density suggests that Euphrosyne is half water ice if internal porosity is 20%.

Family

Euphrosyne is the namesake of a complex family of about two thousand asteroids that share similar spectral properties and orbital elements. They are thought to have arisen from a recent collision approximately 280 million years ago. All members have relatively high orbital inclinations. The second largest body in this group, 895 Helio, is most likely an interloper.

Satellite

S/2019 (31) 1
Discovered:2019 March 15
Mpc Name:Euphrosyne I
Epoch:EQJ2000
Period: days

In 2019 a small satellite was discovered, likely resulting from the same collisional event that created the family. Preliminary orbit computations indicated an orbital period of approximately 1.2 days and a semi-major axis of 670 km. VLT images indicate that the moon is 4 km in diameter, assuming it has the same albedo as Euphrosyne.

Notes and References

  1. Noah Webster (1884) A Practical Dictionary of the English Language
  2. "Elia", The New-England Magazine, vol. IX, Oct. 1835, p. 236
  3. P. Vernazza et al. (2021) VLT/SPHERE imaging survey of the largest main-belt asteroids: Final results and synthesis. Astronomy & Astrophysics 54, A56
  4. Web site: Astrometric and Geodetic Properties of Earth and the Solar System . 6 August 2007 . 7 July 2009 . https://web.archive.org/web/20090707224616/http://www.agu.org/reference/gephys/4_yoder.pdf . dead .
  5. Web site: Bright Minor Planets 2000 . . 2008-05-23.
  6. Web site: Albedo table . 27 December 2006 . 22 July 2012 . https://web.archive.org/web/20120722014301/http://sbn.psi.edu/pds/asteroid/EAR_A_5_DDR_ALBEDOS_V1_1/data/albedos.tab . dead .
  7. Web site: Brightest asteroids . 6 August 2007 . https://web.archive.org/web/20120207100750/http://www.spacebanter.com/showthread.php?t=18464 . 7 February 2012 . dead.