532 Herculina

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532 Herculina

Discovery
Discovered by	Max Wolf
Discovery date	April 20, 1904
Designations
Alternative names	1904 NY
Minor planet category	Main belt
Orbital characteristics
Epoch 22 November 2003 (JD 2452600.5)
Aphelion	3.26 AU
Perihelion	2.29 AU
Semi-major axis	2.7719820 AU
Eccentricity	0.1777919
Orbital period	4.62 a
Average orbital speed	unknown
Mean anomaly	142.15781°
Inclination	16.30843°
Longitude of ascending node	107.65510°
Argument of perihelion	76.86717°
Physical characteristics
Dimensions	225 km
Mass	~2.29×1019Kg [1]
Mean density	~4 g/cm³[1]
Equatorial surface gravity	unknown
Escape velocity	unknown
Rotation period	9.404951 h
Albedo	0.16
Temperature	unknown
Spectral type	S
Apparent magnitude	8.82[2] to 11.99
Absolute magnitude	5.81
Angular diameter	0.228" to 0.073"

532 Herculina (herr'-kew-lye'-nə, IPA: /ˈhɛrkjuˈlaɪnə/) is a very large asteroid, with a diameter of around 225 km.

Contents 1 Discovery 2 Physical characteristics 3 Satellites 4 References 5 External links

[edit] Discovery

It was discovered on April 20th, 1904, by Max Wolf in Heidelberg, and initially catalogued as 1904 NY.^[3] The origin of its name is not known; it may be named after the mythical Hercules, or after an unknown woman of that name. The bulk of the asteroids discovered by Wolf around this date were named for characters in operas, but if this name was also drawn from such a source, no explanation has been recorded.

[edit] Physical characteristics

Herculina is one of the twenty or so largest members of the main asteroid belt.^[4]

It has often been noted for its complex lightcurves, which made determination of its shape and rotation somewhat difficult. A set of 1982 speckle inferometry observations led to a simple preliminary model of Herculina as a three-axis object, perhaps 260 by 220 by 215 km. 1985 analysis of this data concluded there was a nonspherical shape with one bright spot, whilst a 1987 photometric astrometry study concluded the object was spherical with two dark spots (and rotated around a completely different pole), which was in turn negated by a 1988 thermal study which showed the object could not be spherical. By the late 1980s, the generally accepted model was a three-axis object with major albedo or topographical features.^[5]

Recent (2002) modelling of photometric data indicates that Herculina is not spherical, but a blocky shape not unlike a battered cuboid - or, as the analysis described it, it "resembles a toaster". This analysis indicates the presence of multiple largish craters, similar to 253 Mathilde, but no major variation in albedo. The approximate ratios of the axes were suggested as 1:1.1:1.3, broadly consistent with earlier models if slightly more elongated.^[6]

[edit] Satellites

Following anomalous observations during an occultation of the star SAO 1220774 in 1978, Herculina became the first asteroid to be "confirmed" to have an asteroid moon, with the parent asteroid estimated at a 216km diameter and a satellite of about 45km orbiting at a distance of around 1,000 km.^[7] However, careful examination in 1993, using the Hubble Space Telescope, failed to locate a secondary.^[8]

[edit] References

[edit] External links

• Orbital simulation from JPL (Java) / Ephemeris

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