Size and shape Kleopatra is a relatively large asteroid, with a mean (volume-equivalent) diameter of and an unusually elongated shape. The initial mapping of its elongated shape was indicated by stellar occultation observations from eight distinct locations on 19 January 1991. Subsequent observations with the
ESO 3.6 m Telescope at
La Silla, run by the
European Southern Observatory, were interpreted to show a double source with two distinct lobes of similar size. These results were disputed when radar observations at the
Arecibo Observatory showed that the two lobes of the asteroid are connected, resembling the shape of a ham-bone. The radar observations provided a detailed shape model that appeared on the cover of Science Magazine. Later models suggested that Kleopatra was more elongate and the most recent models using
radar delay-Doppler imaging,
adaptive optics, and
stellar occultations provide dimensions of 267 × 61 × 48 km.
Satellites In 1988 a search for satellites or dust orbiting this asteroid was performed using the
UH88 telescope at the
Mauna Kea Observatories, but the effort was fruitless. In September 2008,
Franck Marchis and his collaborators announced that by using the
Keck Observatory's
adaptive optics system, they had discovered two
moons orbiting Kleopatra. In February 2011, the
minor-planet moons were named Alexhelios (outer) and Cleoselene (inner), after Cleopatra's children
Alexander Helios and
Cleopatra Selene II. The outer and inner satellites are about 8.9 ± 1.6 and 6.9 ± 1.6 km in diameter, with periods of 2.7 and 1.8 days, respectively. in 2017
Mass, density, and composition The presence of two moons provides a way to estimate Kleopatra's mass, although its irregular shape makes the orbital modeling a challenge. The most recent adaptive-optics observations and modeling provides a mass of Kleopatra of , or , which is significantly lower than previously thought. When combined with the best volume estimate for Kleopatra, this indicates a bulk density of . These recent bulk density results call into question the canonical view of Kleopatra as a pure metallic object. Kleopatra's radar albedo suggests a high metal content in the southern hemisphere, but is similar to the more common S- and C-class asteroids along the equator. One way to reconcile these observations is to hypothesize that Kleopatra is a
rubble-pile asteroid with significant porosity in dynamic equilibrium. == Origin ==