Tuesday 5th of December 2017 ~ 15:03:23 UTC (216) Kleopatra occult 4UC 416-146037(mag 12.2)


  • Download the Google Earth File KMZ
  • green line is the central line of (216) Kleopatra
  • blue lines show the estimate size of (216) Kleopatra
  • red lines the 1-sigma error for the path
  • white lines show AlexHelios
Event
  • Max duration : 3.7 seconds
  • Mag drop : 0.7
  • Shadow velocity : 32.9 km/s
  • Ingress Earth : 2017-12-05 15h00
  • Egress Earth  : 2017-12-05 15h06
  • Moon illumination : 94%
  • Moon phase : Waning gibbous
Asteroidal system
  • Name : (216) Kleopatra
  • Mag : 12.1
  • Asteroid Diameter : 122 km
  • Geocentric distance : 2.605 AU
  • Number of satellite : 2
  • Satellite : AlexHelios
  • Diameter : 9 km
  • Max duration : 0.3 sec
  • Satellite : CleoSelene
  • Diameter : 7 km
  • Max duration : 0.2 sec
Occulted Star
  • Name : 4UC 416-146037
  • Used RA   :   20:58:43.1223 J2000
  • Used DEC : -06:49:19.692 J2000
  • Mv : 12.2
  • VizieR - Aladin
Historic
  • 2016-07-12 : Create prediction
Prediction for (216) Kleopatra and AlexHelios (wide views)

Kleopatra

Kleopatra

AlexHelios

AlexHelios

CleoSelene

CleoSelene

Ephemerides from IMCCE

Ephemeris for (216) Kleopatra

Ephemeris for AlexHelios

Ephemeris from Miriade for the date of occultation and geocenter frame. For more specific ephemeris please use the documentation of Miriade.

Orbitography for the (216) Kleopatra system

AlexHelios

AlexHelios

Geometry of orbit for the (216) Kleopatra system view from Earth
  • Cyan circle show the position of the satellite AlexHelios at the occultation date.
  • The black dots show next positions during almost a period
  • In the center, (216) Kleopatra represented by an ellipsoid
  • CleoSelene

    CleoSelene

    Geometry of orbit for the (216) Kleopatra system view from Earth
  • Cyan circle show the position of the satellite CleoSelene at the occultation date.
  • The black dots show next positions during almost a period
  • In the center, (216) Kleopatra represented by an ellipsoid
  • Propagation of the solutions
    We use all orbits from 1,2 and 3 sigma issued from Genetical algorithm, and we see where the satellite is for the occultation date. North on top, and East on right.
    • Center at coordinates 0,0 is Primary
    • Black dots show the orbit with the best solution at the date of occultation
    • Green zone show orbits covering 1-sigma error
    • Blue zone for 2-sigma
    • Red zone for 3-sigma

    Alexhelios

    Alexhelios
    This figure represent 2120974 orbits computed to the occultation date. Each orbit is classify throw its performance, given an accuracy in kilometer :
    • 1-σ error = 859 km
    • 2-σ error = 867 km
    • 3-σ error = 1044 km

    Cleoselene

    Cleoselene
    This figure represent 6264523 orbits computed to the occultation date. Each orbit is classify throw its performance, given an accuracy in kilometer :
    • 1-σ error = 394 km
    • 2-σ error = 570 km
    • 3-σ error = 677 km
    Contents
    • Orbital solution fitted by Genoid project (Vachier F., Berthier J., Carry B. & Pajuelo M.) IMCCE/CNRS
    • Ephemeris has made available with Miriade Project (Berthier J. & Vachier F.) IMCCE/CNRS
    • Occultation Prediction by Vachier F. using Occult (Occultation Prediction Software by D.Herald)
    • Ephemeris and offset based on ASTORB (Edward Bowell)