2007 XB23
ephemeris date magn radius delta (AU) delta (LD) delta (km) ra dec elong phase
Today26 Apr 202524.91.044 AU0.118 AU45.81 LD17,611,197 km08h45m-60°57'105.6°68.1°
Approach27 May 202524.01.061 AU0.090 AU35.14 LD13,511,343 km11h47m-33°08'119.9°55.9°
Brightest29 May 202524.01.062 AU0.090 AU35.18 LD13,525,375 km11h55m-31°05'120.2°55.6°

Based on its absolute magnitude (Hâ‚’) of 27.1 and an albedo between 0.25 and 0.05, the estimated diameter of 2007 XB23 is 10 - 25 m.

2007 XB23- 2025-04-26
astro.vanbuitenen.nl


 
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The interactive orbit chart above shows the near-earth object's path through the solar system and its position at the given date. Green and blue lines are shown perpendicular to the ecliptic plane: Green if the path is above the ecliptic plane, blue if it is below.

(Left-click and drag to rotate the view; right-click and drag to move the view; use scroll wheel to zoom in our out.)

The light curve chart below shows the estimated development of the NEO's magnitude during its approach to earth.


The following all-sky chart shows the path of the NEO in the coming months.





The following chart shows the path of the NEO in the coming days or hours. The field of view is optimized for (~10x50) binoculars and finderscopes. A more printer-friendly version of the same chart can be found below.


    Terminology:
            
    delta:  distance between NEO and earth in AU or LD 
    radius: distance between NEO and sun in AU
    magn:   magnitude (brightness) estimate    
    ra:     right ascension in hours (24h = 360deg)
    dec:    declination in degrees
    elong:  elongation in degrees (angle sun-earth-NEO)    
    phase:  phase angle in degrees (angle sun-NEO-earth)        
    AU:     Astronomical Unit: mean distance between earth and sun (149597870.7 km)
    LD:     Lunar distance: Mean distance between earth and the moon (~0.00257 AU)
    

Orbital elements provided by the MPC (Minor Planet Center).
Calculations by a modified version of AAPlus, a C# implementation of the AA+ project by PJ Naughter from the algorithms presented in the book "Astronomical Algorithms" by Jean Meeus.
NGC2000 dso catalog and star labels from VizieR as provided by the Strasbourg astronomical Data Center.
Tycho2 catalog from the ESO archive.