*******************************************************************************
JPL/HORIZONS                    (2010 NY104)               2019-Jan-14 19:14:38
Rec #:  687106 (+COV) Soln.date: 2018-Oct-03_15:05:19        # obs: 14 (2 days)
 
IAU76/J2000 helio. ecliptic osc. elements (au, days, deg., period=Julian yrs):
 
  EPOCH=  2455390.5 ! 2010-Jul-13.00 (TDB)        RMSW= n.a.
   EC= .03991625988262393  QR= 3.326307800096206   TP= 2455391.2829123726
   OM= 287.5095168956279   W=  74.95503703126614   IN= 15.05833665104718
   A= 3.464601743687009    MA= 359.8803432367499   ADIST= 3.602895687277812
   PER= 6.44894            N= .152835444           ANGMOM= .031993507
   DAN= 3.42361            DDN= 3.4953             L= 1.9550556
   B= 14.5305978           MOID= 2.35682011        TP= 2010-Jul-13.7829123726
 
Asteroid physical parameters (km, seconds, rotational period in hours):
   GM= n.a.                RAD= n.a.               ROTPER= n.a.
   H= n.a.                 G= n.a.                 B-V= n.a.
                           ALBEDO= n.a.            STYP= n.a.
 
ASTEROID comments: 
1: soln ref.= JPL#6, OCC=9
2: source=ORB; JPLCOV;MPCREF=MPO456754
*******************************************************************************
 
 
*******************************************************************************
Ephemeris / WWW_USER Mon Jan 14 19:14:38 2019 Pasadena, USA      / Horizons    
*******************************************************************************
Target body name: (2010 NY104)                    {source: JPL#6}
Center body name: Earth (399)                     {source: DE431}
Center-site name: GEOCENTRIC
*******************************************************************************
Start time      : A.D. 2019-Jan-14 19:14:37.8560 UT      
Stop  time      : A.D. 2019-Jan-15 19:14:37.8559 UT      
Step-size       : 0 steps
*******************************************************************************
Target pole/equ : No model available
Target radii    : (unavailable)                                                
Center geodetic : 0.00000000,0.00000000,0.0000000 {E-lon(deg),Lat(deg),Alt(km)}
Center cylindric: 0.00000000,0.00000000,0.0000000 {E-lon(deg),Dxy(km),Dz(km)}
Center pole/equ : High-precision EOP model        {East-longitude positive}
Center radii    : 6378.1 x 6378.1 x 6356.8 km     {Equator, meridian, pole}    
Target primary  : Sun
Vis. interferer : MOON (R_eq= 1737.400) km        {source: DE431}
Rel. light bend : Sun, EARTH                      {source: DE431}
Rel. lght bnd GM: 1.3271E+11, 3.9860E+05 km^3/s^2                              
Small-body perts: Yes                             {source: SB431-N16}
Atmos refraction: NO (AIRLESS)
RA format       : DEG
Time format     : BOTH
EOP file        : eop.190111.p190404                                           
EOP coverage    : DATA-BASED 1962-JAN-20 TO 2019-JAN-11. PREDICTS-> 2019-APR-03
Units conversion: 1 au= 149597870.700 km, c= 299792.458 km/s, 1 day= 86400.0 s 
Table cut-offs 1: Elevation (-90.0deg=NO ),Airmass (>38.000=NO), Daylight (NO )
Table cut-offs 2: Solar elongation (  0.0,180.0=NO ),Local Hour Angle( 0.0=NO )
Table cut-offs 3: RA/DEC angular rate (     0.0=NO )                           
Table format    : Comma Separated Values (spreadsheet)
*******************************************************************************
Initial IAU76/J2000 heliocentric ecliptic osculating elements (au, days, deg.):
  EPOCH=  2455390.5 ! 2010-Jul-13.00 (TDB)        RMSW= n.a.                   
   EC= .03991625988262393  QR= 3.326307800096206   TP= 2455391.2829123726      
   OM= 287.5095168956279   W=  74.95503703126614   IN= 15.05833665104718       
  Equivalent ICRF heliocentric equatorial cartesian coordinates (au, au/d):
   X= 3.218417396470278E+00  Y=-2.378660616487883E-01  Z= 8.059373154178985E-01
  VX=-4.751019808474777E-04 VY= 8.533318507158738E-03 VZ= 4.412357091814446E-03
Asteroid physical parameters (km, seconds, rotational period in hours):        
   GM= n.a.                RAD= n.a.               ROTPER= n.a.                
   H= n.a.                 G= n.a.                 B-V= n.a.                   
                           ALBEDO= n.a.            STYP= n.a.                  
*********************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************
 Date__(UT)__HR:MN:SC.fff, Date_________JDUT, , ,R.A._(ICRF/J2000.0), DEC_(ICRF/J2000.0), R.A._(a-app), DEC_(a-app), dRA*cosD,d(DEC)/dt, Azi_(a-app), Elev_(a-app), dAZ*cosE,d(ELV)/dt, X_(sat-prim), Y_(sat-prim), SatPANG, L_Ap_Sid_Time, a-mass,mag_ex,  APmag,   Illu%, Def_illu,  ang-sep, v, Ang-diam, Ob-lon,Ob-lat, Sl-lon,Sl-lat, SN.ang,  SN.dist,   NP.ang,  NP.dist, hEcl-Lon,hEcl-Lat,               r,       rdot,            delta,     deldot,   1-way_LT,   VmagSn,  VmagOb,    S-O-T,/r,    S-T-O, T-O-M,MN_Illu%,    O-P-T,   PsAng,  PsAMV,     PlAng, Cnst,       TDB-UT,    ObsEcLon,   ObsEcLat, N.Pole-RA, N.Pole-DC,     GlxLon,    GlxLat, L_Ap_SOL_Time, 399_ins_LT, RA_3sigma,DEC_3sigma, SMAA_3sig,SMIA_3sig,   Theta,Area_3sig, POS_3sigma, RNG_3sigma,RNGRT_3sig,  DOP_S_3sig, DOP_X_3sig, RT_delay_3sig, Tru_Anom, L_Ap_Hour_Ang,      phi, PAB-LON, PAB-LAT,
*********************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************
$$SOE
 2019-Jan-14 19:14:37.856, 2458498.301827037, , ,125.98319, 13.81080, 126.24954, 13.74706, -29.4483, -1.61311,   .n.a. ,   .n.a.,     n.a.,     n.a., -570331.,125982.5,233.473,          n.a.,   n.a.,  n.a.,   n.a.,  99.914,     n.a., 604295.0, *,     n.a.,   n.a.,  n.a.,   n.a.,  n.a., 129.52,     0.00,    n.a. ,     n.a., 121.9389, -3.8943,  3.529645177329,  0.4864685, 2.56197763515929, -4.3950201,  21.307318, 15.68558,15.84462, 167.8597,/L,   3.3649,   94.3, 55.4,   8.7783, 309.490,297.864,   0.66783,  Cnc,    69.184325, 125.2323085, -5.3660544,      n.a.,      n.a., 210.463419, 26.636696,          n.a.,   0.000000, 40766667.,21956490.9, 46303393.,66825.163, -28.306,1.9442E13, 46303441.2, 5.548430E9,2671.81589, 88669944.51, 322266815.,  37015.143741, 125.9725,          n.a.,   3.3598,123.4489, -4.6324,
$$EOE
*********************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************
Column meaning:
 
TIME

  Times PRIOR to 1962 are UT1, a mean-solar time closely related to the
prior but now-deprecated GMT. Times AFTER 1962 are in UTC, the current
civil or "wall-clock" time-scale. UTC is kept within 0.9 seconds of UT1
by introduction of integer leap-seconds for 1972 and later.

  Conversion from the internal TDB timescale to the non-uniform UT time-scale
requested for output has not been determined for UTC times after the next
July or January 1st. Therefore, the last known leap-second is used as a
constant over future intervals.

  Time tags refer to the UT time on Earth, regardless of where the observer
is located in the solar system. For example, if an observation from the
surface of another body has an output time-tag of 12:31:00 UT, it refers to
a time-scale conversion from TDB to UT valid at the center of the Earth,
not the actual observer location elsewhere in the solar system, where clock
rates may differ slightly due to the local spacetime metric and there is no
precisely defined or adopted "UT" analog.

  Any 'b' symbol in the 1st-column denotes a B.C. date. First-column blank
(" ") denotes an A.D. date. Calendar dates prior to 1582-Oct-15 are in the
Julian calendar system. Later calendar dates are in the Gregorian system.

  NOTE: "n.a." in output means quantity "not available" at the print-time.
 
STATISTICAL UNCERTAINTIES

  Output includes formal +/- 3 standard-deviation statistical orbit uncertainty
quantities. There is a 99.7% chance the actual value is within given bounds.
These statistical calculations assume observational data errors are random. If
there are systematic biases (such as timing, reduction or star-catalog errors),
results can be optimistic. Because the epoch covariance is mapped using
linearized variational partial derivatives, results can also be optimistic for
times far from the solution epoch, particularly for objects having close
planetary encounters.
 
 R.A._(ICRF/J2K)_DEC =
   Astrometric right ascension and declination of the TARGET CENTER with
respect to the observing site in the coordinates of the ICRF/J2000 inertial
reference frame. Compensated for down-leg light-time.
   Units: DEGREES and DEGREES
 
 R.A._(a-appar)_DEC. =
   Airless apparent right ascension and declination of the target center with
respect to the Earth's true-equator and the meridian containing the Earth's
true equinox-of-date. Adjusted for light-time, the gravitational deflection of
light, stellar aberration, precession and nutation.  Units: DEGREES
 
 dRA*cosD d(DEC)/dt =
    The rate of change of target center apparent RA and DEC (airless).
d(RA)/dt is multiplied by the cosine of the declination.
    Units: ARCSECONDS PER HOUR
 
 Azi_(a-appr)_Elev =
   Airless apparent azimuth and elevation of target center. Adjusted for
light-time, the gravitational deflection of light, stellar aberration,
precession and nutation. Azimuth measured North(0) -> East(90) -> South(180) ->
West(270) -> North (360). Elevation is with respect to plane perpendicular
to local zenith direction.  TOPOCENTRIC ONLY. Units: DEGREES
 
 dAZ*cosE d(ELV)/dt =
   The rate of change of target center apparent azimuth and elevation
(airless). d(AZ)/dt is multiplied by the cosine of the elevation angle.
TOPOCENTRIC ONLY. Units: ARCSECOND/MINUTE
 
 X & Y satellite coordinates & position angle =
   Satellite differential coordinates WRT the primary body along with the
satellite position angle. Differential coordinates are defined in RA as
X=[(RA_sat - RA_primary)*COS(DEC_primary)], in DEC as Y=(DEC_sat-DEC_primary).
Non-Lunar satellites only. "SatPANG" is the angle from the North Celestial
Pole measured counter-clockwise (CCW, or east) to a line from primary/planet
center to satellite center.
   Units: ARCSECONDS (X & Y) and DEGREES (position angle)
 
 L_Ap_Sid_Time =
   Local Apparent Sidereal Time. The angle measured westward in the body
true-equator of-date plane from the meridian containing the body-fixed
observer to the meridian containing the true Earth equinox (defined by
intersection of the true Earth equator of date with the ecliptic of date).
TOPOCENTRIC ONLY. Units: HH.fffffffffff  (decimal hours)
 
 a-mass mag_ex=
    RELATIVE optical airmass and visual magnitude extinction. Airmass is the
ratio between the absolute optical airmass for the target's refracted CENTER
point to the absolute optical airmass at zenith. Also output is the estimated
visual magnitude extinction due to the atmosphere, as seen by the observer.
AVAILABLE ONLY FOR TOPOCENTRIC EARTH SITES WHEN THE TARGET IS ABOVE THE HORIZON
Units: None (airmass) and magnitudes (extinction).
 
 APmag =
   Asteroid's approximate apparent visual magnitude from the standard
IAU H-G magnitude relationship:
   APmag = H + 5*log10(delta) + 5*log10(r) - 2.5*log10((1-G)*phi1 + G*phi2).
For solar phase angles > 90 deg, the error could exceed 1 magnitude. For phase
angles > 120 degrees, output values are rounded to the nearest integer to
indicate error could be large and unknown.
   Units: MAGNITUDE
 
 Illu% =
   Fraction of target circular disk illuminated by Sun (phase), as seen by
observer.  Units: PERCENT
 
 Def_illu =
   Defect of illumination. Maximum angular width of target circular disk
diameter not illuminated by the Sun.  Units: ARCSECONDS
 
 ang-sep/v =
  Target-primary angular separation and visibility. The angle between the
center of target object and the center of the primary body it revolves around,
as seen by the observer. Units: ARCSECONDS

  Non-lunar natural satellite visibility codes (limb-to-limb):
    /t = Transitting primary body disk,  /O = Occulted by primary body disk,
    /p = Partial umbral eclipse,         /P = Occulted partial umbral eclipse,
    /u = Total umbral eclipse,           /U = Occulted total umbral eclipse,
    /- = Target is the primary body,     /* = None of above ("free and clear")
 
 Ang-diam =
   The equatorial angular width of the target body full disk, if it were
fully visible to the observer.  Units: ARCSECONDS
 
 Ob-lon Ob-lat =
   Apparent planetodetic longitude and latitude (IAU2009 model) of the center
of the target seen by the OBSERVER at print-time. This is NOT exactly the same
as the "sub-observer" (nearest) point for a non-spherical target shape, but is
generally close if not a very irregular body shape. Down-leg light travel-time
from target to observer is taken into account. Latitude is the angle between
the equatorial plane and the line perpendicular to the reference ellipsoid of
the body. The reference ellipsoid is an oblate spheroid with a single flatness
coefficient in which the y-axis body radius is taken to be the same value as
the x-axis radius. Positive longitude is to the WEST.
Units: DEGREES
 
 Sl-lon Sl-lat =
   Apparent planetodetic longitude and latitude of the Sun (IAU2009) as seen by
the observer at print-time.  This is NOT exactly the same as the "sub-solar"
(nearest) point for a non-spherical target shape, but is generally very close
if not an irregular body shape. Light travel-time from Sun to target and from
target to observer is taken into account.  Latitude is the angle between the
equatorial plane and the line perpendicular to the reference ellipsoid of the
body. The reference ellipsoid is an oblate spheroid with a single flatness
coefficient in which the y-axis body radius is taken to be the same value as
the x-axis radius. Positive longitude is to the WEST.  Units: DEGREES
 
 SN.ang SN.ds =
  Target sub-solar point position angle (CCW, or east, with respect to the
direction of the true-of-date Celestial North Pole) and its' angular distance
from the sub-observer point (center of disk) at print time. Negative distance
indicates sub-solar point on hidden hemisphere. Units: DEGREES and ARCSECONDS
 
 NP.ang NP.ds =
  Target's North pole position angle (CCW, or east, with respect to
direction of true-of-date Celestial North Pole) and its' angular distance
from the sub-observer point (center of disk) at observation time.
Negative distance indicates the planet's North pole is on the hidden
hemisphere.  Units: DEGREES and ARCSECONDS
 
 hEcl-Lon hEcl-Lat =
    Geometric heliocentric J2000 ecliptic longitude and latitude of target
center at the instant light leaves it to be observed at print time (print time
minus 1-way light-time).  Units: DEGREES
 
 r       rdot =
   Heliocentric range ("r", light-time corrected) and range-rate ("rdot")
of the target center at the instant light seen by the observer at print-time
would have left the target center (print-time minus down-leg light-time).
The Sun-to-target distance traveled by a ray of light emanating from the
center of the Sun that reaches the target center point at some instant and
is recordable by the observer one down-leg light-time later at print-time.
Units: AU and KM/S
 
 delta  deldot =
   Range ("delta") and range-rate ("delta-dot") of target center with respect
to the observer at the instant light seen by the observer at print-time would
have left the target center (print-time minus down-leg light-time); the
distance traveled by a light ray emanating from the center of the target and
recorded by the observer at print-time. "deldot" is a projection of the
velocity vector along this ray, the light-time-corrected line-of-sight from the
coordinate center, and indicates relative motion. A positive "deldot" means the
target center is moving away from the observer (coordinate center). A negative
"deldot" means the target center is moving toward the observer.
Units: AU and KM/S
 
 1-way_LT =
   1-way down-leg light-time from target center to observer. The elapsed time
since light (observed at print-time) would have left or reflected off a point
at the center of the target. Units: MINUTES
 
 VmagSn VmagOb =
   Magnitude of target center velocity wrt Sun ("VmagSn") and the observer
("VmagOb") at the time light left the target center to be observed (print
time minus 1-way light-time).  These are absolute values of the velocity
vectors (total speeds) and do not indicate direction of motion.  Units: KM/S
 
 S-O-T /r =
    Sun-Observer-Target angle; target's apparent SOLAR ELONGATION seen from
the observer location at print-time. Angular units: DEGREES

    The '/r' column indicates the target's apparent position relative to
the Sun in the observer's sky, as described below:

    For an observing location on the surface of a rotating body
(considering its rotational sense):

    /T indicates target TRAILS Sun (evening sky; rises and sets AFTER Sun)
    /L indicates target LEADS Sun  (morning sky; rises and sets BEFORE Sun)

For an observing point NOT on a rotating body (such as a spacecraft), the
"leading" and "trailing" condition is defined by the observer's
heliocentric orbital motion: if continuing in the observer's current
direction of heliocentric motion would encounter the target's apparent
longitude first, followed by the Sun's, the target LEADS the Sun as seen by
the observer. If the Sun's apparent longitude would be encountered first,
followed by the target's, the target TRAILS the Sun.

NOTE: The S-O-T solar elongation angle is numerically the minimum
separation angle of the Sun and target in the sky in any direction. It
does NOT indicate the amount of separation in the leading or trailing
directions, which are defined in the equator of a spherical coordinate
system.
 
 S-T-O =
   "S-T-O" is the Sun->Target->Observer angle; the interior vertex angle at
target center formed by a vector to the apparent center of the Sun at
reflection time on the target and the apparent vector to the observer at
print-time. Slightly different from true PHASE ANGLE (requestable separately)
at the few arcsecond level in that it includes stellar aberration on the
down-leg from target to observer.  Units: DEGREES
 
 T-O-M/Illu% =
   Target-Observer-Moon/Illuminated percentage. The apparent lunar elongation
angle between target body CENTER and the Moon's CENTER, seen from the observing
site, along with fraction of the lunar disk illuminated by the Sun. A negative
lunar elongation angle indicates the target center is behind the Moon.
Units: DEGREES & PERCENT.
 
 O-P-T =
   Observer-Primary-Target angle; apparent angle between a target satellite,
its primary's center and an observer, at observing location, at print time.
Units: DEGREES
 
 PsAng PsAMV =
   The position angles of the extended Sun->target radius vector ("PsAng")
and the negative of the target's heliocentric velocity vector ("PsAMV"),
as seen in the observer's plane-of-sky, measured CCW (east) from reference
frame North Celestial Pole. Primarily intended for ACTIVE COMETS, "PsAng"
is an indicator of the comet's gas-tail orientation in the sky (being in
the anti-sunward direction) while "PsAMV" is an indicator of dust-tail
orientation.
   Units: DEGREES
 
 PlAng =
   Angle between observer and target orbital plane, measured from center
of target at the moment light seen at observation time leaves the target.
Positive values indicate observer is above the object's orbital plane, in
the direction of reference frame +z axis.
   Units: DEGREES
 
 Cnst =
   Constellation ID; the 3-letter abbreviation for the name of the
constellation containing the target center's astrometric position,
as defined by IAU (1930) boundary delineation.  See documentation
for list of abbreviations.
 
 TDB-UT =
   Difference between the uniform Barycentric Dynamical time-scale and the
Earth-rotation dependent Universal Time. Prior to 1962, the difference is with
respect to UT1 (TDB-UT1) and the 0.002 second maximum amplitude distinction
between TT and TDB is not maintained. For 1962 and later, the difference is
with respect to UTC (TDB-UTC) and periodic terms less than 1.e-6 second are
ignored. Values beyond the next July or January 1st may change if a leap-second
is later required by the IERS. Values from the present date forward through
the next ~78 days are predictions; beyond that prediction interval, the last
prediction is taken as a constant for all future dates. Units: SECONDS
 
 ObsEcLon ObsEcLat =
   Observer-centered Earth ecliptic-of-date longitude and latitude of the
target center's apparent position, adjusted for light-time, the gravitational
deflection of light and stellar aberration. Although centered on the observer,
the values are expressed relative to coordinate basis directions defined by
the Earth's true equator-plane, equinox direction, and mean ecliptic plane at
print time.  Units: DEGREES
 
 N.Pole-RA  N.Pole-DC
    ICRF/J2000.0 Right Ascension and Declination (IAU2009 rotation model)
of target body's North Pole direction at the time light left the body to
be observed at print time. Units: DEGREES
 
 GlxLon GlxLat =
   Observer-centered Galactic System II (post WW II) longitude and latitude
of the target center's apparent position. Adjusted for light-time,
gravitational deflection of light, and stellar aberration. Units: DEG DEG
 
 L_Ap_SOL_Time =
   Local Apparent SOLAR Time at observing site. This is the time indicated by
a sundial. TOPOCENTRIC ONLY.  Units: HH.fffffffffff  (decimal angular hours)
 
 399_ins_LT =
   Instantaneous light-time of the station with respect to Earth center at
print-time. The geometric (or "true") separation of site and Earth center,
divided by the speed of light.  Units: MINUTES
 
 RA_3sigma DEC_3sigma =
  Uncertainty in Right-Ascension and Declination. Output values are the formal
+/- 3 standard-deviations (sigmas) around nominal position. Units: ARCSECONDS
 
 SMAA_3sig SMIA_3sig   Theta Area_3sig =
  Plane-of-sky (POS) error ellipse data. These quantities summarize the
target's 3-dimensional 3-standard-deviation formal uncertainty volume projected
into a reference plane perpendicular to the observer's line-of-sight.

   SMAA_3sig = Angular width of the 3-sigma error ellipse semi-major
                axis in POS. Units: ARCSECONDS.

   SMIA_3sig = Angular width of the 3-sigma error ellipse semi-minor
                axis in POS. Units: ARCSECONDS.

   Theta     = Orientation angle of the error ellipse in POS; the
                clockwise angle from the direction of increasing RA to
                the semi-major axis of the error ellipse, in the
                direction of increasing DEC.  Units: DEGREES.

   Area_3sig = Area of sky enclosed by the 3-sigma error ellipse.
                Units: ARCSECONDS ^ 2.
 
 POS_3sigma =
  The Root-Sum-of-Squares (RSS) of the 3-standard deviation plane-of-sky error
ellipse major and minor axes.  This single pointing uncertainty number gives an
angular distance (a circular radius) from the target's nominal position in the
sky that encompasses the error-ellipse. Units: ARCSECONDS.
 
 RNG_3sigma RNGRT_3sig =
  Range and range rate (radial velocity) formal 3-standard-deviation
uncertainties.  Units: KM, KM/S
 
 DOP_S-sig  DOP_X-sig  RT_delay-sig  =
  Doppler radar uncertainties at S-band (2380 MHz) and X-band (8560 MHz)
frequencies, along with the round-trip (total) delay to first-order.
Units: HERTZ and SECONDS
 
 Tru_Anom =
   Apparent true anomaly angle of the target's heliocentric orbit position;
the angle in the target's instantaneous orbit plane from the orbital periapse
direction to the target, measured positively in the direction of motion.
The position of the target is taken to be at the moment light seen by the
observer at print-time would have left the center of the object. That is,
the heliocentric position of the target used to compute the true anomaly is
one down-leg light-time prior to the print-time. Units: DEGREES
 
 L_ap_Hour_Ang =
   Local apparent HOUR ANGLE of target at observing site. The angle between the
observer's meridian plane, containing Earth's axis of-date and local zenith
direction, and a great circle passing through Earth's axis-of-date and the
target's direction, measured westward from the zenith meridian to target
meridian along the equator. Negative values are angular times UNTIL transit.
Positive values are angular times SINCE transit. Exactly 24_hrs/360_degrees.
EARTH TOPOCENTRIC ONLY.  Units: sHH.fffffffff  (decimal angular hours)
 
   phi  PAB-LON  PAB-LAT =
   "phi" is the true PHASE ANGLE at the observer's location at print time.
"PAB-LON" and "PAB-LAT" are the J2000 ecliptic longitude and latitude of the
phase angle bisector direction; the outward directed angle bisecting the arc
created by the apparent vector from Sun to target center and the astrometric
vector from observer to target center. For an otherwise uniform ellipsoid, the
time when its long-axis is perpendicular to the PAB direction approximately
corresponds to lightcurve maximum (or maximum brightness) of the body. PAB is
discussed in Harris et al., Icarus 57, 251-258 (1984).

   Units: DEGREES, DEGREES, DEGREES, DEGREES


 Computations by ...
     Solar System Dynamics Group, Horizons On-Line Ephemeris System
     4800 Oak Grove Drive, Jet Propulsion Laboratory
     Pasadena, CA  91109   USA
     Information: http://ssd.jpl.nasa.gov/
     Connect    : telnet://ssd.jpl.nasa.gov:6775  (via browser)
                  telnet ssd.jpl.nasa.gov 6775    (via command-line)
     Author     : Jon.D.Giorgini@jpl.nasa.gov

*********************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************************

!$$SOF
TABLE_TYPE = OBSERVER
QUANTITIES = '1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43'
COMMAND = "2010 NY104;"
SOLAR_ELONG = "0,180"
LHA_CUTOFF = 0
CSV_FORMAT = YES
CAL_FORMAT = BOTH
ANG_FORMAT = DEG
APPARENT = AIRLESS
REF_SYSTEM = J2000
CENTER = '500@399'
TLIST = 2458498.3018270363
SKIP_DAYLT = NO
