RASNZ Occultation Section - Alauda Occultation Update

ASTROMETRIC UPDATE:
OCCULTATION BY (702) ALAUDA - 2014 Dec 18

Event Rank : 100

(The event Rank is a measure of the likelihood of observing an event, and is equal to the probability of at least one successful observation by a team of two observers spaced 1/8 path width just inside opposite sides of the predicted path. An event rank of 100 indicates that the prediction is expected to be very accurate).

THE UPDATED PATH

Note: The duration given in the line below is the interval during which the occultation shadow sweeps across the Earth - please see the minute markers on the map to determine the approximate time for your location.

On 2014 Dec 18 UT, the 219 km diameter asteroid (702) Alauda will occult a 6.2 mag star in the constellation Perseus for observers along a very broad path across eastern Australia, including much of eastern Queensland and New South Wales. Brisbane is just east of the path, Sydney and Canberra are included, but at low elevation

In the case of an occultation, the combined light of the asteroid and the star will drop by 6.2 mag to 12.4 mag (the magnitude of the asteroid) for at most 17.1 seconds.

This update is based on UNSO/Flagstaff astrometry for the asteroid kindly provided by Alice Monet, TMO astrometry for the asteroid kindly provided by Bill Owen, historical astrometry from the MPC files (via AstDys), and the following catalogs for the star position: .

Additional details of this and other events are available at Steve Preston's website at http://www.asteroidoccultation.com/

EVENT DETAILS SUMMARY :

Event Rank : 100
Date and approx. UT time of event : 2014 Dec 18, 14:14 - 2014 Dec 18, 14:15
(Refer to map(s) for your own location)
Magnitude of target star : 6.2
Magnitude drop [mag] : 6.2
Estimated maximum duration [s] : 17.1
Phase of moon, angular distance : 14 % sunlit, 155° distance
Sun : 142° distance
Rough path description : E Australia

Data for the target star :

Name : HIP 13832
Constellation : Perseus
J2000 position with proper motion to date of event [h,m,s ; °,',"]: RA: 02 58 02.3223 DE: +38 36 53.495
Position source : mpos:HIP2 pm:HIP2 plx:HIP2
Standard error : RA,DE ["]: ( .011, .011 )
V mag [mag] : 6.2
B mag [mag] : 7.5
Remarks : (none)

Data for the minor planet :

Number, name : (702) Alauda
Approx. diameter [km] : 219
Approx. diameter [arcsec] : .125
Distance from Earth [AU] : 2.41000
Source of used astrometry : FASTT TMO MPC (via Astdys)
Number of used observations : 1579
Number of rejected observations : 71
Time covered by the observations : 1910 Jul 17 - 2014 Nov 08
1 sigma uncertainty ellipse (major, minor, PA) : 0.012, 0.009, 82°
Remarks : (none)
Orbital Elements for (702) Alauda :
Update computed by : Steve Preston, Medina, Washington, USA. (OrbFit).

The Occultation Path :

Approximate projected width [km] : 537
Uncertainty interval [path widths] : +/- 0.12 (1 sigma)
Uncertainty interval [seconds] : +/- 1.9 (1 sigma)
Uncertainty interval approx RA,DE ["] : (+/- .016 +/- .014) (1 sigma)
Uncertainty ellipse (major, minor, PA) : ( .016", .014", 86° ) (1 sigma)
Approx speed of asteroid's shadow [km/s]: 12.9430
Important Note regarding Accuracy:
The uncertainty interval in path widths given above (and shown as a 1-sigma uncertainty ellipse on the plot) refers to RMS deviation and is applied as a +/- range. In other words, a path uncertainty of 1.0 path widths means that the actual center of the asteroid's shadow path should fall within plus or minus 1 path width of the plotted path center. However path errors larger than 1 sigma have been observed so observers should be alert for primary occultations within plus or minus 3 sigma of the updated path.
Further, almost all asteroidal satellites discovered so far have been found within 10 diameters of the asteroid (since this distance is deep enough within the gravitational well to be stable over long timescales). Therefore, if monitoring for secondary events, observing out to about 10 path-widths either side of the predicted track remains worthwhile.
We therefore recommend that you monitor for events if your observing location is up to +/- 10 path-widths from the predicted track. If not monitoring for occultations by secondary bodies you should observe from locations within 3 sigma of the nominal path.
In terms of time, the predictions are now usually accurate to about +/- 0.3 minute so you should be most attentive during the predicted minute of the event. However if intending to catch a potential satellite occultation you should start observing at least 10 times the predicted central duration before the predicted closest approach time for your location, and continue for a similar period afterwards.
Path Co-ordinates :

                   Centre              Star  Star   Sun      Path Limits           Error Limits
  E. Longitude   Latitude      U.T.    Alt    Az   Alt    Limit 1    Limit 2    Limit 3    Limit 4
      o  '  "     o  '  "    h  m  s     o     o     o    o  '  "    o  '  "    o  '  "    o  '  "
                                                        Longitude  Longitude  Longitude  Longitude
    153  0 37   -38  0  0   14 15 55     1   324   -28  149 29 31  ... .. ..  148 42 49  ... .. ..
    152 12 23   -37  0  0   14 15 54     2   324   -29  148 50  3  156  8 17  148  5  3  ... .. ..
    151 30 19   -36  0  0   14 15 53     3   325   -30  148 15 27  155 14 52  147 31 53  156 15  5
    150 53 42   -35  0  0   14 15 52     4   325   -32  147 45 14  154 28 50  147  2 56  155 26  1
    150 21 58   -34  0  0   14 15 50     6   325   -33  147 19  1  153 49 11  146 37 49  154 43 52

    149 54 38   -33  0  0   14 15 47     7   325   -34  146 56 29  153 15  8  146 16 16  154  7 45
    149 31 21   -32  0  0   14 15 45     8   326   -35  146 37 23  152 46  8  145 58  1  153 37  0
    149 11 48   -31  0  0   14 15 42     9   326   -36  146 21 28  152 21 41  145 42 51  153 11  5
    148 55 45   -30  0  0   14 15 38    10   326   -37  146  8 35  152  1 24  145 30 37  152 49 33
    148 42 57   -29  0  0   14 15 35    11   326   -38  145 58 33  151 45  1  145 21 10  152 32  6

    148 33 15   -28  0  0   14 15 31    11   326   -39  145 51 13  151 32 14  145 14 20  152 18 27
    148 26 30   -27  0  0   14 15 26    12   326   -40  145 46 30  151 22 53  145 10  3  152  8 21
    148 22 34   -26  0  0   14 15 22    13   326   -41  145 44 18  151 16 48  145  8 13  152  1 39
    148 21 22   -25  0  0   14 15 17    14   326   -42  145 44 31  151 13 50  145  8 44  151 58 11
    148 22 48   -24  0  0   14 15 12    15   325   -43  145 47  6  151 13 54  145 11 34  151 57 52

    148 26 50   -23  0  0   14 15  6    16   325   -44  145 52  1  151 16 54  145 16 40  152  0 35
    148 33 25   -22  0  0   14 15  1    16   325   -45  145 59 12  151 22 47  145 24  0  152  6 18
    148 42 30   -21  0  0   14 14 55    17   325   -46  146  8 38  151 31 32  145 33 32  152 14 59
    148 54  5   -20  0  0   14 14 48    18   325   -47  146 20 20  151 43  8  145 45 15  152 26 36
    149  8 11   -19  0  0   14 14 42    19   324   -48  146 34 16  151 57 35  145 59 10  152 41 11

    149 24 49   -18  0  0   14 14 35    19   324   -49  146 50 27  152 14 56  146 15 17  152 58 45
    149 44  0   -17  0  0   14 14 27    20   324   -49  147  8 56  152 35 13  146 33 38  153 19 23
    150  5 48   -16  0  0   14 14 20    20   323   -50  147 29 44  152 58 31  146 54 14  153 43 10

Uncertainty in time = +/- 2 secs

Prediction of 2014 Nov 12.0

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