Images of The Asteroid 2016 UG on 2016-11-15 and 2016-11-16

Asteroid(and comet) observing is done by taking a series of images of a section of the night sky over a period of time with a telescope and CCD. Then data reduction is performed on the images looking for moving objects. The observer needs to make two or more observation for each moving object. All “known” objects have a designation, if the observer knows the object’s designation the observation can be reported using the object's designation. If the observer is not trying to identify objects, it is an unknown object or if there is any doubt, an observer-assigned temporary designation is used. The Minor Planet Center’s(MPC) computers check to see if any observations reported  with an observer-assigned temporary designation matchs a “known” objects,  If  any are  "unknown" and its "NEO score is 65” it is posted to “The NEOConfirmation Page”(NEOCP). 

Many observers watch the NEOCP and do follow-up observation on listed objects.   As more observational data comes in better orbital elements can be generated, the "unknown" object may be shown to be a "known" object or shown to be a "new" object. When there are enough observations to generate useful orbital elements the object is assigned a provisional designation by the Minor Planet Center if the object is a NEO, a comet, or unusual a Minor Planet Electronic Circular will be issued.  It is possible over time with additional observational data two or more provisional designations maybe link showing they are the same object.   After four well-observed oppositions for main-belt (two to three for NEOs), asteroids are given a  number ( or their permanent designation and they are eligible to be named by the discoverer).

While many observers will targete NEOs for follow-up observations however other asteroids( i.e., Mars-crossers, main-belt, etc.) may be neglected and over time may become "lost."  On 2016-10-19  a new object was found by Pan-STARRS 1, it was posted to the NEOCP.  Three more observatories submitted observations, and on 2016-10-20.92 it was shown to be a Mars-crossing asteroid and the MPC assigned it the provisional designation 2016 UG.  Since it was not a NEO and pose no danger to Earth, no one targeted it for any follow-up observations.  Then on 2016-11-14 Pan-STARRS 1 reported observations for an object under an observer-assigned temporary designation and it was posted to the NEOCP.  Then observations were reported from two more observatories(including myself), and on 2016-11-16.06 the  "new" NEOCP object was shown to be the Mars-crossing asteroid, 2016 UG  and the orbital elements were updated.

Observations Made Before  the  Object  Was Updates.

A image of the asteroid 2016 UG on 2016-11-15
from Siding Spring Observatory, Coonabarabran, NSW, Australia. (MPC Q62)
a stack of 5 - 120 second luminance BIN2 images taken with iTelescope.net's
(TEL T27 0.70-m f/6.6 reflector + CCD)
(C) Steven M. Tilley

A image of the asteroid 2016 UG on 2016-11-15
from Siding Spring Observatory, Coonabarabran, NSW, Australia. (MPC Q62)
a stack of 5 - 120 second luminance BIN2 images taken with iTelescope.net's
(TEL T27 0.70-m f/6.6 reflector + CCD)
(C) Steven M. Tilley

A image of the asteroid 2016 UG on 2016-11-15
from Siding Spring Observatory, Coonabarabran, NSW, Australia. (MPC Q62)
a stack of 5 - 120 second luminance BIN2 images taken with iTelescope.net's
(TEL T27 0.70-m f/6.6 reflector + CCD)
(C) Steven M. Tilley

A image of the asteroid 2016 UG on 2016-11-15
from Siding Spring Observatory, Coonabarabran, NSW, Australia. (MPC Q62)
a stack of 15 - 120 second luminance BIN2 images taken with iTelescope.net's
(TEL T27 0.70-m f/6.6 reflector + CCD)
(C) Steven M. Tilley

Observations Made After  the  Object  Was Updates.

A image of the asteroid 2016 UG on 2016-11-16

 from Siding Spring Observatory, Coonabarabran, NSW, Australia. (MPC Q62)

 a stack of 5 - 120 second luminance BIN2 images taken with iTelescope.net's 

(TEL T27 0.70-m f/6.6 reflector + CCD)

 (C) Steven M. Tilley

A image of the asteroid 2016 UG on 2016-11-16
 from Siding Spring Observatory, Coonabarabran, NSW, Australia. (MPC Q62)
 a stack of 5 - 120 second luminance BIN2 images taken with iTelescope.net's 
(TEL T27 0.70-m f/6.6 reflector + CCD)
 (C) Steven M. Tilley

A image of the asteroid 2016 UG on 2016-11-16
 from Siding Spring Observatory, Coonabarabran, NSW, Australia. (MPC Q62)
 a stack of 15 - 120 second luminance BIN2 images taken with iTelescope.net's 
(TEL T27 0.70-m f/6.6 reflector + CCD)
 (C) Steven M. Tilley

Background 

(as of 2016-11-17)

• Object: 2016 UG
• Approximate Diameter: 1 km - 2 km (0.621371 miles to 1.24274 miles) (Absolute Magnitude: H= 17.683)
• Orbit Type: Mars-crossing Asteroid
• First Observation was made: 2016 10 19.51822
• First Observed By: Pan-STARRS 1 (MPC Code F51)
• MPECs
• MPEC 2016-U29 : DAILY ORBIT UPDATE (2016 OCT. 21 UT) 
• MPEC 2016-W01 : DAILY ORBIT UPDATE (2016 NOV. 16 UT)
• MPEC 2016-W03 : DAILY ORBIT UPDATE (2016 NOV. 17 UT)
• Data-Arc Span: 28 days

Other links:

• (MPC) Observations 2016 UG 
• JPL Orbit Diagram 2016 BE 
• Guide to Minor Body Astrometry (MPC)
•  Practical guide on how to observe NEOCP object  by Birtwhistle et al.

Confirmation Images of the Asteroid 2016 VC1

 Background

(as of 2016-11-06)

•  Object:  2016 VC1
• Approximate Diameter:  130 m - 290 m  ( 426.509 feet to  951.444  feet)(Absolute Magnitude:  H= 21.576 )
• Orbit Type: Apollo [NEO]  Potentially Hazardous Asteroid
• On the Sentry Risk Table:  NO
• On the NEODyS CLOMON2 risk page: No 
• First Observation was made: 2016 11 02.59825
• First Observed  By: Purple Mountain Observatory, XuYi Station, China (MPC Code D29)  The Discovery M.P.E.C.: MPEC 2016-V47 : 2016 VC1
• Last Observation was made(publish): 2016 11 06.85421  (by Bernezzo Observatory (MPC Code C77))
• Data-Arc Span(publish) : 4 days
• Number of Observations(published): 69
• Perihelion Distance:  0.7144718474842521(AU)
• Aphelion Distance: 3.872523314277046 (AU)
• Earth MOID:  0.0356285 AU ( 13.866 (LD)) or  3,311,875.979  miles (5,329,947.736 (KM))
• Next Close-Approach to Earth: Will safely pass Earth on 2016-Nov-22 at Nominal Distance of 0.0451994363061197  (AU) ( 17.59 (LD)) or  4,201,550.09  miles (6,761,739.428  (KM))

 



A confirmation image of the Near Earth Object 2016 VC1
on 2016-11-04 from Auberry California USA - (MPC Code U69)
a stack of 5 - 60 Second Luminance BIN2 Images using
itelescope.net's (t24 TEL 0.61-m f/6.5 reflector + CCD)
(C) Steven M. Tilley



A confirmation image of the Near Earth Object 2016 VC1
on 2016-11-04 from Auberry California USA - (MPC Code U69)
a stack of 5 - 60 Second Luminance BIN2 Images using
itelescope.net's (t24 TEL 0.61-m f/6.5 reflector + CCD)
(C) Steven M. Tilley



A confirmation image of the Near Earth Object 2016 VC1
on 2016-11-04 from Auberry California USA - (MPC Code U69)
a stack of 5 - 60 Second Luminance BIN2 Images using
itelescope.net's (t24 TEL 0.61-m f/6.5 reflector + CCD)
(C) Steven M. Tilley



A confirmation image of the Near Earth Object 2016 VC1
on 2016-11-04 from Auberry California USA - (MPC Code U69)
a stack of 5 - 60 Second Luminance BIN2 Images using
itelescope.net's (t24 TEL 0.61-m f/6.5 reflector + CCD)
(C) Steven M. Tilley



A confirmation image of the Near Earth Object 2016 VC1
on 2016-11-05 from Auberry California USA - (MPC Code U69)
a stack of 9 - 60 Second Luminance BIN2 Images using
itelescope.net's (t24 TEL 0.61-m f/6.5 reflector + CCD)
(C) Steven M. Tilley



A confirmation image of the Near Earth Object 2016 VC1
on 2016-11-05 from Auberry California USA - (MPC Code U69)
a stack of 9 - 60 Second Luminance BIN2 Images using
itelescope.net's (t24 TEL 0.61-m f/6.5 reflector + CCD)
(C) Steven M. Tilley



A confirmation image of the Near Earth Object 2016 VC1
on 2016-11-05 from Auberry California USA - (MPC Code U69)
a stack of 9 - 60 Second Luminance BIN2 Images using
itelescope.net's (t24 TEL 0.61-m f/6.5 reflector + CCD)
(C) Steven M. Tilley


Other links:

• Near Earth Objects Dynamic Site--2016 VC1
• (MPC) Observations 2016 VC1 
• JPL Orbit Diagram 2016 VC1 
• NEO Earth Close Approaches (JPL)
• The Tracking News 
• NEO Coordination Centre 
• Speed of Light - Space - Distance Calculator
• Asteroid Hazards: The View from Space(MPC) 
• Understanding Risk Pages By Jon Giorgini
•  An Asteroid as Entered the Blogosphere… Should I Be Worried? A commentary by Steven M. Tilley
•  Don’t fear apocalyptic asteroids: you’re safer than you think 

 

Confirmation Images of the Asteroid 2016 UZ106

 Background

(as of 2016-11-04)

• Object: 2016 UZ106 
• Approximate Diameter: 1 km - 2 km  (688.976  feet to 1541.99 feet)(Absolute Magnitude:  H= 17.5 )
• Orbit Type:  Inner Main-belt Asteroid [Hungaria]

A confirmation image of the hungaria asteroid 2016 UZ106  

on the night of 2016-11-02 from AstroCamp Observatory. Nerpio, Spain - (MPC Code I89) 

using itelescope.net's (t18 TEL 0.32-m f/8.0 reflector + CCD) 

a stack of 7 - 60 Second Luminance BIN2 Images 

(C) Steven M. Tilley

A confirmation image of the hungaria asteroid 2016 UZ106  
on the night of 2016-11-02 from AstroCamp Observatory. Nerpio, Spain - (MPC Code I89) 
using itelescope.net's (t18 TEL 0.32-m f/8.0 reflector + CCD) 
a stack of 7 - 60 Second Luminance BIN2 Images 
(C) Steven M. Tilley

A confirmation image of the hungaria asteroid 2016 UZ106  
on the night of 2016-11-02 from AstroCamp Observatory. Nerpio, Spain - (MPC Code I89) 
using itelescope.net's (t18 TEL 0.32-m f/8.0 reflector + CCD) 
a stack of 7 - 60 Second Luminance BIN2 Images 
(C) Steven M. Tilley

A confirmation image of the hungaria asteroid 2016 UZ106  
on the night of 2016-11-02 from AstroCamp Observatory. Nerpio, Spain - (MPC Code I89) 
using itelescope.net's (t18 TEL 0.32-m f/8.0 reflector + CCD) 
a stack of 21 - 60 Second Luminance BIN2 Images 
(C) Steven M. Tilley

A confirmation image of the hungaria asteroid 2016 UZ106  

on the night of 2016-11-03 from from Siding Spring Observatory, Coonabarabran, NSW, Australia. (MPC Q62)

using itelescope.net's (T32 TEL 0.43-m f/6.8 reflector + CCD)

 a stack of 10 - 60 Second Luminance BIN2 Images 

(C) Steven M. Tilley

A confirmation image of the hungaria asteroid 2016 UZ106  
on the night of 2016-11-03 from from Siding Spring Observatory, Coonabarabran, NSW, Australia. (MPC Q62)
using itelescope.net's (T32 TEL 0.43-m f/6.8 reflector + CCD)
 a stack of 10 - 60 Second Luminance BIN2 Images 
(C) Steven M. Tilley

A confirmation image of the hungaria asteroid 2016 UZ106  
on the night of 2016-11-03 from from Siding Spring Observatory, Coonabarabran, NSW, Australia. (MPC Q62)
using itelescope.net's (T32 TEL 0.43-m f/6.8 reflector + CCD)
 a stack of 10 - 60 Second Luminance BIN2 Images 
(C) Steven M. Tilley

Other links:

• (MPC) Observations 2016 UZ106  
• JPL Orbit Diagram 2016 UZ106  
• The NEO Confirmation Page(MPC) 
•  Practical guide on how to observe NEOCP object  by Birtwhistle et al.
• Asteroid-Meteorite Connections in the Hungaria Background Population
• Spratt, Christopher E. (April 1990). "The Hungaria group of minor planets". Journal of the Royal Astronomical Society of Canada. 84 (2): 123–131. Bibcode:1990JRASC..84..123S

A Confirmation Image of The NEO 2016 UE On 2016-10-20

A confirmation image of the Near-Earth Object 2016 UE
on 2016-10-20 from Siding Spring Observatory, Coonabarabran, NSW, Australia. (MPC Q62)
 a stack of 4 - 60 Second Luminance BIN2 Images taken with iTelescope.net's
(TEL T27 0.70-m f/6.6 reflector + CCD) (C) Steven M. Tilley



See:

• MPEC 2016-U25 : 2016 UE
• JPL Orbit Diagram 2016 UE 

Confirmation of the Near-Earth Object 2016 TJ17

Confirmation image of the Near-Earth Object 2016 TJ17 (absolute magnitude =25.4 ~28m) 
on 2016-10-08 a stack of 9-60 second luminance BIN2 taken 
with iTelescope.net's (T17 TEL 0.43-m f/6.8 reflector + CCD) 
at Observatory: Siding Spring - Australia (MPC code Q62)
By Steven M. Tilley

 

 Background

(as of 2016-10-09)

•  Object:  2016 TJ17
• Approximate Diameter: 22 m - 160.761 m(72.1785 feet to 1541.99 feet)( Absolute Magnitude:  H= 25.409 )
• Orbit Type: Apollo [NEO]
• On the Sentry Risk Table:  No  (Never has been listed )
• On the NEODyS CLOMON2 risk page: No 
• First Observed was made on: 2016 10 06.27431
• First Observed  By: Catalina Sky Survey, Arizona,USA (MPC Code 703) The Discovery M.P.E.C.: MPEC 2016-T82 : 2016 TJ17 see The Tracking News(Saturday, 8 October 2016) 
• Last Observed(publish):2016 10 09.26048
• Data-Arc Span(publish) : 3 days
  
•  Number of Observations(publish): 58
• Perihelion Distance:  0.7816366260606531
• Aphelion Distance: 3.537812747373569
• Earth MOID:   0.00117955(0.459 (LD)) 109,646.022 or miles (176,458.168 (KM))
• Last Close-Approach to Earth:  Passed the Earth on  at a Nominal Distance of 0.0031372716407202  (AU), (1.221Lunar Distance (LD)), or 291,627.618 miles ( 469,329.157(KM))

    Other links:

• Space Situational Awareness(ESA)  2016 TJ17
• Near Earth Objects Dynamic Site--2016 TJ17
• (MPC) Observations 2016 TJ17 
• JPL Orbit Diagram 2009 ES 
• NEO Earth Close Approaches (JPL)
• The Tracking News 
• NEO Coordination Centre 
• Speed of Light - Space - Distance Calculator
• Asteroid Hazards: The View from Space(MPC) 
• Understanding Risk Pages By Jon Giorgini
•  An Asteroid as Entered the Blogosphere… Should I Be Worried? A commentary by Steven M. Tilley
•  Don’t fear apocalyptic asteroids: you’re safer than you think 
• The NEO Confirmation Page(MPC) 
•  Practical guide on how to observe NEOCP object  by Birtwhistle et al.

The Recovery on 2nd Opposition of the Asteroid 2011 YS62 From 2015-09-26 To 2015-09-28

 Observing Runs Looking for 2011 YS62 from 2015-08-26 to 2015-08-28

When it comes to target selection there two criteria I use first is would additional observations be useful, the second is the target in range of the telescope's capability. To find targets I check one or all of the lists (see below) and see if the target is range of the telescope's capability (if it is important I will push the limit of the range) Then I will plan an observing run.  Recently I checked the Arecibo Asteroid Schedule and I saw they had requested optical astrometry for 2011 YS62.  At the time this asteroid had a data-arc span of 89 days and had been unobserved for 1314 days (3.597 years)

First Night 

I first did run of 15 - 120 Second Luminance BIN2 Images on itelescope.net's (TEL T27), with no luck,. Next I used  Find_Orb to generate new orbital elements with Epoch  2015 Sep 26.0  and did a another run 15. I also used  Find_Orb's Monte Carlo function to generate a lot of clones(virtual asteroids) orbital elements and then manually add them to Astrometrica's MPCOrb.dat file. Then  I created 3 stacks of  5 images and found a moving object near the known object box of one of the clones. I assigned  a temporary designation to the object and  submitted night one's observations to the Minor Planet Center. 

Astrometrica object verification window a stack (1 of  3 First Night )  a  stacks 5 - 120 Second Luminance BIN2 Images on itelescope.net's (TEL T27 0.70-m f/6.6 CDK astrograph + CCD)  at Siding Spring Observatory, Coonabarabran, NSW, Australia. (MPC Q62)

Astrometrica object verification window a stack (2 of  3 First Night )  a  stacks 5 - 120 Second Luminance BIN2 Images on itelescope.net's (TEL T27 0.70-m f/6.6 CDK astrograph + CCD)  at Siding Spring Observatory, Coonabarabran, NSW, Australia. (MPC Q62)

Astrometrica object verification window a stack (1 of  3 First Night )  a  stacks 5 - 120 Second Luminance BIN2 Images on itelescope.net's (TEL T27 0.70-m f/6.6 CDK astrograph + CCD)  at Siding Spring Observatory, Coonabarabran, NSW, Australia. (MPC Q62)

Second Night

Using Find_Orb I generated two orbits one was with just night one’s observations, the other with 2011 YS62 and night one's observations (“updated orbit”) and manually replaced the "clones" orbital elements.  Next I  ran a series of 6-120 Second Luminance BIN2 Images on  itelescope.net's (TEL T27) and  created a stacks of  5 images and found an object at the  known object  box for  the "updated orbit".  Then I ran a second run of 6 images and created a stack of 5 and saw that the object was moving.  Later on I ran another run of 15 images and created a 3 more stacks of 5 images. I assigned a (new) temporary designation to the object and submitted the second night’s observations to the Minor Planet Center.  Shortly thereafter the object was listed on the NEO Confirmation Page.              

Astrometrica object verification window a stack (1 of  5 Second Night )  a  stacks 5 - 120 Second Luminance BIN2 Images on itelescope.net's (TEL T27 0.70-m f/6.6 CDK astrograph + CCD)  at Siding Spring Observatory, Coonabarabran, NSW, Australia. (MPC Q62)

Astrometrica object verification window a stack (2 of  5 Second Night )  a  stacks 5- 120 Second Luminance BIN2 Images on itelescope.net's (TEL T27 0.70-m f/6.6 CDK astrograph + CCD)  at Siding Spring Observatory, Coonabarabran, NSW, Australia. (MPC Q62)

Astrometrica object verification window a stack (3 of  5 Second Night )  a  stacks 5- 120 Second Luminance BIN2 Images on itelescope.net's (TEL T27 0.70-m f/6.6 CDK astrograph + CCD)  at Siding Spring Observatory, Coonabarabran, NSW, Australia. (MPC Q62)

Astrometrica object verification window a stack (4 of  5 Second Night )  a  stacks 5- 120 Second Luminance BIN2 Images on itelescope.net's (TEL T27 0.70-m f/6.6 CDK astrograph + CCD)  at Siding Spring Observatory, Coonabarabran, NSW, Australia. (MPC Q62)

Astrometrica object verification window a stack (3 of  5 Second Night )  a  stacks 5- 120 Second Luminance BIN2 Images on itelescope.net's (TEL T27 0.70-m f/6.6 CDK astrograph + CCD)  at Siding Spring Observatory, Coonabarabran, NSW, Australia. (MPC Q62)

Third Night

I did the same orbit  update has I did the night before then, I obtain 32--120 Second Luminance BIN2 images with itelescope.net's (TEL T27) and created 3 stacks of  10  image and  submitted  the third night observations to the Minor Planet Center using the designation that was on the NEO Confirmation Page.

Astrometrica object verification window a stack (1 of  3 First Night )  a  stacks 10 - 120 Second Luminance BIN2 Images on itelescope.net's (TEL T27 0.70-m f/6.6 CDK astrograph + CCD)  at Siding Spring Observatory, Coonabarabran, NSW, Australia. (MPC Q62)

Astrometrica object verification window a stack (2 of  3 First Night )  a  stacks 10 - 120 Second Luminance BIN2 Images on itelescope.net's (TEL T27 0.70-m f/6.6 CDK astrograph + CCD)  at Siding Spring Observatory, Coonabarabran, NSW, Australia. (MPC Q62)

Astrometrica object verification window a stack (3 of  3 First Night )  a  stacks 10 - 120 Second Luminance BIN2 Images on itelescope.net's (TEL T27 0.70-m f/6.6 CDK astrograph + CCD)  at Siding Spring Observatory, Coonabarabran, NSW, Australia. (MPC Q62)

On 2015 Sept. 28 the Minor Planet Center issued MPEC 2015-S102: 2011 YS62  with the observations from the three nights of and updated orbital elements.

 Background

(as of 2015-09-30)

•  Object: 2011 YS62
• Approximate Diameter: 310 m - 680 m (1017.06 feet to 2230.97 feet) ( Absolute Magnitude:  H=  19.7 )
•  Orbit Type: Amor
• First Observed was made  on: 2011 12 29.15398
• First Observed  By: Pan-STARRS 1 (MPC Code F51) 
•  Assignment of asterisk: Catalina Sky Survey (MPC Code 703) For infomation on how discoverer is defined read MPEC 2010-U20 : EDITORIAL NOTICE
•  Last Observed: 2015 09 28.58389
•  Data-Arc Span: 1405 days (3.85 yr) 
•  Number Oppositions :2
•  Number of Observations Made:  85
• Next Close-Approach:  Will safely pass Earth on  2015-Nov-2 at Nominal Distance of 0.0914513682160852 AU (35.59(LD)) or 8,500,935.758 miles or ( 13,680,929.957 KM)
• On the Goldstone Asteroid Schedule: NO
• On the Arecibo Asteroid Schedule:  YES,  Dates: 2015 Nov 29 (Request Optical Astrometry: No(It was request before recovery was made), Request Optical  Lightcurve:NO, Request Optical Characterization NO)

  Target lists
   

• The NEO Confirmation Page
•  The Possible Comet Confirmation Page 
•  JPL's Sentry Risk Table 
•  the NEODyS CLOMON2 risk page:
•  Spaceguard Central Node's Priority List 
•  Near-Earth Object Human Space Flight Accessible Targets Study (NHATS)
•  The Goldstone Asteroid Schedule
•  The Arecibo Asteroid Schedule
• The Minor Planet Center(has some useful tools)

  Other Links

• Near Earth Objects Dynamic Site--2011 YS62
• (MPC) Observations 2011 YS62 
• JPL Orbit Diagram 2011 YS62 
• NEO Earth Close Approaches (JPL)
• The Tracking News 
• NEO Coordination Centre
• MPC's Guide to Minor Body Astronomy
• MPC Editorial Notice 2011-E67 
• List of removed objects 
• Palermo Technical Impact Hazard Scale
• The Torino Impact Hazard Scale
• Impact Risk Assessment: An Introduction 
• Practical guide on how to observe NEOCP object
• Understanding Risk Pages by Jon Giorgini