Weekly Information about Bright Comets (2011 Jan. 15: South)

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Updated on February 2, 2011
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Best time and the azimuth, altitude (A,h) are at lat. 35 deg in the Southern Hemisphere.
Azimuth indicates 0 for south, 90 for west, 180 for north, 270 for east.

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* 103P/Hartley 2

It approached to the earth down to 0.12 A.U. and brightened up to 4.6 mag in October (Oct. 18, Juan Jose Gonzalez). It was very large, double of the full moon, and very bright, visible with naked eyes. Now it is fading, but still bright as 9.5 mag (Jan. 15, Juan Jose Gonzalez). After this, it keeps observable for a long time until June when it fades down to 17 mag.

Date(TT)  R.A. (2000) Decl.   Delta     r    Elong.  m1   Best Time(A, h)  
Jan. 15   7  8.39  -13 39.2   0.573   1.486   143    9.9  23:29 (180, 69)  
Jan. 22   7  5.54  -11 38.0   0.637   1.546   144   10.5  22:59 (180, 66)  

* 9P/Tempel 1

Now it is 12.9 mag (Dec. 27, Ken-ichi Kadota). Bright, but it locates extremely low. It will be fading after this. The condition in this apparition is bad. It will be getting higher gradually after February in the Southern Hemisphere, however, it keeps extremely low until May in the Northern Hemisphere.

Date(TT)  R.A. (2000) Decl.   Delta     r    Elong.  m1   Best Time(A, h)  
Jan. 15  17 46.71  -23 28.8   2.315   1.511    27   12.3   3:19 (296,  3)  
Jan. 22  18 10.60  -24  2.5   2.297   1.513    29   12.3   3:28 (295,  6)  

* C/2009 P1 ( Garradd )

Already very bright, much brighter than expected, as 10.5 mag (Jan. 3, Alexandre Amorim). It is expected to keep so bright as 6-8 mag for a long time from 2011 to 2012, and to be observable in good condition in the Northern Hemisphere. It will be unobservable soon. It will appear in the morning sky in late March in the Southern Hemisphere, or in late April in the Northern Hemisphere.

Date(TT)  R.A. (2000) Decl.   Delta     r    Elong.  m1   Best Time(A, h)  
Jan. 15  22  3.86  -25 41.9   5.164   4.362    32   13.1  20:58 ( 64,  8)  
Jan. 22  22  6.88  -24 41.9   5.156   4.296    26   13.0  20:53 ( 63,  4)  

* (596) Scheila

Big asteroid discovered in 1906. It suddenly showed the cometary activity on Dec. 11, probably due to an impact of a small object. It was very bright as 11.5 mag visually (Dec. 17, Juan Jose Gonzalez). It has a dust coma still on Jan. 9 (Joseph Brimacombe).

Date(TT)  R.A. (2000) Decl.   Delta     r    Elong.  m1   Best Time(A, h)  
Jan. 15   9 53.16   32 16.1   2.169   3.057   149   13.6   2:18 (180, 23)  
Jan. 22   9 48.49   33 13.6   2.125   3.046   155   13.5   1:46 (180, 22)  

* 29P/Schwassmann-Wachmann 1

Now it is 13.8 mag (Dec. 18, D. Chestnov and A. Novichonok).

Date(TT)  R.A. (2000) Decl.   Delta     r    Elong.  m1   Best Time(A, h)  
Jan. 15  11 16.35   -1  1.7   5.645   6.245   123   13.7   3:19 (190, 56)  
Jan. 22  11 15.05   -1  3.5   5.554   6.246   131   13.7   3:12 (180, 56)  

* C/2009 Y1 ( Catalina )

Now it is 12.9 mag, much brighter than originally expected and visible visually (Dec. 4, Seiichi Yoshida). In the Southern Hemisphere, it will be unobservable until spring. In the Northern Hemisphere, it will be getting lower after this. The altitude will be lower than 10 degree from February to April.

Date(TT)  R.A. (2000) Decl.   Delta     r    Elong.  m1   Best Time(A, h)  
Jan. 15  21 26.41   32 49.7   2.882   2.525    59   14.0  20:58 (110,-31)  
Jan. 22  21 39.00   30 40.0   2.964   2.522    54   14.1  20:53 (107,-32)  

* C/2010 B1 ( Cardinal )

Now it is 13.7 mag and visible visually (Jan. 2, Carlos Labordena). It has a long tail by CCD observations. It keeps observable at 14-15 mag in good condition until spring.

Date(TT)  R.A. (2000) Decl.   Delta     r    Elong.  m1   Best Time(A, h)  
Jan. 15   5 24.93  -10 55.7   2.191   2.951   132   14.4  21:45 (180, 66)  
Jan. 22   5 12.13  -12 25.3   2.272   2.946   124   14.5  21:05 (180, 68)  

* C/2009 F4 ( McNaught )

Now it is 14.7 mag (Dec. 27, D. Chestnov and A. Novichonok). It keeps bright as 14-15 mag for a long time after this until 2013. It is not observable in the Northern Hemisphere, but it is observable in good condition in the Southern Hemisphere.

Date(TT)  R.A. (2000) Decl.   Delta     r    Elong.  m1   Best Time(A, h)  
Jan. 15  16  5.06  -61  6.4   6.540   6.027    54   14.9   3:19 (324, 36)  
Jan. 22  16 11.17  -62 20.1   6.451   6.006    59   14.8   3:28 (325, 40)  

* C/2009 K5 ( McNaught )

It brightened up to 7.9 mag in April and May (May 5, Juan Jose Gonzalez). Now it is fading. The central part is so faint as 16-17 mag. However, extremely faint large coma extends, and the total brightness is still bright as 14.3 mag (Dec. 27, D. Chestnov and A. Novichonok). It keeps observable for a long time until when it fades out in the Northern Hemisphere. It is not observable in the Southern Hemisphere.

Date(TT)  R.A. (2000) Decl.   Delta     r    Elong.  m1   Best Time(A, h)  
Jan. 15   4 19.90   36 11.2   2.849   3.595   133   15.0  20:58 (176, 19)  
Jan. 22   4 13.99   34 23.0   3.007   3.665   125   15.2  20:53 (170, 20)  

* C/2006 W3 ( Christensen )

It reached up to 7.7 mag in 2009 summer (2009 Aug. 13, Chris Wyatt). It is fading now. It will never be observable again in the Northern Hemisphere. It becomes low also in the Southern Hemisphere. Therefore, no observations have been reported since October. But it will be getting higher after January. In the Southern Hemisphere, it keeps observable in good condition until 2011 autumn when it becomes fainter than 18 mag.

Date(TT)  R.A. (2000) Decl.   Delta     r    Elong.  m1   Best Time(A, h)  
Jan. 15  18  5.30  -50 34.7   6.695   5.919    35   15.1   3:19 (321, 16)  
Jan. 22  18  9.26  -51  7.8   6.689   5.967    39   15.2   3:28 (318, 21)  

* C/2006 S3 ( LONEOS )

It is already bright as 14.5 mag and visible visually (Sept. 30, Alan Hale). Now it is unobservable. But it will appear in the morning sky in late February in the Northern Hemisphere, or in late March in the Southern Hemisphere. It will be observable at 13-14 mag for a long time from 2011 to 2012.

Date(TT)  R.A. (2000) Decl.   Delta     r    Elong.  m1   Best Time(A, h)  
Jan. 15  20 16.98   -7 18.8   7.106   6.167    15   15.2  20:58 ( 62,-23)  
Jan. 22  20 18.85   -7 14.7   7.095   6.139    12   15.2  20:53 ( 58,-27)  

* C/2010 G2 ( Hill )

A small outburst occured and it brightened by 2 mag, up to 16.1 mag, on 2010 Aug. 31 (Bernhard Haeusler). Now it is 15.2 mag (Dec. 22, Ken-ichi Kadota). It will brighten up to 11.5 mag in autumn. In the Northern Hemisphere, it keeps observable for a long time until 2012 spring. In the Southern Hemisphere, it is not observable until November.

Date(TT)  R.A. (2000) Decl.   Delta     r    Elong.  m1   Best Time(A, h)  
Jan. 15  16 56.59   26 45.9   3.618   3.290    62   15.5   3:19 (248,-15)  
Jan. 22  17  4.48   28 39.3   3.491   3.232    66   15.3   3:28 (243,-11)  

* 10P/Tempel 2

It has kept bright as 8.5 mag since July until September. Now it is fading, but it is still bright as 13.2 mag (Dec. 27, D. Chestnov and A. Novichonok). It may be visible visually in January.

Date(TT)  R.A. (2000) Decl.   Delta     r    Elong.  m1   Best Time(A, h)  
Jan. 15   1 48.90   -1 59.6   2.098   2.320    90   15.4  20:58 (121, 39)  
Jan. 22   1 56.99   -0 30.9   2.225   2.364    85   15.7  20:53 (119, 35)  

* C/2010 FB87 ( WISE-Garradd )

Now it is 15.3 mag (Dec. 27, D. Chestnov and A. Novichonok), much brighter than originally expected. It keeps 16 mag until 2011 spring. It keeps observable in good condition in the Southern Hemisphere. But in the Northern Hemisphere, it locates very low in 2011 spring only.

Date(TT)  R.A. (2000) Decl.   Delta     r    Elong.  m1   Best Time(A, h)  
Jan. 15   7 43.85  -67 54.6   2.742   2.926    90   15.5   0:10 (  0, 57)  
Jan. 22   7 10.77  -65 37.9   2.712   2.944    93   15.5  23:02 (  0, 60)  

* 240P/2010 P1 ( NEAT )

It reached up to 14.0 mag and became visible visually in December (Dec. 17, Juan Jose Gonzalez). It keeps locating high in the Northern Hemisphere after this. But it will be fading. It will be fainter than 18 mag in April. It locates low in the Southern Hemisphere.

Date(TT)  R.A. (2000) Decl.   Delta     r    Elong.  m1   Best Time(A, h)  
Jan. 15   6 17.29   42 39.2   1.355   2.270   151   15.6  22:38 (180, 12)  
Jan. 22   6 12.09   43 25.0   1.412   2.290   145   15.7  22:06 (180, 12)  

* C/2008 FK75 ( Lemmon-Siding Spring )

Now it is 15.2 mag (Nov. 27, A. Novichonok and D. Chestnov). It will be fading very slowly after this. In the Northern Hemisphere, it temporarily becomes low in January, but it keeps observable for a long time until 2012 spring when it fades down to 17-18 mag. It will not be observable in the Southern Hemisphere.

Date(TT)  R.A. (2000) Decl.   Delta     r    Elong.  m1   Best Time(A, h)  
Jan. 15  19 59.34   32 32.0   5.105   4.594    53   15.7  20:58 (102,-48)  
Jan. 22  20  9.78   32 54.2   5.134   4.605    52   15.7   3:28 (258,-49)  

* 43P/Wolf-Harrington

Now it is 16.5 mag (Jan. 6, Ken-ichi Kadota). It has a long tail by CCD observations. It keeps observable after this while fading gradually.

Date(TT)  R.A. (2000) Decl.   Delta     r    Elong.  m1   Best Time(A, h)  
Jan. 15  13 14.31  -25 11.5   2.237   2.405    87   15.7   3:19 (262, 58)  
Jan. 22  13 18.28  -26  4.7   2.192   2.453    93   15.8   3:28 (256, 65)  

* P/2010 V1 ( Ikeya-Murakami )

Bright new comet discovered visually by Kaoru Ikeya and Shigeki Murakami. It was so bright as 7.6 mag at that time (Nov. 4, Juan Jose Gonzalez). Now it is 14.8 mag (Jan. 7, Ken-ichi Kadota). Its envelope similar to 17P/Holmes is getting diffuse rapidly. The central nucleus has faded down to 17.9 mag (Jan. 14, Leonid Elenin). In the Northern Hemisphere, it keeps observable for a long time after this in the morning low sky. It locates very low in the Southern Hemisphere, but it will be getting higher gradually.

Date(TT)  R.A. (2000) Decl.   Delta     r    Elong.  m1   Best Time(A, h)  
Jan. 15  15 29.54  -22 20.1   2.105   1.804    58   15.9   3:19 (278, 29)  
Jan. 22  15 44.69  -23 42.4   2.073   1.834    62   16.5   3:28 (277, 35)  

* 123P/West-Hartley

Now it is 16.5 mag (Dec. 23, G. Muler, R. Naves). In the Northern Hemisphere, it keeps observable in good condition until 2011 spring when it brightens up to 16 mag. In the Southern Hemisphere, it keeps locating low.

Date(TT)  R.A. (2000) Decl.   Delta     r    Elong.  m1   Best Time(A, h)  
Jan. 15   4 48.56   38 39.0   1.672   2.495   138   16.6  21:10 (180, 16)  
Jan. 22   4 45.50   38 37.4   1.706   2.469   131   16.5  20:53 (177, 16)  

* C/2005 L3 ( McNaught )

It had been bright as 13-14 mag for a long time from 2007 to 2009. Now it is fading, but it is 15.3 mag still now (Dec. 10, D. Chestnov and A. Novichonok), much brighter than predicted. It keeps observable at 16 mag in good condition until spring.

Date(TT)  R.A. (2000) Decl.   Delta     r    Elong.  m1   Best Time(A, h)  
Jan. 15  11 49.99   38 52.0   8.768   9.370   125   16.6   3:19 (191, 15)  
Jan. 22  11 46.51   39 26.3   8.733   9.405   130   16.7   3:28 (183, 16)  

* C/2010 A4 ( Siding Spring )

Now it is 17.0 mag (Dec. 28, D. Chestnov & A. Novichonok). It will be fading slowly after this. It is not observable at all in the Northern Hemisphere. In the Southern Hemisphere, it will be getting lower gradually after this.

Date(TT)  R.A. (2000) Decl.   Delta     r    Elong.  m1   Best Time(A, h)  
Jan. 15   0 14.30  -54 15.0   3.288   2.918    59   16.7  20:58 ( 46, 42)  
Jan. 22   0 14.86  -51  6.3   3.379   2.944    56   16.8  20:53 ( 49, 38)  

* P/2010 WK ( LINEAR )

Now it is 16.4 mag (Jan. 13, Toru Yusa). It is observable in good condition in the Northern Hemisphere. It must have been bright as 16 mag since September, but it was not discovered. It will be fading after this, and will be fainter than 18 mag in February. It locates low in the Southern Hemisphere.

Date(TT)  R.A. (2000) Decl.   Delta     r    Elong.  m1   Best Time(A, h)  
Jan. 15   5  4.84   43 17.4   1.135   1.993   140   16.8  21:27 (180, 12)  
Jan. 22   5  8.60   42 28.7   1.209   2.027   134   17.0  21:03 (180, 13)  

* C/2009 K3 ( Beshore )

It was observed only during 3 days in 2009 May, then it has been lost. The ephemeris says that it passes the perihelion in 2011 January and it will be observable at 17 mag. But actually, it will not be found.

Date(TT)  R.A. (2000) Decl.   Delta     r    Elong.  m1   Best Time(A, h)  
Jan. 15   7  0.89  -18 40.1   3.109   3.902   138   16.9  23:21 (180, 74)  
Jan. 22   6 45.17  -18 10.0   3.134   3.903   136   16.9  22:38 (180, 73)  

* 247P/2010 V3 ( LINEAR )

Asteroid discovered in 2002 was revealed to be a comet. Now it is 16.6 mag (Dec. 26, Ken-ichi Kadota). It will be fading after this, and will be fainter than 18 mag in February. It is observable in good condition in the Northern Hemisphere. It is not observable in the Southern Hemisphere.

Date(TT)  R.A. (2000) Decl.   Delta     r    Elong.  m1   Best Time(A, h)  
Jan. 15   6 34.64   53 29.1   0.572   1.489   145   17.0  22:57 (180,  1)  
Jan. 22   6 39.98   53 59.8   0.597   1.498   141   17.1  22:35 (180,  1)  

* C/2008 S3 ( Boattini )

Now it is 17.5 mag (Dec. 9, Catalina Sky Survey). It keeps 17 mag for a long time from 2009 to 2012. It is observable in good condition in the Northern Hemisphere. It locates somewhat low in the Southern Hemisphere.

Date(TT)  R.A. (2000) Decl.   Delta     r    Elong.  m1   Best Time(A, h)  
Jan. 15   0 52.04   15  7.8   8.115   8.065    83   17.1  20:58 (123, 17)  
Jan. 22   0 51.10   15  0.1   8.236   8.061    76   17.1  20:53 (119, 13)  

* C/2010 S1 ( LINEAR )

Now it is 16.9 mag (Nov. 28, A. Novichonok and D. Chestnov). It is expected to be 15 mag and will be observable in good condition in 2013. It is observable in good condition in the Northern Hemisphere, but not observable in the Southern Hemisphere now.

Date(TT)  R.A. (2000) Decl.   Delta     r    Elong.  m1   Best Time(A, h)  
Jan. 15   1 35.99   57  5.3   7.981   8.314   106   17.2  20:58 (157,-10)  
Jan. 22   1 33.44   56 28.7   8.039   8.282   100   17.2  20:53 (154,-11)  

* 2008 YB3

Large Centaur-type asteroid. Now it is 17.0 mag (Jan. 7, Tzec Maun Observatory). It keeps observable at 17-18 mag for a long time until 2013.

Date(TT)  R.A. (2000) Decl.   Delta     r    Elong.  m1   Best Time(A, h)  
Jan. 15   7 50.28  -16 20.4   5.683   6.489   142   17.3   0:16 (180, 71)  
Jan. 22   7 45.02  -15 33.6   5.668   6.489   143   17.3  23:38 (180, 71)  

* 203P/2008 R4 ( Korlevic )

Now it is 17.2 mag (Dec. 27, Charles Bell). It tends to be brightest after the perihelion passage. At the discovery in 1999, it became brightest one year after the perihelion passage. At this time, it became brightest three months after the perihelion passage, then it is fading. It keeps observable in good condition at 18 mag until may.

Date(TT)  R.A. (2000) Decl.   Delta     r    Elong.  m1   Best Time(A, h)  
Jan. 15  10 33.27    6 41.3   2.862   3.642   136   17.3   2:58 (180, 48)  
Jan. 22  10 30.80    6 49.0   2.812   3.658   144   17.3   2:28 (180, 48)  

* C/2007 VO53 ( Spacewatch )

Now it is 17.4 mag (Jan. 5, Tzec Maun Observatory). It is fading slowly. In the Northern Hemisphere, it keeps observable in good condition until 2011 summer. It is not observable in the Southern Hemisphere.

Date(TT)  R.A. (2000) Decl.   Delta     r    Elong.  m1   Best Time(A, h)  
Jan. 15  17 24.10   43  3.8   5.476   5.257    72   17.5   3:19 (235,-28)  
Jan. 22  17 28.17   43  3.6   5.470   5.278    73   17.5   3:28 (232,-23)  

* C/2011 A3 ( Gibbs )

Now it is 17.9 mag (Jan. 17, Ken-ichi Kadota). It keeps 15 mag from 2011 summer to 2012 summer. But it is not observable around the perihelion. It is observable in good condition in the Northern Hemisphere in 2011, and in the Southern Hemisphere in 2012.

Date(TT)  R.A. (2000) Decl.   Delta     r    Elong.  m1   Best Time(A, h)  
Jan. 15  13 27.57   16  4.7   3.934   4.212    99   17.7   3:19 (222, 27)  
Jan. 22  13 31.50   16 37.0   3.785   4.157   105   17.6   3:28 (214, 31)  

* 223P/2009 L18 ( Skiff )

It brightened after the perihelion passage, and it was observed at 17.5 mag in good condition in the Northern Hemisphere from October to December. It will be fainter than 18 mag soon. It is not observable in the Southern Hemisphere.

Date(TT)  R.A. (2000) Decl.   Delta     r    Elong.  m1   Best Time(A, h)  
Jan. 15   1 59.34   48  1.7   2.173   2.648   107   17.9  20:58 (155,  0)  
Jan. 22   2  7.99   47 30.1   2.262   2.667   103   18.0  20:53 (153, -1)  

* 31P/Schwassmann-Wachmann 2

Now it is 18.1 mag (Dec. 13, Tzec Maun Observatory). It was observed at 18 mag in winter between 2009 and 2010. It will be observable again at 18 mag in good condition from winter to spring in 2011.

Date(TT)  R.A. (2000) Decl.   Delta     r    Elong.  m1   Best Time(A, h)  
Jan. 15  11  0.61   10  1.5   2.718   3.452   131   17.9   3:19 (182, 45)  
Jan. 22  10 59.39   10 21.1   2.650   3.456   139   17.9   2:57 (180, 45)  

* 88P/Howell

It was predicted so faint as 19 mag. But actually it is observed much brighter than expected, 16.6 mag on Dec. 7 (Catalina Sky Survey), and 15.7 mag on Dec. 31 (Francois Kugel). Maybe it is in outburst.

Date(TT)  R.A. (2000) Decl.   Delta     r    Elong.  m1   Best Time(A, h)  
Jan. 15   3 56.39   21 59.0   3.099   3.776   127   19.2  20:58 (169, 32)  
Jan. 22   3 55.11   21 56.1   3.218   3.805   119   19.3  20:53 (163, 31)  

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