Кометы наблюдаемые в октябре 2016 года после ~13.0m. ..

Актуальная информация для наблюдения комет

Модераторы: Ulmo, Булдаков Сергей, Gremlin

Кометы наблюдаемые в октябре 2016 года после ~13.0m. ..

Непрочитанное сообщение Silvester » 01 окт 2016 01:41

Кометы в октябре 2016 года .:
Приведённый перечень комет, блеск которых превышает уровень в ~13.0m., в той или иной мере доступных для наблюдения в разные телескопы, на разных широтах, в октябре 2016 года ..

(3200) Phaethon 2016 10 20.44 UT: m1 = [15.0, Dia. = ..', DC = .., 0.40-m. L, f4.5 (x257).

2P/Encke 2016 10 31.93 18.3 N A77
2P/Encke 2016 10 31.85 ..C: m1 = 17.6, Dia. = 0.7', DC = .., 0.20-m. L, f4 (x440).
2P/Encke 2016 10 30.78 18.8 N K22
2P/Encke 2016 10 30.10 18.3 N H47
2P/Encke 2016 10 29.96 ..C: m1 = 16.7, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x90).
2P/Encke 2016 10 29.90 18.6 N A77
2P/Encke 2016 10 28.85 18.5 N A77
2P/Encke 2016 10 27.29 ..C: m1 = 17.9, Dia. = 0.7', DC = .., 0.25-m. L, f3 (x620).
2P/Encke 2016 10 23.27 18.1 N W96
2P/Encke 2016 10 22.24 18.2 N W96
2P/Encke 2016 10 19.87 18.3 N A77
2P/Encke 2016 10 12.56 17.2 N Q62
2P/Encke 2016 10 09.97 17.9 N C10
2P/Encke 2016 10 09.03 ..C: m1 = 17.2, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x90).
2P/Encke 2016 10 07.88 17.2 N A77
2P/Encke 2016 10 05.91 18.5 N A77
2P/Encke 2016 10 04.98 17.8 N A77
2P/Encke 2016 10 04.87 ..C: m1 = 18.4, Dia. = 0.4', DC = .., 0.20-m. L, f4 (x560).
2P/Encke 2016 10 03.95 18.1 N 958
2P/Encke 2016 10 03.94 17.9 N C10
2P/Encke 2016 10 02.18 17.9 T G96

9P/Tempel 1 2016 10 22.41 ..C: m1 = 14.4, Dia. = 2.3', DC = .., 0.106-m. R, f5 (x840).
9P/Tempel 1 2016 10 19.42 15.7 N Q62
9P/Tempel 1 2016 10 03.45 16.6 N Q68
9P/Tempel 1 2016 10 03.41 ..C: m1 = 13.5, Dia. = 4', DC = .., 0.106-m. R, f5 (x360).

10P/Tempel 2 2016 10 28.23 19.8 N J22
10P/Tempel 2 2016 10 28.23 ..C: m1 = 19.6, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150).

22P/Kopff 2016 10 30.32 691
22P/Kopff 2016 10 12.61 20.5 T F51
22P/Kopff 2016 10 06.01 19.6 N B96
22P/Kopff 2016 10 05.05 19.3 N B96

30P/Reinmuth 1 2016 10 30.39 18.0 T 703
30P/Reinmuth 1 2016 10 24.99 17.8 N I81
30P/Reinmuth 1 2016 10 22.31 18.1 N W96
30P/Reinmuth 1 2016 10 12.40 H06
30P/Reinmuth 1 2016 10 10.16 19.2 N G40
30P/Reinmuth 1 2016 10 05.02 18.6 N B96
30P/Reinmuth 1 2016 10 03.80 18.7 T D29

33P/Daniel 2016 10 15.23 19.7 T G40
33P/Daniel 2016 10 05.07 18.2 N A71

47P/Ashbrook-Jackson 2016 10 03.11 17.9 N W88

50P/Arend 2016 10 09.18 19.6 N I81
50P/Arend 2016 10 09.18 20.1 N I81

53P/Van Biesbroeck 2016 10 31.80 ..B: m1 = 16.0, Dia. = 0.17', DC = .., 0.08-m. R, f7 (x450).
53P/Van Biesbroeck 2016 10 31.76 ..S: m1 = 15.0, Dia. = 0.7', DC = 3, 0.60-m. L, f4 (x305).
53P/Van Biesbroeck 2016 10 30.82 ..B: m1 = 15.4, Dia. = 0.83', DC = 0, 0.08-m. R, f7 (x450).
53P/Van Biesbroeck 2016 10 29.78 16.3 N 107
53P/Van Biesbroeck 2016 10 28.93 ..C: m1 = 14.1, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x90).
53P/Van Biesbroeck 2016 10 26.78 ..B: m1 = 15.2, Dia. = 0.17', DC = 2, 0.08-m. R, f7 (x450).
53P/Van Biesbroeck 2016 10 25.42 UT: m1 = 14.4, Dia. = 0.6', DC = 1, 0.254-m. L, f4.7 (x83).
53P/Van Biesbroeck 2016 10 24.80 C51
53P/Van Biesbroeck 2016 10 24.42 UT: m1 = 14.3, Dia. = 0.9', DC = 1, рассеян. кома, 0.254-m. L, f4.7 (x83).
53P/Van Biesbroeck 2016 10 24.40 C51
53P/Van Biesbroeck 2016 10 24.00 16.4 N I45
53P/Van Biesbroeck 2016 10 23.42 UT: m1 = 14.3, Dia. = 1', DC = 1, рассеян. кома, хвоста нет, 0.254-m. L, f4.7 (x83).
53P/Van Biesbroeck 2016 10 21.14 17.9 T V83
53P/Van Biesbroeck 2016 10 20.76 17.0 T 215
53P/Van Biesbroeck 2016 10 16.36 16.3 N E94
53P/Van Biesbroeck 2016 10 13.72 16.4 T L71
53P/Van Biesbroeck 2016 10 10.34 16.4 T T05
53P/Van Biesbroeck 2016 10 07.85 16.4 N 958
53P/Van Biesbroeck 2016 10 04.819 ..S: m1 = 14.7, Dia. = 0.4', DC = 4, 0.305-m. T (x179).
53P/Van Biesbroeck 2016 10 04.816 ..S: m1 = 14.2, Dia. = 0.6', DC = 2, 0.305-m. T (x179).
53P/Van Biesbroeck 2016 10 04.15 15.0 T 703
53P/Van Biesbroeck 2016 10 02.49 14.7 T 349
53P/Van Biesbroeck 2016 10 02.21 16.0 N W96

56P/Slaughter-Burnham 2016 10 31.93 ..S: m1 = 15.5, Dia. = 0.3', DC = 4, 0.60-m. L, f4 (x305).
56P/Slaughter-Burnham 2016 10 30.99 ..B: m1 = 15.0, Dia. = 0.75', DC = s2, 0.08-m. R, f7 (x450).
56P/Slaughter-Burnham 2016 10 30.09 16.1 N J01
56P/Slaughter-Burnham 2016 10 29.20 ..C: m1 = 14.9, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x120).
56P/Slaughter-Burnham 2016 10 29.10 16.5 N K22
56P/Slaughter-Burnham 2016 10 26.85 ..B: m1 = 15.6, Dia. = 0.33', DC = 5, 0.08-m. R, f7 (x450).
56P/Slaughter-Burnham 2016 10 24.89 16.4 N I81
56P/Slaughter-Burnham 2016 10 23.36 16.2 N W96
56P/Slaughter-Burnham 2016 10 23.22 ..C: m1 = 15.3, Dia. = 0.3', DC = .., 0.25-m. L, f3 (x300).
56P/Slaughter-Burnham 2016 10 22.83 ..B: m1 = 15.2, Dia. = 1', DC = 2, 0.08-m. R, f7 (x450).
56P/Slaughter-Burnham 2016 10 21.92 16.4 N K25
56P/Slaughter-Burnham 2016 10 20.92 16.4 N K25
56P/Slaughter-Burnham 2016 10 17.35 16.2 N H47
56P/Slaughter-Burnham 2016 10 14.76 15.3 T 349
56P/Slaughter-Burnham 2016 10 13.50 15.3 T G96
56P/Slaughter-Burnham 2016 10 12.39 ..C: m1 = 15.2, Dia. = 0.3', DC = .., хвост = 1.3', pa = 240°, 0.25-m. L, f3 (x300).
56P/Slaughter-Burnham 2016 10 12.03 15.9 N C10
56P/Slaughter-Burnham 2016 10 10.44 16.5 N 850
56P/Slaughter-Burnham 2016 10 08.97 ..S: m1 = 15.5, Dia. = 0.2', DC = 5, 0.406-m. L, f4 (x258).
56P/Slaughter-Burnham 2016 10 08.40 16.1 N H47
56P/Slaughter-Burnham 2016 10 07.35 ..C: m1 = 15.1, Dia. = 0.3', DC = .., хвост = 2.1', pa = 255°, 0.25-m. L, f3 (x300).
56P/Slaughter-Burnham 2016 10 06.20 ..C: m1 = 14.6, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x120).
56P/Slaughter-Burnham 2016 10 05.40 16.2 N H47
56P/Slaughter-Burnham 2016 10 05.095 ..M: m1 = 14.9, Dia. = 0.3', DC = 6, 0.305-m. T (x179).
56P/Slaughter-Burnham 2016 10 05.092 ..S: m1 = 14.7, Dia. = 0.2', DC = 7, 0.305-m. T (x179).
56P/Slaughter-Burnham 2016 10 03.09 16.1 N K02
56P/Slaughter-Burnham 2016 10 01.43 16.0 N H47

73P/Schwassmann-Wachmann 3 2016 10 12.19 19.1 N C10
73P/Schwassmann-Wachmann 3 2016 10 10.19 18.7 N C10

74P/Smirnova-Chernykh 2016 10 30.47 17.8 N H47
74P/Smirnova-Chernykh 2016 10 26.33 18.6 N W96
74P/Smirnova-Chernykh 2016 10 25.03 17.8 N I81
74P/Smirnova-Chernykh 2016 10 14.38 18.3 N W96
74P/Smirnova-Chernykh 2016 10 11.74 17.4 T 349
74P/Smirnova-Chernykh 2016 10 11.46 17.9 N H47
74P/Smirnova-Chernykh 2016 10 10.07 17.9 N I81
74P/Smirnova-Chernykh 2016 10 08.45 18.4 N H47
74P/Smirnova-Chernykh 2016 10 05.46 18.4 N H47
74P/Smirnova-Chernykh 2016 10 02.36 17.8 N W96

93P/Lovas 1 2016 10 31.80 ..B: m1 = 15.9, Dia. = 0.58', DC = s1, 0.08-m. R, f7 (x450).
93P/Lovas 1 2016 10 30.83 ..B: m1 = 16.0, Dia. = 0.17', DC = 8, 0.08-m. R, f7 (x450).
93P/Lovas 1 2016 10 30.07 16.9 N H47
93P/Lovas 1 2016 10 29.88 ..C: m1 = 15.7, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x150).
93P/Lovas 1 2016 10 26.09 16.6 T H15
93P/Lovas 1 2016 10 23.10 16.8 N H47
93P/Lovas 1 2016 10 22.12 16.9 N H47
93P/Lovas 1 2016 10 19.37 16.9 T T05
93P/Lovas 1 2016 10 16.09 16.8 N H47
93P/Lovas 1 2016 10 10.37 17.0 T T05
93P/Lovas 1 2016 10 06.91 17.3 N 958
93P/Lovas 1 2016 10 04.26 16.8 N W96
93P/Lovas 1 2016 10 02.94 ..C: m1 = 16.3, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150).
93P/Lovas 1 2016 10 02.14 16.4 T G96

95P/Chiron 2016 10 29.94 ..C: m1 = 17.7, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x120).
95P/Chiron 2016 10 08.99 ..C: m1 = 17.9, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x120).

116P/Wild 4 2016 10 11.21 18.9 T 568

117P/Helin-Roman-Alu 1 2016 10 29.25 17.8 N J22
117P/Helin-Roman-Alu 1 2016 10 29.25 ..C: m1 = 17.3, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x200).
117P/Helin-Roman-Alu 1 2016 10 26.62 19.4 T F51
117P/Helin-Roman-Alu 1 2016 10 24.94 17.6 N I81
117P/Helin-Roman-Alu 1 2016 10 22.93 17.4 N I81
117P/Helin-Roman-Alu 1 2016 10 21.39 17.4 N H47
117P/Helin-Roman-Alu 1 2016 10 13.51 19.6 T F51
117P/Helin-Roman-Alu 1 2016 10 12.12 18.8 N A77
117P/Helin-Roman-Alu 1 2016 10 10.26 17.9 N W96
117P/Helin-Roman-Alu 1 2016 10 07.19 17.8 N A77
117P/Helin-Roman-Alu 1 2016 10 04.20 18.7 T J43

128P-B/Shoemaker-Holt 1 2016 10 29.22 ..C: m1 = 17.0, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x200).
128P-B/Shoemaker-Holt 1 2016 10 24.95 17.9 T I81
128P-B/Shoemaker-Holt 1 2016 10 24.69 17.9 T 349
128P-B/Shoemaker-Holt 1 2016 10 24.32 18.1 T W96
128P-B/Shoemaker-Holt 1 2016 10 21.33 17.7 T 703
128P-B/Shoemaker-Holt 1 2016 10 11.23 18.9 N G40
128P-B/Shoemaker-Holt 1 2016 10 10.12 19.2 N A77
128P-B/Shoemaker-Holt 1 2016 10 07.16 18.9 T A77
128P-B/Shoemaker-Holt 1 2016 10 03.06 18.2 T K02

136P/Mueller 3 2016 10 30.39 17.9 T 703
136P/Mueller 3 2016 10 28.10 ..C: m1 = 16.5, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x120).
136P/Mueller 3 2016 10 25.00 16.2 N I81
136P/Mueller 3 2016 10 24.23 17.8 N W96
136P/Mueller 3 2016 10 21.36 17.3 T G96
136P/Mueller 3 2016 10 14.20 18.9 T G40
136P/Mueller 3 2016 10 13.03 17.7 N C36
136P/Mueller 3 2016 10 11.67 17.5 T 349
136P/Mueller 3 2016 10 11.10 17.6 T Z22
136P/Mueller 3 2016 10 09.53 18.2 T T05
136P/Mueller 3 2016 10 05.01 18.0 N B96
136P/Mueller 3 2016 10 03.80 17.3 T D29
136P/Mueller 3 2016 10 02.21 ..C: m1 = 16.6, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x120).

139P/Vaisala-Oterma 2016 10 30.83 20.0 N A77

146P/Shoemaker-LINEAR 2016 10 31.26 ..C: m1 = 19.2, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x120).
146P/Shoemaker-LINEAR 2016 10 25.02 19.3 N I81
146P/Shoemaker-LINEAR 2016 10 11.42 18.7 T 703
146P/Shoemaker-LINEAR 2016 10 05.14 19.8 N B96

174P/Echeclus 2016 10 31.76 UT: m1 = [15.8, Dia. = ..', DC = .., 0.60-m. L, f4 (x305).
174P/Echeclus 2016 10 30.99 ..C: m1 = 15.6, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150).
174P/Echeclus 2016 10 28.09 ..C: m1 = 17.0, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150).
174P/Echeclus 2016 10 21.97 17.5 N 958
174P/Echeclus 2016 10 21.96 17.4 N A77
174P/Echeclus 2016 10 21.29 17.5 N W96
174P/Echeclus 2016 10 14.32 16.9 N W96
174P/Echeclus 2016 10 08.92 ..S: m1 = 15.5, Dia. = 0.1', DC = 8, 0.406-m. L, f4 (x201).
174P/Echeclus 2016 10 07.14 ..C: m1 = 15.0, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150).
174P/Echeclus 2016 10 05.06 17.6 N А77
174P/Echeclus 2016 10 04.15 ..C: m1 = 15.0, Dia. = 0.4', DC = .., 0.50-m. L, f3 (x150).
174P/Echeclus 2016 10 04.01 17.5 N 958
174P/Echeclus 2016 10 03.99 17.1 N C10
174P/Echeclus 2016 10 02.04 17.8 N А77
174P/Echeclus 2016 10 01.27 ..C: m1 = 15.9, m2 = 17.1, Dia. = 1.1', DC = .., 0.61-m. L, f7 (x300).

176P/LINEAR 2016 10 28.89 ..C: m1 = 18.5, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x250).

183P/Korlevic-Juric 2016 10 07.16 21.2 N I81

188P/LINEAR-Mueller 2016 10 31.87 18.3 N A77
188P/LINEAR-Mueller 2016 10 28.95 17.6 N J22
188P/LINEAR-Mueller 2016 10 28.95 ..C: m1 = 16.8, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x150).
188P/LINEAR-Mueller 2016 10 25.29 19.4 T F51
188P/LINEAR-Mueller 2016 10 22.16 17.6 N H47
188P/LINEAR-Mueller 2016 10 15.49 16.7 T 349
188P/LINEAR-Mueller 2016 10 10.40 17.7 T T05
188P/LINEAR-Mueller 2016 10 08.23 17.5 N W96
188P/LINEAR-Mueller 2016 10 04.97 ..C: m1 = 15.6, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x150).
188P/LINEAR-Mueller 2016 10 04.21 17.0 T G96

208P/McMillan 2016 10 09.39 19.8 T F51
208P/McMillan 2016 10 07.40 19.1 T 691
208P/McMillan 2016 10 04.96 18.7 N J01
208P/McMillan 2016 10 03.88 19.2 N B96
208P/McMillan 2016 10 02.30 18.1 T 703

219P/LINEAR 2016 10 15.80 18.3 N A77
219P/LINEAR 2016 10 09.81 18.0 N A77
219P/LINEAR 2016 10 03.85 ..C: m1 = 17.2, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150).

220P/McNaught 2016 10 10.63 23.7 T 568
220P/McNaught 2016 10 10.63 23.5 T 568

225P/LINEAR 2016 10 05.48 H06
225P/LINEAR 2016 10 04.15 21.5 N C10

226P/Pigott-LINEAR-Kowalski 2016 10 31.96 ..S: m1 = 15.2, Dia. = 0.7', DC = 3, 0.60-m. L, f4 (x305).
226P/Pigott-LINEAR-Kowalski 2016 10 30.99 ..B: m1 = 15.0, Dia. = 1.17', DC = 2, 0.08-m. R, f7 (x450).
226P/Pigott-LINEAR-Kowalski 2016 10 30.10 16.8 N I89
226P/Pigott-LINEAR-Kowalski 2016 10 28.19 ..C: m1 = 13.8, Dia. = 0.5', DC = .., 0.50-m. L, f3 (x120).
226P/Pigott-LINEAR-Kowalski 2016 10 26.86 ..B: m1 = 14.9, Dia. = 1.5', DC = 0, 0.08-m. R, f7 (x450).
226P/Pigott-LINEAR-Kowalski 2016 10 26.29 16.0 N W96
226P/Pigott-LINEAR-Kowalski 2016 10 24.90 15.9 N I81
226P/Pigott-LINEAR-Kowalski 2016 10 22.93 17.3 N I81
226P/Pigott-LINEAR-Kowalski 2016 10 22.84 ..B: m1 = 15.8, Dia. = 0.25', DC = 6, 0.08-m. R, f7 (x450).
226P/Pigott-LINEAR-Kowalski 2016 10 21.95 16.4 N K25
226P/Pigott-LINEAR-Kowalski 2016 10 17.98 16.4 N Z80
226P/Pigott-LINEAR-Kowalski 2016 10 17.39 16.2 N H47
226P/Pigott-LINEAR-Kowalski 2016 10 15.71 14.8 T 349
226P/Pigott-LINEAR-Kowalski 2016 10 14.34 16.2 N W96
226P/Pigott-LINEAR-Kowalski 2016 10 12.61 16.3 T T05
226P/Pigott-LINEAR-Kowalski 2016 10 10.46 16.0 N H47
226P/Pigott-LINEAR-Kowalski 2016 10 08.95 ..S: m1 = 14.8, Dia. = 0.4', DC = 3, 0.406-m. L, f4 (x201).
226P/Pigott-LINEAR-Kowalski 2016 10 08.08 16.1 N 107
226P/Pigott-LINEAR-Kowalski 2016 10 07.44 ..C: m1 = 15.3, Dia. = 0.7', DC = .., 0.25-m. L, f3 (x300).
226P/Pigott-LINEAR-Kowalski 2016 10 05.76 14.8 T 349
226P/Pigott-LINEAR-Kowalski 2016 10 05.43 16.5 N H47
226P/Pigott-LINEAR-Kowalski 2016 10 05.24 ..C: m1 = 13.7, Dia. = 0.4', DC = .., 0.50-m. L, f3 (x120).
226P/Pigott-LINEAR-Kowalski 2016 10 05.14 ..C: m1 = 14.5, Dia. = 1.9', DC = .., хвост = 0.06°, pa = 254°, 0.20-m. L, f4 (x680).
226P/Pigott-LINEAR-Kowalski 2016 10 03.11 16.9 N K02
226P/Pigott-LINEAR-Kowalski 2016 10 02.33 16.3 N W96

227P/Catalina-LINEAR 2016 10 26.46 20.5 T I52
227P/Catalina-LINEAR 2016 10 23.44 19.9 T G96

238P/Read 2016 10 30.26 20.2 T G96
238P/Read 2016 10 29.98 ..C: m1 = 19.3, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x200).
238P/Read 2016 10 21.22 19.5 T G96
238P/Read 2016 10 09.39 20.3 T F51
238P/Read 2016 10 04.97 18.8 N B96
238P/Read 2016 10 04.44 20.0 T 691

279P/La Sagra 2016 10 19.25 18.6 T G96
279P/La Sagra 2016 10 12.39 H06
279P/La Sagra 2016 10 10.32 19.3 T G96
279P/La Sagra 2016 10 06.55 20.2 T F51
279P/La Sagra 2016 10 06.26 19.8 T 703

288P/(300163) 2006 VW139 2016 10 28.91 ..C: m1 = 19.0, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x200).
288P/(300163) 2006 VW139 2016 10 08.98 ..C: m1 = 18.9, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x200).

302P/Lemmon-PANSTARRS 2016 10 02.50 18.9 T T05

315P/LONEOS 2016 10 26.37 15.7 N W96
315P/LONEOS 2016 10 20.63 16.5 T T05
315P/LONEOS 2016 10 10.14 16.5 N K02
315P/LONEOS 2016 10 10.13 16.3 N I81
315P/LONEOS 2016 10 05.78 15.7 T 349
315P/LONEOS 2016 10 04.50 16.0 T 703

317P/WISE 2016 10 02.58 23.6 T 568

333P/LINEAR 2016 10 01.91 18.9 N J22
333P/LINEAR 2016 10 01.91 ..C: m1 = 18.6, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x60).

338P/McNaught 2016 10 31.82 18.7 N A77
338P/McNaught 2016 10 29.86 18.4 N 160
338P/McNaught 2016 10 29.00 ..C: m1 = 16.7, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x120).
338P/McNaught 2016 10 27.61 17.5 T 349
338P/McNaught 2016 10 26.86 17.8 N K25
338P/McNaught 2016 10 22.89 17.9 N B96
338P/McNaught 2016 10 19.86 18.0 N A77
338P/McNaught 2016 10 10.44 17.7 T T05
338P/McNaught 2016 10 09.00 ..C: m1 = 16.0, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x120).
338P/McNaught 2016 10 06.47 18.2 T T05
338P/McNaught 2016 10 02.98 17.6 N K02

340P/Boattini 2016 10 30.81 19.5 T G36
340P/Boattini 2016 10 28.84 19.2 N J22
340P/Boattini 2016 10 28.83 ..C: m1 = 18.9, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x350).

341P/Gibbs 2016 10 11.33 17.5 T 703
341P/Gibbs 2016 10 07.15 ..C: m1 = 16.6, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x200).
341P/Gibbs 2016 10 06.54 19.5 T F51
341P/Gibbs 2016 10 01.11 18.6 N G40

343P/NEAT-LONEOS 2016 10 30.87 18.7 N A77
343P/NEAT-LONEOS 2016 10 29.93 17.7 N J22
343P/NEAT-LONEOS 2016 10 29.93 ..C: m1 = 16.9, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x200).
343P/NEAT-LONEOS 2016 10 27.65 17.9 T 349
343P/NEAT-LONEOS 2016 10 22.79 17.9 N A71
343P/NEAT-LONEOS 2016 10 20.83 18.5 N A77
343P/NEAT-LONEOS 2016 10 08.90 18.1 N K25
343P/NEAT-LONEOS 2016 10 04.93 17.9 N B96
343P/NEAT-LONEOS 2016 10 04.89 18.0 N K25
343P/NEAT-LONEOS 2016 10 02.16 17.6 T G96

P/2005 S3 (Read) 2016 10 31.24 ..C: m1 = 17.8, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x230).
P/2005 S3 (Read) 2016 10 28.53 18.9 T T05
P/2005 S3 (Read) 2016 10 26.63 19.4 T F51
P/2005 S3 (Read) 2016 10 24.96 18.2 N I81
P/2005 S3 (Read) 2016 10 24.64 18.4 T 349
P/2005 S3 (Read) 2016 10 02.22 19.0 N J22
P/2005 S3 (Read) 2016 10 02.22 ..C: m1 = 16.8, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x120).
P/2005 S3 (Read) 2016 10 02.15 19.4 T G40

P/2007 T6 (Catalina) 2016 10 31.19 ..C: m1 = 18.6, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x133).
P/2007 T6 (Catalina) 2016 10 30.43 19.6 T G45
P/2007 T6 (Catalina) 2016 10 27.71 18.9 T 349
P/2007 T6 (Catalina) 2016 10 07.58 19.9 T F51

P/2008 SH164 (LINEAR) 2016 10 04.32 18.6 T G96

C/2009 F4 (McNaught) 2016 10 28.92 K41

C/2010 U3 (Boattini) 2016 10 30.03 17.8 N J01
C/2010 U3 (Boattini) 2016 10 24.92 17.7 N I81
C/2010 U3 (Boattini) 2016 10 23.11 18.5 T 461
C/2010 U3 (Boattini) 2016 10 17.57 19.6 T F51
C/2010 U3 (Boattini) 2016 10 11.97 17.8 N C10
C/2010 U3 (Boattini) 2016 10 10.10 18.8 N C10
C/2010 U3 (Boattini) 2016 10 05.08 18.3 N B96

C/2011 J2 (LINEAR) 2016 10 28.50 19.7 N Q62

C/2011 KP36 (Spacewatch) 2016 10 31.93 16.3 N 958
C/2011 KP36 (Spacewatch) 2016 10 31.81 ..B: m1 = 12.8, Dia. = 1.33', DC = s3, 0.08-m. R, f7 (x450).
C/2011 KP36 (Spacewatch) 2016 10 31.43 UT: m1 = 13.6, Dia. = 1.1', DC = 2/3, рассеян. кома, 0.254-m. L, f4.7 (x83).
C/2011 KP36 (Spacewatch) 2016 10 30.96 ..B: m1 = 13.0, Dia. = 1', DC = s1, 0.08-m. R, f7 (x450).
C/2011 KP36 (Spacewatch) 2016 10 29.99 15.6 N J22
C/2011 KP36 (Spacewatch) 2016 10 29.99 ..C: m1 = 13.1, Dia. = 1.4', DC = .., 0.50-m. L, f3 (x120).
C/2011 KP36 (Spacewatch) 2016 10 29.17 ..C: m1 = 14.0, Dia. = 1.6', DC = .., 0.25-m. L, f3 (x300).
C/2011 KP36 (Spacewatch) 2016 10 28.90 16.2 N 958
C/2011 KP36 (Spacewatch) 2016 10 28.80 16.4 N A77
C/2011 KP36 (Spacewatch) 2016 10 26.84 UT: m1 = 12.3, Dia. = 1.5', DC = 3, 0.203-m. SCT, f10 (x100).
C/2011 KP36 (Spacewatch) 2016 10 26.84 ..B: m1 = 14.0, Dia. = 1.75', DC = s6, 0.08-m. R, f7 (x450).
C/2011 KP36 (Spacewatch) 2016 10 25.95 15.5 N J38
C/2011 KP36 (Spacewatch) 2016 10 25.42 UT: m1 = 13.9, Dia. = 1.3', DC = 3, рассеян. кома, 0.254-m. L, f4.7 (x83).
C/2011 KP36 (Spacewatch) 2016 10 24.61 16.0 N Q68
C/2011 KP36 (Spacewatch) 2016 10 24.43 UT: m1 = 13.5, Dia. = 1.5', DC = 3, рассеян. кома, хвоста нет, 0.254-m. L, f4.7 (x83).
C/2011 KP36 (Spacewatch) 2016 10 23.42 UT: m1 = 13.6, Dia. = 1.4', DC = 3, рассеян. кома, хвоста нет, 0.254-m. L, f4.7 (x83).
C/2011 KP36 (Spacewatch) 2016 10 23.22 ..C: m1 = 13.7, Dia. = 1.4', DC = .., 0.25-m. L, f3 (x300).
C/2011 KP36 (Spacewatch) 2016 10 23.14 15.7 N H47
C/2011 KP36 (Spacewatch) 2016 10 22.82 ..B: m1 = 13.8, Dia. = 1.5', DC = D6, кома, pa = 50°, 0.08-m. R, f7 (x450).
C/2011 KP36 (Spacewatch) 2016 10 22.27 15.7 N W96
C/2011 KP36 (Spacewatch) 2016 10 20.45 UT: m1 = 13.1, Dia. = 0.9', DC = 2, 0.40-m. L, f4.5 (x257).
C/2011 KP36 (Spacewatch) 2016 10 19.48 15.9 T T05
C/2011 KP36 (Spacewatch) 2016 10 19.42 UT: m1 = 13.2, Dia. = 1.7', DC = 3, рассеян. кома, хвоста нет, 0.254-m. L, f4.7 (x39).
C/2011 KP36 (Spacewatch) 2016 10 18.41 UT: m1 = 13.1, Dia. = 1.7', DC = 2/3, рассеян. кома, хвоста нет, 0.254-m. L, f4.7 (x39).
C/2011 KP36 (Spacewatch) 2016 10 17.30 15.7 N H47
C/2011 KP36 (Spacewatch) 2016 10 11.70 UT: m1 = 12.2, Dia. = 2.4', DC = 2/3, 0.254-m. L, f4.7 (x39).
C/2011 KP36 (Spacewatch) 2016 10 11.64 12.7 T 349
C/2011 KP36 (Spacewatch) 2016 10 11.45 15.7 T T05
C/2011 KP36 (Spacewatch) 2016 10 09.97 15.3 N J01
C/2011 KP36 (Spacewatch) 2016 10 08.91 ..S: m1 = 13.7, Dia. = 0.6', DC = 4, 0.406-m. L, f4 (x201).
C/2011 KP36 (Spacewatch) 2016 10 08.30 15.6 N W96
C/2011 KP36 (Spacewatch) 2016 10 05.71 UT: m1 = 12.2, Dia. = 2.8', DC = 3, рассеян. кома, хвоста нет, 0.254-m. L, f4.7 (x39).
C/2011 KP36 (Spacewatch) 2016 10 05.25 ..C: m1 = 13.1, Dia. = 1.8', DC = .., 0.25-m. L, f3 (x300).
C/2011 KP36 (Spacewatch) 2016 10 05.14 ..S: m1 = 14.2, Dia. = 1.3', DC = 3, 0.355-m. L, f5 (x178).
C/2011 KP36 (Spacewatch) 2016 10 04.890 ..S: m1 = 14.1, Dia. = 0.6', DC = 2, 0.305-m. T (x179).
C/2011 KP36 (Spacewatch) 2016 10 04.887 ..S: m1 = 14.0, Dia. = 0.6', DC = 3, 0.305-m. T (x179).
C/2011 KP36 (Spacewatch) 2016 10 04.47 UT: m1 = 12.8, Dia. = 3', DC = 3, 0.254-m. L, f4.7 (x39).
C/2011 KP36 (Spacewatch) 2016 10 04.30 15.6 N W96
C/2011 KP36 (Spacewatch) 2016 10 03.99 15.9 N 958
C/2011 KP36 (Spacewatch) 2016 10 01.87 ..S: m1 = 13.5, Dia. = 1', DC = 2, 0.453-m. L, f4 (x182).
C/2011 KP36 (Spacewatch) 2016 10 01.71 ..C: m1 = 13.5, Dia. = 1', DC = .., 0.312-m. L, f7 (x180).

C/2012 F3 (PANSTARRS) 2016 10 29.91 18.1 N J22
C/2012 F3 (PANSTARRS) 2016 10 29.91 ..C: m1 = 16.1, Dia. = 0.5', DC = .., 0.50-m. L, f3 (x150).
C/2012 F3 (PANSTARRS) 2016 10 25.29 20.6 T F51
C/2012 F3 (PANSTARRS) 2016 10 10.85 17.9 N 160
C/2012 F3 (PANSTARRS) 2016 10 04.23 17.5 T G96

C/2012 LP26 (Palomar) 2016 10 02.51 D95

C/2013 G3 (PANSTARRS) 2016 10 09.31 23.2 T 568
C/2013 G3 (PANSTARRS) 2016 10 09.31 23.5 T 568
C/2013 G3 (PANSTARRS) 2016 10 02.25 20.4 T G96

C/2013 P3 (Palomar) 2016 10 20.63 18.2 T Q60
C/2013 P3 (Palomar) 2016 10 08.38 19.2 T F51

C/2013 US10 (Catalina) 2016 10 30.98 ..B: m1 = 14.8, Dia. = 1.75', DC = s3, 0.08-m. R, f7 (x450).
C/2013 US10 (Catalina) 2016 10 30.49 15.6 T 703
C/2013 US10 (Catalina) 2016 10 29.52 16.8 T T05
C/2013 US10 (Catalina) 2016 10 29.17 ..C: m1 = 15.1, Dia. = 0.6', DC = .., 0.25-m. L, f3 (x300).
C/2013 US10 (Catalina) 2016 10 26.86 ..B: m1 = 14.9, Dia. = 0.25', DC = 1, 0.08-m. R, f7 (x450).
C/2013 US10 (Catalina) 2016 10 25.51 16.7 T T05
C/2013 US10 (Catalina) 2016 10 24.91 15.9 N I81
C/2013 US10 (Catalina) 2016 10 23.02 16.4 N I81
C/2013 US10 (Catalina) 2016 10 21.95 16.6 N 107
C/2013 US10 (Catalina) 2016 10 19.97 17.6 N Z80
C/2013 US10 (Catalina) 2016 10 17.53 16.6 T T05
C/2013 US10 (Catalina) 2016 10 14.71 14.8 T 349
C/2013 US10 (Catalina) 2016 10 13.55 16.6 T T05
C/2013 US10 (Catalina) 2016 10 09.98 16.4 N I81
C/2013 US10 (Catalina) 2016 10 07.58 16.8 T T05
C/2013 US10 (Catalina) 2016 10 07.24 ..C: m1 = 13.7, Dia. = 0.7', DC = .., 0.50-m. L, f3 (x90).
C/2013 US10 (Catalina) 2016 10 03.34 ..C: m1 = 14.9, Dia. = 0.5', DC = .., 0.51-m. L, f5 (x120).
C/2013 US10 (Catalina) 2016 10 03.08 16.3 N I81

C/2013 V4 (Catalina) 2016 10 28.22 17.0 N J22
C/2013 V4 (Catalina) 2016 10 28.22 ..C: m1 = 14.5, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150).
C/2013 V4 (Catalina) 2016 10 10.04 17.2 N I81
C/2013 V4 (Catalina) 2016 10 06.87 17.0 N I81

C/2013 X1 (PANSTARRS) 2016 10 05.99 16.5 N W88
C/2013 X1 (PANSTARRS) 2016 10 05.99 W88

C/2014 A4 (SONEAR) 2016 10 31.84 17.3 N B83
C/2014 A4 (SONEAR) 2016 10 30.90 ..C: m1 = 16.7, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x120).
C/2014 A4 (SONEAR) 2016 10 29.83 17.9 N 160
C/2014 A4 (SONEAR) 2016 10 29.33 17.6 T T05
C/2014 A4 (SONEAR) 2016 10 28.77 17.5 N K22
C/2014 A4 (SONEAR) 2016 10 25.33 17.6 T T05
C/2014 A4 (SONEAR) 2016 10 23.04 17.2 N H47
C/2014 A4 (SONEAR) 2016 10 18.83 16.9 N B96
C/2014 A4 (SONEAR) 2016 10 11.72 17.4 N 193
C/2014 A4 (SONEAR) 2016 10 09.84 17.1 N J01
C/2014 A4 (SONEAR) 2016 10 08.91 ..C: m1 = 16.8, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x120).
C/2014 A4 (SONEAR) 2016 10 07.37 17.5 T T05
C/2014 A4 (SONEAR) 2016 10 06.14 17.0 T H45
C/2014 A4 (SONEAR) 2016 10 03.92 17.5 N 958
C/2014 A4 (SONEAR) 2016 10 01.09 17.5 T V83

C/2014 B1 (Schwartz) 2016 10 25.46 17.3 N H47
C/2014 B1 (Schwartz) 2016 10 22.82 15.8 T 349
C/2014 B1 (Schwartz) 2016 10 22.46 17.2 N H47
C/2014 B1 (Schwartz) 2016 10 08.37 17.3 N W96

C/2014 HU195 2016 10 29.21 21.2 T 568
C/2014 HU195 2016 10 06.21 21.1 T 568

P/2014 MG4 (Spacewatch-PANSTARRS) 2016 10 25.47 21.8 T F51

C/2014 N3 (NEOWISE) 2016 10 10.02 16.7 N I81
C/2014 N3 (NEOWISE) 2016 10 05.96 18.7 N I81

C/2014 OE4 (PANSTARRS) 2016 10 29.75 17.0 N B96
C/2014 OE4 (PANSTARRS) 2016 10 22.81 17.0 N B96
C/2014 OE4 (PANSTARRS) 2016 10 21.86 17.4 N A77
C/2014 OE4 (PANSTARRS) 2016 10 12.10 16.6 T 703
C/2014 OE4 (PANSTARRS) 2016 10 03.82 16.5 N C23

C/2014 R3 (PANSTARRS) 2016 10 03.79 16.7 N C23

C/2014 W2 (PANSTARRS) 2016 10 31.77 ..B: m1 = 15.8, Dia. = 0.42', DC = 1, 0.08-m. R, f7 (x450).
C/2014 W2 (PANSTARRS) 2016 10 26.77 ..B: m1 = 15.4, Dia. = 1', DC = 0, 0.08-m. R, f7 (x450).
C/2014 W2 (PANSTARRS) 2016 10 22.79 ..B: m1 = 16.0, Dia. = 0.25', DC = 0, 0.08-m. R, f7 (x450).
C/2014 W2 (PANSTARRS) 2016 10 15.41 14.6 T 349
C/2014 W2 (PANSTARRS) 2016 10 15.40 349
C/2014 W2 (PANSTARRS) 2016 10 15.40 14.6 T 349
C/2014 W2 (PANSTARRS) 2016 10 11.09 ..C: m1 = 14.8, Dia. = 0.7', DC = .., 0.25-m. L, f3 (x300).
C/2014 W2 (PANSTARRS) 2016 10 06.84 16.4 N I81
C/2014 W2 (PANSTARRS) 2016 10 03.78 16.2 N B96

C/2015 B2 (PANSTARRS) 2016 10 28.43 18.1 T Q60
C/2015 B2 (PANSTARRS) 2016 10 24.63 18.4 N Q68
C/2015 B2 (PANSTARRS) 2016 10 17.57 18.7 N Q68
C/2015 B2 (PANSTARRS) 2016 10 13.59 18.5 N Q68
C/2015 B2 (PANSTARRS) 2016 10 09.09 18.8 T Y00
C/2015 B2 (PANSTARRS) 2016 10 07.93 18.6 T Y00

C/2015 D3 (PANSTARRS) 2016 10 21.50 19.2 T G96

C/2015 M3 (PANSTARRS) 2016 10 29.22 21.9 T 568
C/2015 M3 (PANSTARRS) 2016 10 29.22 21.8 T 568

C/2015 O1 (PANSTARRS) 2016 10 31.79 ..B: m1 = 16.1, Dia. = ..', DC = 9, 0.08-m. R, f7 (x450).
C/2015 O1 (PANSTARRS) 2016 10 20.07 ..C: m1 = 15.8, Dia. = 0.3', DC = .., 0.25-m. L, f3 (x300).
C/2015 O1 (PANSTARRS) 2016 10 11.48 17.9 N Q68
C/2015 O1 (PANSTARRS) 2016 10 04.06 17.6 T H45

C/2015 T2 (PANSTARRS) 2016 10 23.40 19.1 T G96
C/2015 T2 (PANSTARRS) 2016 10 13.26 19.2 T G96
C/2015 T2 (PANSTARRS) 2016 10 09.39 19.5 T 691
C/2015 T2 (PANSTARRS) 2016 10 08.42 21.0 T F51

P/2015 TP200 (LINEAR) 2016 10 30.99 17.9 N K25
P/2015 TP200 (LINEAR) 2016 10 25.04 17.4 N I81
P/2015 TP200 (LINEAR) 2016 10 24.73 17.8 T 349
P/2015 TP200 (LINEAR) 2016 10 20.61 18.1 T T05
P/2015 TP200 (LINEAR) 2016 10 13.19 18.2 N G40
P/2015 TP200 (LINEAR) 2016 10 13.06 17.8 N C36
P/2015 TP200 (LINEAR) 2016 10 12.08 17.8 N C10
P/2015 TP200 (LINEAR) 2016 10 11.42 17.5 T 703

C/2015 V1 (PANSTARRS) 2016 10 31.90 ..S: m1 = 16.2, Dia. = 0.15', DC = 4, 0.60-m. L, f4 (x305).
C/2015 V1 (PANSTARRS) 2016 10 29.89 17.2 N B96
C/2015 V1 (PANSTARRS) 2016 10 28.72 16.8 T 349
C/2015 V1 (PANSTARRS) 2016 10 28.21 16.8 N J22
C/2015 V1 (PANSTARRS) 2016 10 28.21 ..C: m1 = 16.6, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x120).
C/2015 V1 (PANSTARRS) 2016 10 24.92 16.5 N I81
C/2015 V1 (PANSTARRS) 2016 10 23.10 16.9 T 461
C/2015 V1 (PANSTARRS) 2016 10 17.58 17.9 T F51
C/2015 V1 (PANSTARRS) 2016 10 13.54 17.1 T T05
C/2015 V1 (PANSTARRS) 2016 10 11.97 16.9 N C10
C/2015 V1 (PANSTARRS) 2016 10 10.15 16.8 N I81
C/2015 V1 (PANSTARRS) 2016 10 07.54 17.6 T T05
C/2015 V1 (PANSTARRS) 2016 10 06.25 ..C: m1 = 16.2, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x120).

C/2015 V2 (Johnson) 2016 10 30.46 ..C: m1 = 12.7, Dia. = 2', DC = 9, 0.25-m. D, f3 (x60).
C/2015 V2 (Johnson) 2016 10 30.22 14.2 N J01
C/2015 V2 (Johnson) 2016 10 29.49 ..C: m1 = 14.0, Dia. = 0.8', DC = .., хвост = 0.02°, pa = 305°, 0.43-m. L, f4 (x720).
C/2015 V2 (Johnson) 2016 10 27.75 13.4 T 349
C/2015 V2 (Johnson) 2016 10 27.16 UT: m1 = 10.6, Dia. = 4', DC = 2/, 0.203-m. SCT, f10 (x100).
C/2015 V2 (Johnson) 2016 10 24.70 ..S: m1 = [12.8, Dia. = ..', DC = .., 0.20-m. L, f5 (x154).
C/2015 V2 (Johnson) 2016 10 24.67 ..C: m1 = 13.6, Dia. = 0.7', DC = 7, хвост = 1.2', pa = 322°, 0.04-m. R, f5 (x30).
C/2015 V2 (Johnson) 2016 10 24.49 ..C: m1 = 13.7, Dia. = 1.5', DC = .., хвост = 0.03°, pa = 311°, 0.106-m. R, f5 (x720).
C/2015 V2 (Johnson) 2016 10 23.77 372
C/2015 V2 (Johnson) 2016 10 20.81 UT: m1 = 13.1, Dia. = 0.6', DC = 5, 0.40-m. L, f4.5 (x257).
C/2015 V2 (Johnson) 2016 10 19.49 ..C: m1 = 13.7, Dia. = 1.5', DC = .., хвост = 0.03°, pa = 307°, 0.106-m. R, f5 (x720).
C/2015 V2 (Johnson) 2016 10 19.49 ..C: m1 = 13.6, Dia. = 1.6', DC = .., хвост = 0.03°, pa = 305°, 0.106-m. R, f5 (x480).
C/2015 V2 (Johnson) 2016 10 17.50 ..C: m1 = 14.0, Dia. = 0.8', DC = .., хвост = 0.03°, pa = 307°, 0.43-m. L, f4 (x720).
C/2015 V2 (Johnson) 2016 10 16.49 ..C: m1 = 13.8, Dia. = 1.5', DC = .., хвост = 0.03°, pa = 309°, 0.106-m. R, f5 (x720).
C/2015 V2 (Johnson) 2016 10 14.49 ..C: m1 = 14.0, Dia. = 1', DC = .., хвост = 0.04°, pa = 304°, 0.43-m. L, f4 (x720).
C/2015 V2 (Johnson) 2016 10 12.48 ..C: m1 = 13.9, Dia. = 1.6', DC = .., хвост = 0.02°, pa = 304°, 0.106-m. R, f5 (x600).
C/2015 V2 (Johnson) 2016 10 10.49 ..C: m1 = 13.9, Dia. = 1.6', DC = .., хвост = 0.03°, pa = 307°, 0.106-m. R, f5 (x720).
C/2015 V2 (Johnson) 2016 10 10.17 15.5 N K02
C/2015 V2 (Johnson) 2016 10 10.10 14.9 N I81
C/2015 V2 (Johnson) 2016 10 08.13 ..S: m1 = 13.0, Dia. = 0.7', DC = 3, 0.252-m. L, f5 (x103).
C/2015 V2 (Johnson) 2016 10 07.50 ..C: m1 = 13.9, Dia. = 1.5', DC = .., 0.106-m. R, f5 (x360).
C/2015 V2 (Johnson) 2016 10 07.14 14.4 N I81
C/2015 V2 (Johnson) 2016 10 05.83 13.5 T 349
C/2015 V2 (Johnson) 2016 10 05.16 ..M: m1 = 13.9, Dia. = 0.8', DC = 5/, 0.355-m. L, f5 (x178).
C/2015 V2 (Johnson) 2016 10 05.109 ..S: m1 = 12.9, Dia. = 1.4', DC = 3/, 0.305-m. SCT (x102).
C/2015 V2 (Johnson) 2016 10 05.106 ..S: m1 = 13.0, Dia. = 1.1', DC = 4, 0.305-m. SCT (x102).
C/2015 V2 (Johnson) 2016 10 04.79 ..S: m1 = 13.3, Dia. = 0.6', DC = 3, 0.406-m. L, f4 (x201).
C/2015 V2 (Johnson) 2016 10 04.49 ..C: m1 = 13.9, Dia. = 1.5', DC = .., хвост = 0.03°, pa = 305°, 0.106-m. R, f5 (x720).
C/2015 V2 (Johnson) 2016 10 04.11 ..S: m1 = 12.6, Dia. = 0.6', DC = 3, 0.252-m. L, f5 (x126).
C/2015 V2 (Johnson) 2016 10 03.17 UT: m1 = 10.8, Dia. = 3.5', DC = 3, 0.203-m. SCT, f10 (x100).
C/2015 V2 (Johnson) 2016 10 03.17 15.4 N A77
C/2015 V2 (Johnson) 2016 10 02.06 ..S: m1 = 13.2, Dia. = 1.3', DC = 2/, 0.453-m. L, f4 (x260).
C/2015 V2 (Johnson) 2016 10 02.04 ..S: m1 = 11.8, Dia. = 2.5', DC = 2/, 0.32-m. L, f5 (x72).
C/2015 V2 (Johnson) 2016 10 01.03 ..M: m1 = [13.0, Dia. = ..', DC = .., 0.20-m. L, f5 (x154).

C/2015 V3 (PANSTARRS) 2016 10 29.23 22.0 T 568
C/2015 V3 (PANSTARRS) 2016 10 09.24 22.9 T 568

C/2015 VL62 (Lemmon-Yeung-PANSTARRS) 2016 10 31.88 ..S: m1 = 15.7, Dia. = 0.15', DC = 6, 0.60-m. L, f4 (x305).
C/2015 VL62 (Lemmon-Yeung-PANSTARRS) 2016 10 31.82 ..B: m1 = 15.2, Dia. = 0.25', DC = 0, 0.08-m. R, f7 (x450).
C/2015 VL62 (Lemmon-Yeung-PANSTARRS) 2016 10 30.97 ..B: m1 = 15.3, Dia. = 0.75', DC = 5, 0.08-m. R, f7 (x450).
C/2015 VL62 (Lemmon-Yeung-PANSTARRS) 2016 10 30.01 15.6 N 107
C/2015 VL62 (Lemmon-Yeung-PANSTARRS) 2016 10 29.18 ..C: m1 = 15.9, Dia. = 0.2', DC = .., 0.25-m. L, f3 (x300).
C/2015 VL62 (Lemmon-Yeung-PANSTARRS) 2016 10 28.84 16.2 N Z55
C/2015 VL62 (Lemmon-Yeung-PANSTARRS) 2016 10 24.98 16.1 N I81
C/2015 VL62 (Lemmon-Yeung-PANSTARRS) 2016 10 24.27 16.2 N W96
C/2015 VL62 (Lemmon-Yeung-PANSTARRS) 2016 10 21.23 15.7 N W96
C/2015 VL62 (Lemmon-Yeung-PANSTARRS) 2016 10 20.49 16.4 T T05
C/2015 VL62 (Lemmon-Yeung-PANSTARRS) 2016 10 15.61 16.0 T 349
C/2015 VL62 (Lemmon-Yeung-PANSTARRS) 2016 10 14.80 15.9 T 349
C/2015 VL62 (Lemmon-Yeung-PANSTARRS) 2016 10 14.79 349
C/2015 VL62 (Lemmon-Yeung-PANSTARRS) 2016 10 14.27 16.4 N W96
C/2015 VL62 (Lemmon-Yeung-PANSTARRS) 2016 10 14.26 ..C: m1 = 15.9, Dia. = 0.2', DC = .., 0.25-m. L, f3 (x300).
C/2015 VL62 (Lemmon-Yeung-PANSTARRS) 2016 10 12.52 16.5 T T05
C/2015 VL62 (Lemmon-Yeung-PANSTARRS) 2016 10 09.90 16.4 N I81
C/2015 VL62 (Lemmon-Yeung-PANSTARRS) 2016 10 08.54 16.9 T T05
C/2015 VL62 (Lemmon-Yeung-PANSTARRS) 2016 10 04.14 17.3 N A77
C/2015 VL62 (Lemmon-Yeung-PANSTARRS) 2016 10 02.40 16.5 T 703
C/2015 VL62 (Lemmon-Yeung-PANSTARRS) 2016 10 02.29 16.4 N W96
C/2015 VL62 (Lemmon-Yeung-PANSTARRS) 2016 10 02.24 ..C: m1 = 16.1, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x120).

C/2015 X7 (ATLAS) 2016 10 27.50 691

C/2016 A1 (PANSTARRS) 2016 10 26.64 18.7 T 568

C/2016 A8 (LINEAR) 2016 10 31.73 UT: m1 = [15.5, Dia. = ..', DC = .., 0.60-m. L, f4 (x305).
C/2016 A8 (LINEAR) 2016 10 28.04 16.6 N H47
C/2016 A8 (LINEAR) 2016 10 22.80 ..B: m1 = 14.8, Dia. = 0.5', DC = 1, 0.08-m. R, f7 (x450).
C/2016 A8 (LINEAR) 2016 10 22.75 16.2 N B96
C/2016 A8 (LINEAR) 2016 10 17.41 15.4 N Q68
C/2016 A8 (LINEAR) 2016 10 16.02 16.8 N H47
C/2016 A8 (LINEAR) 2016 10 06.44 14.3 T D81
C/2016 A8 (LINEAR) 2016 10 06.07 16.1 T H45
C/2016 A8 (LINEAR) 2016 10 04.790 ..S: m1 = 13.8, Dia. = 0.3', DC = 2/, 0.305-m. SCT (x179).
C/2016 A8 (LINEAR) 2016 10 04.787 ..S: m1 = 14.0, Dia. = 0.5', DC = 3/, 0.305-m. SCT (x179).
C/2016 A8 (LINEAR) 2016 10 04.78 ..C: m1 = 14.5, Dia. = 1.3', DC = .., 0.20-m. L, f4 (x520).
C/2016 A8 (LINEAR) 2016 10 04.06 16.1 T H45
C/2016 A8 (LINEAR) 2016 10 02.85 UT: m1 = 12.7, Dia. = 0.7', DC = 4, 0.203-m. SCT, f10 (x133).
C/2016 A8 (LINEAR) 2016 10 02.43 13.8 T 349
C/2016 A8 (LINEAR) 2016 10 02.12 16.0 N H45
C/2016 A8 (LINEAR) 2016 10 01.89 ..C: m1 = 14.5, Dia. = 0.4', DC = .., 0.50-m. L, f3 (x45).

P/2016 BA14 (PANSTARRS) 2016 10 09.21 23.7 T 568
P/2016 BA14 (PANSTARRS) 2016 10 09.21 23.5 T 568

C/2016 K1 (LINEAR) 2016 10 29.20 21.6 T 568
C/2016 K1 (LINEAR) 2016 10 29.20 21.2 T 568
C/2016 K1 (LINEAR) 2016 10 21.81 19.8 N A77
C/2016 K1 (LINEAR) 2016 10 15.85 20.1 N 104
C/2016 K1 (LINEAR) 2016 10 06.89 18.7 N I81
C/2016 K1 (LINEAR) 2016 10 06.23 21.1 T 568
C/2016 K1 (LINEAR) 2016 10 01.88 20.6 T G40

C/2016 M1 (PANSTARRS) 2016 10 31.89 ..C: m1 = 17.2, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150).
C/2016 M1 (PANSTARRS) 2016 10 26.20 18.5 T 568
C/2016 M1 (PANSTARRS) 2016 10 23.76 17.9 N L04
C/2016 M1 (PANSTARRS) 2016 10 22.79 18.7 N B96
C/2016 M1 (PANSTARRS) 2016 10 21.87 18.7 N A77
C/2016 M1 (PANSTARRS) 2016 10 18.81 18.7 N B96
C/2016 M1 (PANSTARRS) 2016 10 10.15 17.8 T 703
C/2016 M1 (PANSTARRS) 2016 10 06.91 ..C: m1 = 17.5, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150).
C/2016 M1 (PANSTARRS) 2016 10 06.87 17.7 N I81
C/2016 M1 (PANSTARRS) 2016 10 06.06 18.0 T H45
C/2016 M1 (PANSTARRS) 2016 10 04.05 18.1 T H45

C/2016 N4 (MASTER) 2016 10 31.80 ..B: m1 = 14.8, Dia. = 0.42', DC = d3, 0.08-m. R, f7 (x450).
C/2016 N4 (MASTER) 2016 10 31.78 ..S: m1 = 15.8, Dia. = 0.25', DC = 4, 0.60-m. L, f4 (x305).
C/2016 N4 (MASTER) 2016 10 30.83 ..B: m1 = 15.5, Dia. = 0.25', DC = 4, 0.08-m. R, f7 (x450).
C/2016 N4 (MASTER) 2016 10 28.93 16.3 N J22
C/2016 N4 (MASTER) 2016 10 28.93 ..C: m1 = 15.5, Dia. = 0.4', DC = .., 0.50-m. L, f3 (x120).
C/2016 N4 (MASTER) 2016 10 28.85 17.1 N G40
C/2016 N4 (MASTER) 2016 10 26.79 ..B: m1 = 15.8, Dia. = 0.33', DC = 0, 0.08-m. R, f7 (x450).
C/2016 N4 (MASTER) 2016 10 26.36 16.8 T T05
C/2016 N4 (MASTER) 2016 10 24.60 16.6 N Q68
C/2016 N4 (MASTER) 2016 10 23.21 ..C: m1 = 15.6, Dia. = 0.3', DC = .., 0.25-m. L, f3 (x300).
C/2016 N4 (MASTER) 2016 10 22.88 17.0 N B96
C/2016 N4 (MASTER) 2016 10 22.82 ..B: m1 = 15.8, Dia. = 0.83', DC = D5, 0.08-m. R, f7 (x450).
C/2016 N4 (MASTER) 2016 10 22.20 16.4 N W96
C/2016 N4 (MASTER) 2016 10 20.89 16.6 N K25
C/2016 N4 (MASTER) 2016 10 15.54 15.5 T 349
C/2016 N4 (MASTER) 2016 10 14.59 16.9 N Q68
C/2016 N4 (MASTER) 2016 10 10.44 16.5 T T05
C/2016 N4 (MASTER) 2016 10 09.01 ..C: m1 = 15.2, Dia. = 0.5', DC = .., 0.50-m. L, f3 (x120).
C/2016 N4 (MASTER) 2016 10 06.45 16.5 T T05
C/2016 N4 (MASTER) 2016 10 06.21 15.9 T H45
C/2016 N4 (MASTER) 2016 10 04.25 15.7 T 703
C/2016 N4 (MASTER) 2016 10 02.25 16.3 N W96

C/2016 N6 (PANSTARRS) 2016 10 31.88 ..C: m1 = 19.1, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x300).
C/2016 N6 (PANSTARRS) 2016 10 31.87 19.2 N J22
C/2016 N6 (PANSTARRS) 2016 10 29.76 17.8 N B96
C/2016 N6 (PANSTARRS) 2016 10 26.19 19.7 T 568
C/2016 N6 (PANSTARRS) 2016 10 22.80 19.3 N B96
C/2016 N6 (PANSTARRS) 2016 10 03.90 19.3 N J22
C/2016 N6 (PANSTARRS) 2016 10 03.90 ..C: m1 = 18.8, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x300).

C/2016 Q2 (PANSTARRS) 2016 10 29.22 21.6 T 568
C/2016 Q2 (PANSTARRS) 2016 10 29.22 23.0 T 568
C/2016 Q2 (PANSTARRS) 2016 10 03.37 21.0 T 568

C/2016 Q4 (Kowalski) 2016 10 20.84 19.3 N A77

C/2016 R2 (PANSTARRS) 2016 10 28.11 17.2 N J22
C/2016 R2 (PANSTARRS) 2016 10 28.11 ..C: m1 = 14.5, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150).
C/2016 R2 (PANSTARRS) 2016 10 27.29 17.7 N W88
C/2016 R2 (PANSTARRS) 2016 10 25.73 15.7 T Q60
C/2016 R2 (PANSTARRS) 2016 10 24.75 17.3 N Q62
C/2016 R2 (PANSTARRS) 2016 10 22.34 17.1 N W96
C/2016 R2 (PANSTARRS) 2016 10 20.53 ..C: m1 = 15.3, Dia. = 2.5', DC = .., 0.106-m. R, f5 (x960).
C/2016 R2 (PANSTARRS) 2016 10 17.60 17.6 N Q68
C/2016 R2 (PANSTARRS) 2016 10 14.66 17.5 N Q68
C/2016 R2 (PANSTARRS) 2016 10 10.30 17.2 N W96
C/2016 R2 (PANSTARRS) 2016 10 09.70 ..C: m1 = 15.6, Dia. = 0.5', DC = .., 0.432-m. L, f7 (x300).
C/2016 R2 (PANSTARRS) 2016 10 07.17 ..C: m1 = 14.1, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150).
C/2016 R2 (PANSTARRS) 2016 10 02.27 17.9 N W88

P/2016 R4 (Gibbs) 2016 10 30.93 19.3 N J22
P/2016 R4 (Gibbs) 2016 10 30.93 ..C: m1 = 16.7, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x300).
P/2016 R4 (Gibbs) 2016 10 27.90 19.5 N K25
P/2016 R4 (Gibbs) 2016 10 21.89 19.5 N K25
P/2016 R4 (Gibbs) 2016 10 08.26 18.8 N W96
P/2016 R4 (Gibbs) 2016 10 04.23 18.6 T 703
P/2016 R4 (Gibbs) 2016 10 01.09 19.1 N G40

P/2016 S1 (PANSTARRS)
C/2016 S1 (PANSTARRS) 2016 10 13.59 17.6 N Q62
C/2016 S1 (PANSTARRS) 2016 10 10.33 17.9 N W96

P/2016 SV (PANSTARRS) 2016 10 27.20 18.9 T G96
P/2016 SV (PANSTARRS) 2016 10 23.13 18.8 T 703
P/2016 SV (PANSTARRS) 2016 10 10.67 372
P/2016 SV (PANSTARRS) 2016 10 10.23 18.5 T 703
P/2016 SV (PANSTARRS) 2016 10 06.21 18.4 T 703
P/2016 SV (PANSTARRS) 2016 10 04.85 18.7 N K25

C/2016 T1 (Matheny) 2016 10 22.83 18.2 N B96
C/2016 T1 (Matheny) 2016 10 20.77 19.0 N A71
C/2016 T1 (Matheny) 2016 10 12.76 18.9 T 215
C/2016 T1 (Matheny) 2016 10 11.82 19.5 T C77

C/2016 T2 (Matheny) 2016 10 30.83 19.0 N C47
C/2016 T2 (Matheny) 2016 10 29.23 18.8 T T05
C/2016 T2 (Matheny) 2016 10 24.43 19.5 N 372
C/2016 T2 (Matheny) 2016 10 22.85 18.2 N B96
C/2016 T2 (Matheny) 2016 10 20.82 19.0 N A71
C/2016 T2 (Matheny) 2016 10 12.96 19.0 T J95

C/2016 T3 (PANSTARRS) 2016 10 31.91 18.6 T 106
C/2016 T3 (PANSTARRS) 2016 10 30.40 19.2 T G45
C/2016 T3 (PANSTARRS) 2016 10 29.60 18.8 N 372
C/2016 T3 (PANSTARRS) 2016 10 22.39 19.2 T G96
C/2016 T3 (PANSTARRS) 2016 10 20.78 19.2 T 215
C/2016 T3 (PANSTARRS) 2016 10 18.31 19.0 T 926

C/2014 W10 (PANSTARRS) 2014 12 22.08 H06
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