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

Актуальная информация для наблюдения комет

Модераторы: Ulmo, Булдаков Сергей

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

Непрочитанное сообщение Silvester » 01 ноя 2016 12:16

Кометы в ноябре 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 ноябре 2016 года ..

2P/Encke 2016 11 27.75 18.5 N 958
2P/Encke 2016 11 25.78 18.0 N B96
2P/Encke 2016 11 25.37 C51
2P/Encke 2016 11 24.98 ..C: m1 = 17.4, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x90).
2P/Encke 2016 11 22.41 17.6 T 372
2P/Encke 2016 11 21.14 ..C: m1 = 17.1, Dia. = 0.9', DC = .., 0.25-m. L, f3 (x260).
2P/Encke 2016 11 20.87 17.1 N I81
2P/Encke 2016 11 18.29 18.7 T F51
2P/Encke 2016 11 17.76 18.6 N A77
2P/Encke 2016 11 16.83 18.5 N A77
2P/Encke 2016 11 07.77 19.1 N A77
2P/Encke 2016 11 05.92 18.1 N J22
2P/Encke 2016 11 05.92 ..C: m1 = 17.4, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x90).
2P/Encke 2016 11 05.11 17.9 T H45
2P/Encke 2016 11 04.24 ..C: m1 = 18.0, Dia. = 0.15', DC = .., 0.61-m. L, f6 (x120).
2P/Encke 2016 11 03.47 17.7 T 349

9P/Tempel 1 2016 11 14.03 17.2 N W88
9P/Tempel 1 2016 11 02.43 14.7 N Q62

10P/Tempel 2 2016 11 30.23 19.2 T G45

22P/Kopff 2016 11 29.50 19.4 N Q21
22P/Kopff 2016 11 06.15 19.7 T 691
22P/Kopff 2016 11 06.15 19.8 T 691

30P/Reinmuth 1 2016 11 30.95 17.8 N B74
30P/Reinmuth 1 2016 11 28.87 17.2 N K61
30P/Reinmuth 1 2016 11 25.85 18.0 N B96
30P/Reinmuth 1 2016 11 22.98 ..C: m1 = 16.8, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150).
30P/Reinmuth 1 2016 11 20.95 18.6 N I81
30P/Reinmuth 1 2016 11 18.91 17.7 N B96
30P/Reinmuth 1 2016 11 08.48 17.9 T T05
30P/Reinmuth 1 2016 11 07.01 17.0 N A77
30P/Reinmuth 1 2016 11 04.53 18.4 T T05

33P/Daniel 2016 11 30.02 18.9 N A71
33P/Daniel 2016 11 10.31 18.7 N W96
33P/Daniel 2016 11 08.62 20.2 T F51
33P/Daniel 2016 11 05.52 17.9 T G96

45P/Honda-Mrkos-Pajdusakova 2016 11 30.00 15.4 N I39
45P/Honda-Mrkos-Pajdusakova 2016 11 29.01 15.0 N W96
45P/Honda-Mrkos-Pajdusakova 2016 11 25.04 16.7 N W88
45P/Honda-Mrkos-Pajdusakova 2016 11 12.04 17.9 N I47
45P/Honda-Mrkos-Pajdusakova 2016 11 06.04 18.4 N I47

53P/Van Biesbroeck 2016 11 29.75 17.4 N 958
53P/Van Biesbroeck 2016 11 27.75 17.2 N 958
53P/Van Biesbroeck 2016 11 24.85 ..C: m1 = 15.1, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x150).
53P/Van Biesbroeck 2016 11 23.75 ..B: m1 = 16.0, Dia. = 0.42', DC = D6, 0.20-m. L, f4 (x450).
53P/Van Biesbroeck 2016 11 21.81 ..B: m1 = 16.0, Dia. = 0', DC = 1, 0.20-m. L, f4 (x450).
53P/Van Biesbroeck 2016 11 20.84 18.0 N I81
53P/Van Biesbroeck 2016 11 20.81 ..B: m1 = 16.2, Dia. = 0', DC = 1, 0.20-m. L, f4 (x450).
53P/Van Biesbroeck 2016 11 19.05 ..C: m1 = 15.7, Dia. = 0.25', DC = .., 0.51-m. L, f4 (x120).
53P/Van Biesbroeck 2016 11 16.04 17.2 N W88
53P/Van Biesbroeck 2016 11 11.25 16.8 T T05
53P/Van Biesbroeck 2016 11 05.07 16.9 N H47
53P/Van Biesbroeck 2016 11 02.78 17.2 N 958
53P/Van Biesbroeck 2016 11 02.11 16.7 T H45

56P/Slaughter-Burnham 2016 11 29.81 16.7 N C47
56P/Slaughter-Burnham 2016 11 28.10 15.9 N I81
56P/Slaughter-Burnham 2016 11 27.29 15.6 N W96
56P/Slaughter-Burnham 2016 11 23.41 14.9 T G96
56P/Slaughter-Burnham 2016 11 23.22 ..C: m1 = 15.0, Dia. = 0.4', DC = .., хвост = 1.1', pa = 230°, 0.25-m. L, f5 (x300).
56P/Slaughter-Burnham 2016 11 23.09 ..C: m1 = 14.0, Dia. = 0.4', DC = .., 0.50-m. L, f3 (x150).
56P/Slaughter-Burnham 2016 11 21.87 ..B: m1 = 14.7, Dia. = 0.58', DC = D6, хвост = 6', pa = 255°, 0.20-m. L, f4 (x450).
56P/Slaughter-Burnham 2016 11 21.26 15.9 N W96
56P/Slaughter-Burnham 2016 11 18.94 16.7 N B96
56P/Slaughter-Burnham 2016 11 18.30 15.7 N W96
56P/Slaughter-Burnham 2016 11 18.30 15.7 N W96
56P/Slaughter-Burnham 2016 11 12.97 17.2 N B51
56P/Slaughter-Burnham 2016 11 11.32 15.9 N W96
56P/Slaughter-Burnham 2016 11 10.11 ..C: m1 = 13.4, Dia. = 0.6', DC = .., 0.50-m. L, f3 (x120).
56P/Slaughter-Burnham 2016 11 08.33 16.3 N W96
56P/Slaughter-Burnham 2016 11 07.25 ..C: m1 = 15.3, Dia. = 0.35', DC = .., хвост = 1.1', pa = 255°, 0.25-m. L, f3 (x300).
56P/Slaughter-Burnham 2016 11 06.89 16.6 N J19
56P/Slaughter-Burnham 2016 11 04.97 16.4 N 970
56P/Slaughter-Burnham 2016 11 04.28 ..C: m1 = 15.3, Dia. = 0.3', DC = .., хвост = 1.3', pa = 260°, 0.61-m. L, f6 (x120).
56P/Slaughter-Burnham 2016 11 01.95 15.6 N I81
56P/Slaughter-Burnham 2016 11 01.14 ..B: m1 = 15.3, Dia. = 0.42', DC = 3, 0.08-m. R, f7 (x450).

73P/Schwassmann-Wachmann 3 2016 11 29.17 17.5 T 215
73P/Schwassmann-Wachmann 3 2016 11 11.51 17.1 T H06

74P/Smirnova-Chernykh 2016 11 28.99 17.6 N K77
74P/Smirnova-Chernykh 2016 11 28.25 17.4 N W96
74P/Smirnova-Chernykh 2016 11 27.20 ..C: m1 = 16.6, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x120).
74P/Smirnova-Chernykh 2016 11 23.29 ..C: m1 = 16.8, Dia. = 0.2', DC = .., 0.25-m. L, f3 (x300).
74P/Smirnova-Chernykh 2016 11 23.04 17.4 N I81
74P/Smirnova-Chernykh 2016 11 21.03 16.9 N I81
74P/Smirnova-Chernykh 2016 11 15.16 17.4 N 160
74P/Smirnova-Chernykh 2016 11 07.49 17.5 T U69
74P/Smirnova-Chernykh 2016 11 07.23 ..C: m1 = 16.0, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x120).
74P/Smirnova-Chernykh 2016 11 06.15 17.6 N J01
74P/Smirnova-Chernykh 2016 11 05.62 18.1 T T05
74P/Smirnova-Chernykh 2016 11 02.04 17.3 N I81

90P/Gehrels 1 2016 11 20.75 19.3 T 215
90P/Gehrels 1 2016 11 15.24 19.8 T F51
90P/Gehrels 1 2016 11 02.12 19.9 T G96

93P/Lovas 1 2016 11 28.99 16.7 N I15
93P/Lovas 1 2016 11 27.24 17.0 T F51
93P/Lovas 1 2016 11 25.00 ..C: m1 = 15.1, Dia. = 0.4', DC = .., 0.50-m. L, f3 (x150).
93P/Lovas 1 2016 11 23.75 ..B: m1 = 16.5, Dia. = 0.25', DC = 2, 0.20-m. L, f4 (x450).
93P/Lovas 1 2016 11 21.81 ..B: m1 = 16.5, Dia. = 0', DC = 0, 0.20-m. L, f4 (x450).
93P/Lovas 1 2016 11 20.84 17.1 N G40
93P/Lovas 1 2016 11 20.82 ..B: m1 = 16.3, Dia. = 0', DC = 0, 0.20-m. L, f4 (x450).
93P/Lovas 1 2016 11 20.81 16.6 N I81
93P/Lovas 1 2016 11 17.80 16.9 N Z78
93P/Lovas 1 2016 11 16.82 17.0 N Z78
93P/Lovas 1 2016 11 10.44 3926 C51
93P/Lovas 1 2016 11 07.21 17.2 T T05
93P/Lovas 1 2016 11 06.78 16.7 N C90
93P/Lovas 1 2016 11 04.34 17.3 T T05
93P/Lovas 1 2016 11 02.11 16.2 T 703

95P/Chiron 2016 11 24.93 ..C: m1 = 18.1, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x120).
95P/Chiron 2016 11 06.85 18.4 N A77
95P/Chiron 2016 11 05.91 ..C: m1 = 18.0, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x120).

117P/Helin-Roman-Alu 1 2016 11 29.44 18.0 T T05
117P/Helin-Roman-Alu 1 2016 11 28.07 16.0 N I81
117P/Helin-Roman-Alu 1 2016 11 23.04 ..C: m1 = 16.4, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x200).
117P/Helin-Roman-Alu 1 2016 11 22.03 17.7 T J43
117P/Helin-Roman-Alu 1 2016 11 21.05 17.1 N I81
117P/Helin-Roman-Alu 1 2016 11 17.97 17.1 N I81
117P/Helin-Roman-Alu 1 2016 11 10.09 ..C: m1 = 16.1, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x200).
117P/Helin-Roman-Alu 1 2016 11 10.09 17.7 N J22
117P/Helin-Roman-Alu 1 2016 11 09.51 18.0 T T05
117P/Helin-Roman-Alu 1 2016 11 06.29 17.3 N W96
117P/Helin-Roman-Alu 1 2016 11 05.52 18.3 T T05
117P/Helin-Roman-Alu 1 2016 11 02.05 17.1 N I81

118P/Shoemaker-Levy 4 2016 11 29.16 18.7 T 215
118P/Shoemaker-Levy 4 2016 11 07.51 17.3 T G96

128P/Shoemaker-Holt 1 2016 11 29.95 18.1 N 958
128P/Shoemaker-Holt 1 2016 11 29.00 18.5 N Z80
128P/Shoemaker-Holt 1 2016 11 28.06 17.5 N I81
128P/Shoemaker-Holt 1 2016 11 24.02 ..C: m1 = 16.1, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x200).
128P/Shoemaker-Holt 1 2016 11 21.92 17.5 T 958
128P/Shoemaker-Holt 1 2016 11 21.06 17.4 N I81
128P/Shoemaker-Holt 1 2016 11 18.45 18.0 T 691
128P/Shoemaker-Holt 1 2016 11 10.69 17.5 T D29

136P/Mueller 3 2016 11 29.92 18.6 N 958
136P/Mueller 3 2016 11 25.88 18.7 N 958
136P/Mueller 3 2016 11 25.84 17.4 N B96
136P/Mueller 3 2016 11 22.99 ..C: m1 = 16.1, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x120).
136P/Mueller 3 2016 11 21.85 ..B: m1 = 17.0, Dia. = 0.67', DC = 0, 0.20-m. L, f4 (x450).
136P/Mueller 3 2016 11 20.94 17.6 N I81
136P/Mueller 3 2016 11 14.99 16.6 N 160
136P/Mueller 3 2016 11 08.48 18.0 T T05
136P/Mueller 3 2016 11 04.49 18.3 T T05

146P/Shoemaker-LINEAR 2016 11 01.11 19.2 N I81

174P/Echeclus 2016 11 30.80 17.6 N K21
174P/Echeclus 2016 11 28.81 18.3 N C10
174P/Echeclus 2016 11 27.90 18.0 N 958
174P/Echeclus 2016 11 27.77 18.7 N K21
174P/Echeclus 2016 11 27.17 17.9 N W96
174P/Echeclus 2016 11 26.92 ..C: m1 = 17.1, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150).
174P/Echeclus 2016 11 26.14 18.1 N W96
174P/Echeclus 2016 11 25.16 18.1 N W96
174P/Echeclus 2016 11 24.16 17.8 N W96
174P/Echeclus 2016 11 23.17 17.6 N W96
174P/Echeclus 2016 11 22.93 ..C: m1 = 14.9, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150).
174P/Echeclus 2016 11 21.53 ..C: m1 = 17.2, Dia. = 0.2', DC = .., хвоста нет, 0.51-m. C, f7 (x40).
174P/Echeclus 2016 11 21.12 17.8 N W96
174P/Echeclus 2016 11 06.15 17.4 N W96
174P/Echeclus 2016 11 04.98 ..C: m1 = 16.1, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150).

176P/LINEAR 2016 11 24.86 ..C: m1 = 19.7, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x250).
176P/LINEAR 2016 11 21.06 20.2 N W96
176P/LINEAR 2016 11 06.10 20.2 N W96

188P/LINEAR-Mueller 2016 11 28.75 18.4 N B51
188P/LINEAR-Mueller 2016 11 24.91 17.8 N J22
188P/LINEAR-Mueller 2016 11 24.91 ..C: m1 = 16.7, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150).
188P/LINEAR-Mueller 2016 11 20.82 17.1 N I81
188P/LINEAR-Mueller 2016 11 07.49 17.4 T D88
188P/LINEAR-Mueller 2016 11 07.49 D88
188P/LINEAR-Mueller 2016 11 04.97 ..C: m1 = 17.0, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x150).
188P/LINEAR-Mueller 2016 11 04.96 17.7 N J22
188P/LINEAR-Mueller 2016 11 03.35 18.2 T T05

190P/Mueller 2016 11 08.58 20.9 T F51

208P/McMillan 2016 11 20.90 19.3 N I81
208P/McMillan 2016 11 01.39 20.6 T F51

225P/LINEAR 2016 11 29.13 19.7 T 215

226P/Pigott-LINEAR-Kowalski 2016 11 30.87 16.1 N 107
226P/Pigott-LINEAR-Kowalski 2016 11 29.90 17.0 N C47
226P/Pigott-LINEAR-Kowalski 2016 11 28.13 15.8 N I81
226P/Pigott-LINEAR-Kowalski 2016 11 27.872 ..S: m1 = 14.5, Dia. = 0.4', DC = 4/, 0.305-m. T (x179).
226P/Pigott-LINEAR-Kowalski 2016 11 27.869 ..S: m1 = 14.6, Dia. = 0.4', DC = 3/, 0.305-m. T (x179).
226P/Pigott-LINEAR-Kowalski 2016 11 26.88 17.3 N A77
226P/Pigott-LINEAR-Kowalski 2016 11 23.27 ..C: m1 = 14.9, Dia. = 0.7', DC = .., 0.25-m. L, f3 (x300).
226P/Pigott-LINEAR-Kowalski 2016 11 23.08 ..C: m1 = 13.6, Dia. = 0.4', DC = .., 0.50-m. L, f3 (x90).
226P/Pigott-LINEAR-Kowalski 2016 11 21.88 16.3 N C42
226P/Pigott-LINEAR-Kowalski 2016 11 21.35 15.9 T H06
226P/Pigott-LINEAR-Kowalski 2016 11 19.10 16.4 N Z80
226P/Pigott-LINEAR-Kowalski 2016 11 17.04 15.2 N 213
226P/Pigott-LINEAR-Kowalski 2016 11 10.49 16.3 T T05
226P/Pigott-LINEAR-Kowalski 2016 11 07.15 16.4 N A77
226P/Pigott-LINEAR-Kowalski 2016 11 06.51 16.6 T T05
226P/Pigott-LINEAR-Kowalski 2016 11 04.98 17.0 N 970
226P/Pigott-LINEAR-Kowalski 2016 11 04.80 UT: m1 = 14.5, Dia. = 0.5', DC = 2, 0.40-m. L, f4.5 (x257).
226P/Pigott-LINEAR-Kowalski 2016 11 04.30 16.0 N W96
226P/Pigott-LINEAR-Kowalski 2016 11 02.54 16.7 T T05
226P/Pigott-LINEAR-Kowalski 2016 11 01.15 ..B: m1 = 14.5, Dia. = 1.5', DC = 7, 0.08-m. R, f7 (x450).

227P/Catalina-LINEAR 2016 11 26.49 20.0 T F51
227P/Catalina-LINEAR 2016 11 20.79 19.7 T 215
227P/Catalina-LINEAR 2016 11 18.34 19.5 T G96

238P/Read 2016 11 23.98 19.9 N J22
238P/Read 2016 11 23.98 ..C: m1 = 19.7, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x300).
238P/Read 2016 11 03.21 20.5 T 568
238P/Read 2016 11 01.98 19.1 T G36

279P/La Sagra 2016 11 26.97 20.1 N J22
279P/La Sagra 2016 11 26.97 ..C: m1 = 19.7, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x350).
279P/La Sagra 2016 11 07.89 18.8 N 970
279P/La Sagra 2016 11 02.14 19.3 T G96
279P/La Sagra 2016 11 02.01 ..C: m1 = 18.2, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x250).

314P/Montani 2016 11 29.06 18.3 N B96

315P/LONEOS 2016 11 28.35 16.6 N W96
315P/LONEOS 2016 11 18.34 16.2 N W96
315P/LONEOS 2016 11 17.71 15.2 T 349
315P/LONEOS 2016 11 10.23 17.1 N G40
315P/LONEOS 2016 11 05.19 17.1 N 970
315P/LONEOS 2016 11 02.09 16.0 N I81

318P/McNaught-Hartley 2016 11 11.48 20.2 T G96
318P/McNaught-Hartley 2016 11 11.48 20.5 T G96

323P/SOHO 2016 11 23.70 249

338P/McNaught 2016 11 27.08 18.8 N W88
338P/McNaught 2016 11 24.92 ..C: m1 = 16.8, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x120).
338P/McNaught 2016 11 20.85 17.7 N I81
338P/McNaught 2016 11 16.84 18.5 N A77
338P/McNaught 2016 11 08.86 18.4 N A77
338P/McNaught 2016 11 05.90 17.9 N J22
338P/McNaught 2016 11 05.90 ..C: m1 = 16.3, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x120).
338P/McNaught 2016 11 04.40 18.4 T T05

340P/Boattini 2016 11 24.84 18.7 N J22
340P/Boattini 2016 11 24.83 ..C: m1 = 18.2, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x350).

341P/Gibbs 2016 11 26.95 19.4 N J22
341P/Gibbs 2016 11 26.94 ..C: m1 = 17.9, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x350).
341P/Gibbs 2016 11 07.23 17.9 T 703
341P/Gibbs 2016 11 04.44 18.8 T Q60

343P/NEAT-LONEOS 2016 11 24.94 17.9 N J22
343P/NEAT-LONEOS 2016 11 24.94 ..C: m1 = 17.1, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x200).
343P/NEAT-LONEOS 2016 11 18.24 19.2 T F51
343P/NEAT-LONEOS 2016 11 05.47 17.1 T D88
343P/NEAT-LONEOS 2016 11 03.31 19.1 T F51

344P/Read (P/2005 S3, P/2016 Q1)
344P/Read 2016 11 29.81 18.7 N C43
344P/Read 2016 11 26.85 18.4 N A77
344P/Read 2016 11 26.49 18.5 T F51
344P/Read 2016 11 18.34 17.6 T G96
344P/Read 2016 11 09.51 18.2 T T05

345P/LINEAR (P/2008 SH164, P/2016 Q3)
345P/LINEAR 2016 11 01.99 19.2 T G36

346P/Catalina (P/2007 T6, P/2016 R1)
346P/Catalina 2016 11 29.46 18.2 T Q60
346P/Catalina 2016 11 27.01 18.2 N J22
346P/Catalina 2016 11 19.42 18.7 T F51
346P/Catalina 2016 11 08.46 19.1 T F51

347P/PANSTARRS (P/2009 Q9, P/2016 SV)
347P/PANSTARRS 2016 11 30.20 19.5 T G96
347P/PANSTARRS 2016 11 06.20 18.8 T 703

P/2005 S3 (Read) 2016 11 23.06 ..C: m1 = 17.2, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x230).
P/2005 S3 (Read) 2016 11 09.51 18.2 T T05
P/2005 S3 (Read) 2016 11 05.79 18.5 T D29
P/2005 S3 (Read) 2016 11 05.50 18.4 T T05
P/2005 S3 (Read) 2016 11 01.03 18.7 T J43

C/2006 S3 (LONEOS) 2016 11 29.12 18.1 N B96

P/2007 T6 (Catalina) 2016 11 27.00 ..C: m1 = 16.5, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x180).
P/2007 T6 (Catalina) 2016 11 08.46 19.1 T F51
P/2007 T6 (Catalina) 2016 11 07.19 ..C: m1 = 18.1, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x120).
P/2007 T6 (Catalina) 2016 11 07.17 ..C: m1 = 17.6, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x300).
P/2007 T6 (Catalina) 2016 11 03.57 19.0 T Q60

P/2008 SH164 (LINEAR) 2016 11 01.99 19.2 T G36

C/2010 U3 (Boattini) 2016 11 28.91 17.9 N K02
C/2010 U3 (Boattini) 2016 11 28.14 17.7 N I81
C/2010 U3 (Boattini) 2016 11 23.07 ..C: m1 = 15.6, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x120).
C/2010 U3 (Boattini) 2016 11 20.99 17.9 N I81
C/2010 U3 (Boattini) 2016 11 18.88 17.4 N I81
C/2010 U3 (Boattini) 2016 11 16.97 18.5 N 213
C/2010 U3 (Boattini) 2016 11 06.03 17.7 N J01
C/2010 U3 (Boattini) 2016 11 04.95 17.9 N 970
C/2010 U3 (Boattini) 2016 11 02.00 18.7 N Z80

C/2011 KP36 (Spacewatch) 2016 11 29.92 246
C/2011 KP36 (Spacewatch) 2016 11 27.845 ..S: m1 = 13.8, Dia. = 0.7', DC = 2, 0.305-m. T (x139).
C/2011 KP36 (Spacewatch) 2016 11 27.842 ..S: m1 = 13.9, Dia. = 0.7', DC = 3, 0.305-m. T (x139).
C/2011 KP36 (Spacewatch) 2016 11 27.78 16.4 N 958
C/2011 KP36 (Spacewatch) 2016 11 23.96 ..C: m1 = 13.1, Dia. = 0.8', DC = .., 0.50-m. L, f3 (x120).
C/2011 KP36 (Spacewatch) 2016 11 23.77 ..B: m1 = 14.6, Dia. = 0.83', DC = S6, 0.20-m. L, f4 (x450).
C/2011 KP36 (Spacewatch) 2016 11 22.59 16.0 N Q62
C/2011 KP36 (Spacewatch) 2016 11 22.46 UT: m1 = 14.2, Dia. = 0.8', DC = 3, рассеян. кома, 0.254-m. L, f4.7 (x83).
C/2011 KP36 (Spacewatch) 2016 11 21.83 ..B: m1 = 14.4, Dia. = 1', DC = S7, 0.20-m. L, f4 (x450).
C/2011 KP36 (Spacewatch) 2016 11 21.54 ..C: m1 = 13.1, Dia. = 1.6', DC = .., хвоста нет, 0.51-m. C, f7 (x120).
C/2011 KP36 (Spacewatch) 2016 11 21.22 15.7 N W96
C/2011 KP36 (Spacewatch) 2016 11 20.83 ..B: m1 = 14.2, Dia. = 1', DC = S7, 0.20-m. L, f4 (x450).
C/2011 KP36 (Spacewatch) 2016 11 20.20 ..C: m1 = 14.3, Dia. = 1.2', DC = .., 0.25-m. L, f3 (x300).
C/2011 KP36 (Spacewatch) 2016 11 17.45 UT: m1 = 14.4, Dia. = 0.6', DC = 2/3, рассеян. кома, 0.254-m. L, f4.7 (x83).
C/2011 KP36 (Spacewatch) 2016 11 16.80 UT: m1 = 12.3, Dia. = 1', DC = 3, 0.203-m. SCT, f10 (x133).
C/2011 KP36 (Spacewatch) 2016 11 14.88 16.2 N 160
C/2011 KP36 (Spacewatch) 2016 11 08.41 16.1 T T05
C/2011 KP36 (Spacewatch) 2016 11 07.23 ..C: m1 = 14.2, Dia. = 1.3', DC = .., 0.431-m. L, f4 (x180).
C/2011 KP36 (Spacewatch) 2016 11 06.94 ..C: m1 = 12.6, Dia. = 0.4', DC = .., 0.50-m. L, f3 (x120).
C/2011 KP36 (Spacewatch) 2016 11 06.90 16.2 N A77
C/2011 KP36 (Spacewatch) 2016 11 04.44 UT: m1 = [12.9, Dia. = ..', DC = .., 0.40-m. L, f4.5 (x257).
C/2011 KP36 (Spacewatch) 2016 11 04.43 16.4 T T05
C/2011 KP36 (Spacewatch) 2016 11 01.43 UT: m1 = 14.5, Dia. = 1.2', DC = 2/3, рассеян. кома, 0.254-m. L, f4.7 (x83).

C/2012 F3 (PANSTARRS) 2016 11 30.80 19.2 N 958
C/2012 F3 (PANSTARRS) 2016 11 24.90 19.2 N G40
C/2012 F3 (PANSTARRS) 2016 11 24.88 ..C: m1 = 16.1, Dia. = 0.4', DC = .., 0.50-m. L, f3 (x250).
C/2012 F3 (PANSTARRS) 2016 11 05.89 ..C: m1 = 15.2, Dia. = 0.5', DC = .., 0.50-m. L, f3 (x250).
C/2012 F3 (PANSTARRS) 2016 11 05.88 18.0 N J22
C/2012 F3 (PANSTARRS) 2016 11 02.85 19.0 N 958

C/2012 LP26 (Palomar) 2016 11 22.73 19.0 T 461
C/2012 LP26 (Palomar) 2016 11 19.14 18.5 T W98
C/2012 LP26 (Palomar) 2016 11 15.24 19.3 T F51

C/2013 A1 (Siding Spring) 2016 11 29.11 17.1 N B96

C/2013 US10 (Catalina) 2016 11 29.95 17.3 N 107
C/2013 US10 (Catalina) 2016 11 29.92 17.6 N C47
C/2013 US10 (Catalina) 2016 11 28.12 16.2 N I81
C/2013 US10 (Catalina) 2016 11 22.13 17.5 N W25
C/2013 US10 (Catalina) 2016 11 20.98 13.8 N I81
C/2013 US10 (Catalina) 2016 11 18.96 17.3 N B96
C/2013 US10 (Catalina) 2016 11 18.45 16.6 T T05
C/2013 US10 (Catalina) 2016 11 10.12 ..C: m1 = 13.3, Dia. = 0.5', DC = .., 0.50-m. L, f3 (x90).
C/2013 US10 (Catalina) 2016 11 06.97 16.8 N J19
C/2013 US10 (Catalina) 2016 11 06.97 16.3 N J19
C/2013 US10 (Catalina) 2016 11 04.93 16.7 N 970
C/2013 US10 (Catalina) 2016 11 02.55 16.8 T T05
C/2013 US10 (Catalina) 2016 11 01.22 ..C: m1 = 14.3, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x90).

C/2013 V4 (Catalina) 2016 11 28.18 17.1 N I81
C/2013 V4 (Catalina) 2016 11 20.77 16.9 N I81
C/2013 V4 (Catalina) 2016 11 19.79 16.5 T 349
C/2013 V4 (Catalina) 2016 11 18.77 16.9 N I81
C/2013 V4 (Catalina) 2016 11 13.01 16.7 N I81
C/2013 V4 (Catalina) 2016 11 04.05 17.3 N I81
C/2013 V4 (Catalina) 2016 11 01.07 17.3 N I81

C/2014 A4 (SONEAR) 2016 11 29.70 17.1 N 215
C/2014 A4 (SONEAR) 2016 11 22.05 17.5 N H45
C/2014 A4 (SONEAR) 2016 11 20.80 17.1 N I81
C/2014 A4 (SONEAR) 2016 11 17.87 16.5 N I81
C/2014 A4 (SONEAR) 2016 11 11.74 17.7 N B96
C/2014 A4 (SONEAR) 2016 11 08.82 17.8 N A77
C/2014 A4 (SONEAR) 2016 11 06.85 ..C: m1 = 17.1, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x120).
C/2014 A4 (SONEAR) 2016 11 06.29 17.8 T T05
C/2014 A4 (SONEAR) 2016 11 03.54 17.0 T 349

C/2014 B1 (Schwartz) 2016 11 24.28 17.3 N W96
C/2014 B1 (Schwartz) 2016 11 19.75 15.6 T 349
C/2014 B1 (Schwartz) 2016 11 03.46 17.2 N H47

P/2014 MG4 (Spacewatch-PANSTARRS) 2016 11 06.42 22.0 T F51

C/2014 N3 (NEOWISE) 2016 11 29.92 18.9 N B96
C/2014 N3 (NEOWISE) 2016 11 28.92 18.3 N B96
C/2014 N3 (NEOWISE) 2016 11 23.88 18.3 N I81
C/2014 N3 (NEOWISE) 2016 11 07.94 18.3 N 970

C/2014 R3 (PANSTARRS) 2016 11 25.81 16.9 T 349
C/2014 R3 (PANSTARRS) 2016 11 25.81 349

C/2015 B2 (PANSTARRS) 2016 11 24.47 19.0 N Q68
C/2015 B2 (PANSTARRS) 2016 11 22.60 18.2 N Q62
C/2015 B2 (PANSTARRS) 2016 11 09.43 18.5 N Q62
C/2015 B2 (PANSTARRS) 2016 11 06.17 18.8 N W88
C/2015 B2 (PANSTARRS) 2016 11 05.04 18.8 N I47

C/2015 D3 (PANSTARRS) 2016 11 24.16 19.4 T 461

C/2015 ER61 (PANSTARRS) 2016 11 22.84 14.0 T 349

C/2015 H2 (PANSTARRS) 2016 11 03.46 17.5 T Q62
C/2015 H2 (PANSTARRS) 2016 11 03.46 Q62

P/2015 PD229 (Cameron-ISON) 2016 11 29.75 20.5 T 215
P/2015 PD229 (Cameron-ISON) 2016 11 24.89 20.0 N B15

C/2015 T2 (PANSTARRS) 2016 11 22.97 19.5 N A71
C/2015 T2 (PANSTARRS) 2016 11 19.16 18.9 T G96
C/2015 T2 (PANSTARRS) 2016 11 10.37 19.9 T 691
C/2015 T2 (PANSTARRS) 2016 11 06.30 19.0 T 703
C/2015 T2 (PANSTARRS) 2016 11 04.70 20.2 T D29
C/2015 T2 (PANSTARRS) 2016 11 01.61 19.2 T D29

C/2015 T5 (Sheppard-Tholen) 2016 11 04.37 23.1 T T12

P/2015 TP200 (LINEAR) 2016 11 30.04 17.6 N 958
P/2015 TP200 (LINEAR) 2016 11 28.28 17.6 N W96
P/2015 TP200 (LINEAR) 2016 11 27.21 ..C: m1 = 15.7, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x120).
P/2015 TP200 (LINEAR) 2016 11 23.05 17.2 N I81
P/2015 TP200 (LINEAR) 2016 11 21.02 17.1 N I81
P/2015 TP200 (LINEAR) 2016 11 12.96 17.3 N I81
P/2015 TP200 (LINEAR) 2016 11 10.56 18.8 T F51
P/2015 TP200 (LINEAR) 2016 11 07.25 ..C: m1 = 16.8, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x120).
P/2015 TP200 (LINEAR) 2016 11 06.36 17.1 N W96

C/2015 V1 (PANSTARRS) 2016 11 29.94 17.3 N C47
C/2015 V1 (PANSTARRS) 2016 11 28.11 16.7 N I81
C/2015 V1 (PANSTARRS) 2016 11 26.99 ..C: m1 = 16.0, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x120).
C/2015 V1 (PANSTARRS) 2016 11 21.07 16.5 N I81
C/2015 V1 (PANSTARRS) 2016 11 18.42 16.6 T T05
C/2015 V1 (PANSTARRS) 2016 11 10.45 16.7 T T05
C/2015 V1 (PANSTARRS) 2016 11 10.45 16.9 T T05
C/2015 V1 (PANSTARRS) 2016 11 06.47 17.1 T T05
C/2015 V1 (PANSTARRS) 2016 11 04.91 16.7 N 970

C/2015 V4 (PANSTARRS) 2016 11 03.73 19.3 T Q62
C/2015 V4 (PANSTARRS) 2016 11 03.73 Q62

C/2015 VL62 (Lemmon-Yeung-PANSTARRS) 2016 11 29.96 17.6 N C47
C/2015 VL62 (Lemmon-Yeung-PANSTARRS) 2016 11 28.08 16.2 N I81
C/2015 VL62 (Lemmon-Yeung-PANSTARRS) 2016 11 25.01 ..C: m1 = 15.7, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x120).
C/2015 VL62 (Lemmon-Yeung-PANSTARRS) 2016 11 23.07 17.3 N H06
C/2015 VL62 (Lemmon-Yeung-PANSTARRS) 2016 11 23.07 ..C: m1 = 15.6, Dia. = 0.3', DC = .., хвост = 0.7', pa = 50°, 0.25-m. L, f3 (x300).
C/2015 VL62 (Lemmon-Yeung-PANSTARRS) 2016 11 21.36 15.7 T O45
C/2015 VL62 (Lemmon-Yeung-PANSTARRS) 2016 11 19.47 15.9 T 349
C/2015 VL62 (Lemmon-Yeung-PANSTARRS) 2016 11 14.95 16.9 N 160
C/2015 VL62 (Lemmon-Yeung-PANSTARRS) 2016 11 10.88 16.1 N Z55
C/2015 VL62 (Lemmon-Yeung-PANSTARRS) 2016 11 06.94 16.2 N A77
C/2015 VL62 (Lemmon-Yeung-PANSTARRS) 2016 11 05.44 16.5 T T05
C/2015 VL62 (Lemmon-Yeung-PANSTARRS) 2016 11 02.17 15.6 T G96
C/2015 VL62 (Lemmon-Yeung-PANSTARRS) 2016 11 01.26 16.1 N W96

C/2015 XY1 (Lemmon) 2016 11 24.68 18.3 T 349
C/2015 XY1 (Lemmon) 2016 11 24.68 349
C/2015 XY1 (Lemmon) 2016 11 24.10 18.4 T 461
C/2015 XY1 (Lemmon) 2016 11 07.50 18.4 T U69

C/2015 X4 (Elenin) 2016 11 09.72 Q62

C/2015 X5 (PANSTARRS) 2016 11 30.49 19.7 T G45
C/2015 X5 (PANSTARRS) 2016 11 24.12 19.8 T 461

C/2015 X7 (ATLAS) 2016 11 28.80 18.4 N Q21
C/2015 X7 (ATLAS) 2016 11 28.31 18.3 N W96
C/2015 X7 (ATLAS) 2016 11 18.16 18.0 N I81
C/2015 X7 (ATLAS) 2016 11 03.36 18.3 N W96

C/2016 A1 (PANSTARRS) 2016 11 30.32 17.5 N W88
C/2016 A1 (PANSTARRS) 2016 11 03.72 16.7 T Q62
C/2016 A1 (PANSTARRS) 2016 11 03.72 Q62

C/2016 A8 (LINEAR) 2016 11 03.41 349
C/2016 A8 (LINEAR) 2016 11 03.41 16.0 T 349
C/2016 A8 (LINEAR) 2016 11 03.22 16.7 T T05
C/2016 A8 (LINEAR) 2016 11 02.43 16.2 N Q62

C/2016 M1 (PANSTARRS) 2016 11 28.73 17.9 N K77
C/2016 M1 (PANSTARRS) 2016 11 21.76 19.2 N C47
C/2016 M1 (PANSTARRS) 2016 11 20.79 17.7 N I81
C/2016 M1 (PANSTARRS) 2016 11 18.75 17.6 N I81
C/2016 M1 (PANSTARRS) 2016 11 02.24 18.3 T T05

C/2016 N4 (MASTER) 2016 11 29.51 16.1 N Q62
C/2016 N4 (MASTER) 2016 11 24.89 16.4 N J22
C/2016 N4 (MASTER) 2016 11 24.89 ..C: m1 = 15.6, Dia. = 0.5', DC = .., 0.50-m. L, f3 (x120).
C/2016 N4 (MASTER) 2016 11 23.07 16.5 N W96
C/2016 N4 (MASTER) 2016 11 21.82 ..B: m1 = 16.0, Dia. = 0', DC = 8, 0.20-m. L, f4 (x450).
C/2016 N4 (MASTER) 2016 11 20.83 16.7 N I81
C/2016 N4 (MASTER) 2016 11 20.83 ..B: m1 = 15.9, Dia. = 0', DC = 8, 0.20-m. L, f4 (x450).
C/2016 N4 (MASTER) 2016 11 19.44 15.4 T 349
C/2016 N4 (MASTER) 2016 11 19.29 16.6 T T05
C/2016 N4 (MASTER) 2016 11 15.30 16.5 T T05
C/2016 N4 (MASTER) 2016 11 11.33 16.5 T T05
C/2016 N4 (MASTER) 2016 11 05.48 D88
C/2016 N4 (MASTER) 2016 11 04.95 16.3 N J22
C/2016 N4 (MASTER) 2016 11 04.95 ..C: m1 = 15.5, Dia. = 0.4', DC = .., 0.50-m. L, f3 (x120).
C/2016 N4 (MASTER) 2016 11 03.35 16.9 T T05
C/2016 N4 (MASTER) 2016 11 02.44 16.3 N Q62

C/2016 N6 (PANSTARRS) 2016 11 28.71 19.4 N K77

C/2016 Q4 (Kowalski) 2016 11 19.88 20.6 T G40

C/2016 R2 (PANSTARRS) 2016 11 29.53 17.0 N Q62
C/2016 R2 (PANSTARRS) 2016 11 24.03 16.5 N J22
C/2016 R2 (PANSTARRS) 2016 11 24.03 ..C: m1 = 13.4, Dia. = 0.4', DC = .., 0.50-m. L, f3 (x150).
C/2016 R2 (PANSTARRS) 2016 11 22.58 ..C: m1 = 15.3, Dia. = 1.9', DC = .., 0.106-m. R, f5 (x960).
C/2016 R2 (PANSTARRS) 2016 11 21.64 17.1 N Q62
C/2016 R2 (PANSTARRS) 2016 11 18.11 17.4 N W88
C/2016 R2 (PANSTARRS) 2016 11 08.24 17.2 N W96
C/2016 R2 (PANSTARRS) 2016 11 02.73 ..C: m1 = 15.7, Dia. = 0.5', DC = .., 0.51-m. L, f4 (x120).
C/2016 R2 (PANSTARRS) 2016 11 02.65 16.9 N Q62
C/2016 R2 (PANSTARRS) 2016 11 01.30 17.1 N W96

P/2016 R4 (Gibbs) 2016 11 26.91 19.9 N J22
P/2016 R4 (Gibbs) 2016 11 26.91 ..C: m1 = 19.6, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x300).

P/2016 S1 (PANSTARRS) 2016 11 29.54 17.2 N Q62
P/2016 S1 (PANSTARRS) 2016 11 21.64 17.4 N Q62
P/2016 S1 (PANSTARRS) 2016 11 17.10 18.1 N W88
P/2016 S1 (PANSTARRS) 2016 11 09.46 17.3 T Q60
C/2016 S1 (PANSTARRS) 2016 11 01.33 17.7 N W96

P/2016 SV (PANSTARRS) 2016 11 06.20 18.8 T 703

C/2016 T2 (Matheny) 2016 11 07.09 17.4 T G96
C/2016 T2 (Matheny) 2016 11 07.09 17.5 T G96
C/2016 T2 (Matheny) 2016 11 05.11 18.2 T 703

C/2016 T3 (PANSTARRS) 2016 11 28.09 18.5 N I81
C/2016 T3 (PANSTARRS) 2016 11 21.20 18.4 N 850
C/2016 T3 (PANSTARRS) 2016 11 06.32 G96
C/2016 T3 (PANSTARRS) 2016 11 06.32 19.7 T G96
C/2016 T3 (PANSTARRS) 2016 11 04.50 19.0 N 372
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