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Старый 03.12.2017, 13:31   #61
Silvester
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Регистрация: 20.05.2007
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По умолчанию Кометы наблюдаемые в декабре 2017 года (после ~13.0m.) ..

Название: 100 лет Октябрю - 25 октября (7 ноября) 1917 года - начало Великой эпохи Побед!.gif
Просмотров: 167

Размер: 6.3 Кб

Кометы в декабре 2017 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 декабре 2017 года ..

10P/Tempel 2 2017 12 26.34 20.1 T G96
10P/Tempel 2 2017 12 18.25 19.9 T J04
10P/Tempel 2 2017 12 14.37 20.0 T G96

14P/Wolf 2017 12 10.45 20.5 T D29

26P/Grigg-Skjellerup 2017 12 23.37 21.4 T F51
26P/Grigg-Skjellerup 2017 12 07.48 20.2 T F51

30P/Reinmuth 1 2017 12 31.66 18.8 T T05
30P/Reinmuth 1 2017 12 17.85 Q11
30P/Reinmuth 1 2017 12 14.26 17.6 N I81
30P/Reinmuth 1 2017 12 10.26 17.3 N I81
30P/Reinmuth 1 2017 12 07.26 18.1 N G40

31P/Schwassmann-Wachmann 2 2017 12 19.88 20.0 N A77
31P/Schwassmann-Wachmann 2 2017 12 07.75 19.5 T 215

47P/Ashbrook-Jackson 2017 12 31.26 19.5 T F51
47P/Ashbrook-Jackson 2017 12 24.39 18.6 T T05
47P/Ashbrook-Jackson 2017 12 23.88 17.9 N C35
47P/Ashbrook-Jackson 2017 12 15.83 17.9 N J01
47P/Ashbrook-Jackson 2017 12 13.60 Q11
47P/Ashbrook-Jackson 2017 12 12.33 18.3 T T05
47P/Ashbrook-Jackson 2017 12 07.09 16.7 T I47
47P/Ashbrook-Jackson 2017 12 07.09 ..S: m1 = 16.6, Dia. = 0.5', DC = .., хвост = 1.0', pa = 74°, 0.3-m. SCT
47P/Ashbrook-Jackson 2017 12 05.85 17.8 N A77

49P/Arend-Rigaux 2017 12 17.39 Q11

59P/Kearns-Kwee 2017 12 19.42 Q11
59P/Kearns-Kwee 2017 12 18.46 Q11

71P/Clark 2017 12 18.38 Q11
71P/Clark 2017 12 13.44 ..C: m1 = 14.7, Dia. = 2.8', DC = .., хвост = 0.02°, pa = 116°, 0.51-m. L, f4 (x720).
71P/Clark 2017 12 12.22 18.7 T F51
71P/Clark 2017 12 08.22 18.7 T F51
71P/Clark 2017 12 06.73 17.4 N A77
71P/Clark 2017 12 04.43 ..C: m1 = 14.8, Dia. = 2.1', DC = .., 0.40-m. L, f4 (x600).

73P/Schwassmann-Wachmann 3 2017 12 24.72 19.1 T 215
73P/Schwassmann-Wachmann 3 2017 12 24.72 19.4 T 215
73P/Schwassmann-Wachmann 3 2017 12 13.63 18.1 T Q11

74P/Smirnova-Chernykh 2017 12 31.19 17.9 N A77
74P/Smirnova-Chernykh 2017 12 26.15 17.3 N J22
74P/Smirnova-Chernykh 2017 12 26.15 ..C: m1 = 16.5, Dia. = 0.4', DC = .., 0.50-m. L, f3 (x150).
74P/Smirnova-Chernykh 2017 12 25.20 17.3 N A77
74P/Smirnova-Chernykh 2017 12 21.20 17.5 N A77
74P/Smirnova-Chernykh 2017 12 20.31 ..C: m1 = 17.0, Dia. = 0.3', DC = .., хвост = 0.7', pa = 294°, 27.4° над горизонтом, 0.30-m. T, f6 (x520).
74P/Smirnova-Chernykh 2017 12 17.76 Q11
74P/Smirnova-Chernykh 2017 12 15.16 17.4 N J22
74P/Smirnova-Chernykh 2017 12 15.16 ..C: m1 = 15.4, Dia. = 0.4', DC = .., 0.50-m. L, f3 (x150).
74P/Smirnova-Chernykh 2017 12 14.16 16.9 N I81
74P/Smirnova-Chernykh 2017 12 13.66 17.1 T T08

90P/Gehrels 1 2017 12 29.04 17.9 N I81
90P/Gehrels 1 2017 12 24.55 17.9 T T05
90P/Gehrels 1 2017 12 22.16 17.3 N G40
90P/Gehrels 1 2017 12 13.83 17.1 N C36
90P/Gehrels 1 2017 12 13.81 UT: m1 = 17.1, Dia. = 0.22', DC = 8, 0.254-m. L, f4.7 + CCD
90P/Gehrels 1 2017 12 09.32 17.5 N H06
90P/Gehrels 1 2017 12 07.50 17.0 T T08

103P/Hartley 2 2017 12 31.63 20.2 T F51
103P/Hartley 2 2017 12 26.17 18.8 T 215
103P/Hartley 2 2017 12 19.79 Q11
103P/Hartley 2 2017 12 17.78 Q11
103P/Hartley 2 2017 12 08.26 18.6 T G40

117P/Helin-Roman-Alu 1 2017 12 15.31 18.3 T G96

123P/West-Hartley 2017 12 15.77 19.9 T 215
123P/West-Hartley 2017 12 15.77 20.3 T 215
123P/West-Hartley 2017 12 08.53 21.1 T D29

128P/Shoemaker-Holt 1 2017 12 24.10 18.4 T 160

136P/Mueller 3 2017 12 25.34 21.5 T G96

139P/Väisälä-Oterma
139P/Vaisala-Oterma 2017 12 24.42 18.8 T T05
139P/Vaisala-Oterma 2017 12 23.79 18.6 N А77
139P/Vaisala-Oterma 2017 12 19.54 18.3 T Q11
139P/Vaisala-Oterma 2017 12 16.01 19.1 N 987
139P/Vaisala-Oterma 2017 12 11.65 18.5 T 349
139P/Vaisala-Oterma 2017 12 09.54 D81
139P/Vaisala-Oterma 2017 12 04.91 19.2 N A77

143P/Kowal-Mrkos 2017 12 26.22 18.3 N J22
143P/Kowal-Mrkos 2017 12 23.51 19.1 T 703
143P/Kowal-Mrkos 2017 12 17.82 Q11
143P/Kowal-Mrkos 2017 12 01.55 U69

159P/LONEOS 2017 12 19.96 19.3 N J22
159P/LONEOS 2017 12 18.53 Q11
159P/LONEOS 2017 12 13.34 19.5 T T08

183P/Korlevic-Juric 2017 12 29.17 18.8 N I81
183P/Korlevic-Juric 2017 12 25.21 19.3 N A77
183P/Korlevic-Juric 2017 12 20.52 19.5 T G96

185P/Petriew 2017 12 29.36 14.3 T 349
185P/Petriew 2017 12 29.05 ..C: m1 = 15.4, Dia. = 0.5', DC = .., 25° над горизонтом, 0.25-m. L, f3 (x300).
185P/Petriew 2017 12 25.69 ..S: m1 = 14.0, Dia. = 0.3', DC = 4, 0.60-m. L, f4 (x305).
185P/Petriew 2017 12 17.38 349
185P/Petriew 2017 12 17.38 15.8 T 349
185P/Petriew 2017 12 09.37 349
185P/Petriew 2017 12 09.37 16.2 T 349
185P/Petriew 2017 12 06.82 18.3 N G40

186P/Garradd 2017 12 16.64 18.8 T T08

188P/LINEAR-Mueller 2017 12 28.29 17.7 T 703
188P/LINEAR-Mueller 2017 12 26.50 19.9 T F51
188P/LINEAR-Mueller 2017 12 22.67 18.1 T Q11
188P/LINEAR-Mueller 2017 12 20.28 17.6 T 703
188P/LINEAR-Mueller 2017 12 13.78 Q11
188P/LINEAR-Mueller 2017 12 13.30 18.0 T 703

213P/Van Ness 2017 12 18.40 Q11
213P/Van Ness 2017 12 09.07 15.8 T 703
213P/Van Ness 2017 12 07.06 15.7 T I47
213P/Van Ness 2017 12 07.06 ..S: m1 = 15.7, Dia. = 0.8', DC = .., 0.3-m. SCT
213P/Van Ness 2017 12 04.73 16.9 N C23

217P/LINEAR 2017 12 31.14 17.6 N A77
217P/LINEAR 2017 12 25.14 17.4 N A77
217P/LINEAR 2017 12 22.55 16.8 T T08
217P/LINEAR 2017 12 17.05 16.9 N J01
217P/LINEAR 2017 12 14.09 16.7 N I81
217P/LINEAR 2017 12 11.98 17.7 N I81
217P/LINEAR 2017 12 10.41 17.3 N H06
217P/LINEAR 2017 12 08.00 17.7 N C47
217P/LINEAR 2017 12 04.17 16.7 N 213

219P/LINEAR 2017 12 13.03 18.5 N I81
219P/LINEAR 2017 12 13.03 18.9 N I81
219P/LINEAR 2017 12 07.30 20.3 T F51

229P/Gibbs 2017 12 26.12 18.7 N J22
229P/Gibbs 2017 12 25.38 19.9 T F51
229P/Gibbs 2017 12 23.30 18.1 T 703
229P/Gibbs 2017 12 10.45 18.3 T T05

235P/LINEAR 2017 12 26.53 19.6 T H06
235P/LINEAR 2017 12 19.76 19.5 T Q11
235P/LINEAR 2017 12 17.80 19.4 T Q11

236P/LINEAR 2017 12 20.42 Q11
236P/LINEAR 2017 12 18.44 Q11
236P/LINEAR 2017 12 13.22 18.4 T T08

240P/NEAT 2017 12 23.12 14.7 T 703
240P/NEAT 2017 12 18.42 Q11
240P/NEAT 2017 12 10.30 16.0 T T05
240P/NEAT 2017 12 07.72 16.9 N 215
240P/NEAT 2017 12 02.40 18.2 N E85

250P/Larson 2017 12 29.26 18.9 T G96
250P/Larson 2017 12 25.85 18.7 T 215
250P/Larson 2017 12 12.23 19.2 N A77

302P/Lemmon-PANSTARRS 2017 12 15.14 18.7 T G96
302P/Lemmon-PANSTARRS 2017 12 10.42 19.1 T T08

352P/Skiff 2017 12 22.85 18.8 N G40
352P/Skiff 2017 12 22.18 17.5 T 703
352P/Skiff 2017 12 20.10 18.0 T G96
352P/Skiff 2017 12 18.51 Q11
352P/Skiff 2017 12 13.57 17.9 T Q11
352P/Skiff 2017 12 10.48 18.3 T D29

355P/LINEAR-NEAT 2017 12 25.25 16.0 T 703
355P/LINEAR-NEAT 2017 12 17.63 Q11
355P/LINEAR-NEAT 2017 12 14.18 15.6 T 703
355P/LINEAR-NEAT 2017 12 13.78 16.8 N C36
355P/LINEAR-NEAT 2017 12 10.25 17.9 N H06
355P/LINEAR-NEAT 2017 12 06.78 16.5 N B74
355P/LINEAR-NEAT 2017 12 04.87 17.0 N A77

356P/WISE 2017 12 21.08 G96
356P/WISE 2017 12 16.17 18.0 T 703
356P/WISE 2017 12 13.31 19.3 T T08

359P/LONEOS 2017 12 23.10 18.1 T 703
359P/LONEOS 2017 12 05.27 20.6 T F51

360P/WISE 2017 12 14.16 19.8 T 703
360P/WISE 2017 12 14.16 20.2 T 703

361P/Spacewatch 2017 12 20.07 18.4 T G96
361P/Spacewatch 2017 12 10.45 18.9 T D29

363P/Lemmon 2017 12 16.21 21.3 T G96
363P/Lemmon 2017 12 07.30 21.2 T F51

C/2010 U3 (Boattini) 2017 12 25.52 17.2 T T05
C/2010 U3 (Boattini) 2017 12 22.70 16.6 T 349
C/2010 U3 (Boattini) 2017 12 21.00 18.1 N 461
C/2010 U3 (Boattini) 2017 12 18.68 Q11
C/2010 U3 (Boattini) 2017 12 14.23 17.0 N I81
C/2010 U3 (Boattini) 2017 12 13.55 17.2 T T05
C/2010 U3 (Boattini) 2017 12 03.61 18.6 T F51

C/2011 KP36 (Spacewatch) 2017 12 31.36 17.4 T T05
C/2011 KP36 (Spacewatch) 2017 12 23.36 17.4 T T05
C/2011 KP36 (Spacewatch) 2017 12 17.99 16.9 N J53
C/2011 KP36 (Spacewatch) 2017 12 14.81 17.8 N K41
C/2011 KP36 (Spacewatch) 2017 12 13.38 17.1 T T08
C/2011 KP36 (Spacewatch) 2017 12 09.50 17.5 N Q62
C/2011 KP36 (Spacewatch) 2017 12 05.42 17.7 T F51

C/2013 US10 (Catalina) 2017 12 07.73 19.9 T 215
C/2013 US10 (Catalina) 2017 12 07.73 19.4 T 215

C/2013 V4 (Catalina) 2017 12 18.80 18.0 T Q11

C/2014 B1 (Schwartz) 2017 12 29.10 17.9 N I81
C/2014 B1 (Schwartz) 2017 12 25.19 17.2 N A77
C/2014 B1 (Schwartz) 2017 12 23.17 17.4 N A77
C/2014 B1 (Schwartz) 2017 12 21.15 17.5 N A77
C/2014 B1 (Schwartz) 2017 12 18.73 Q11
C/2014 B1 (Schwartz) 2017 12 08.28 17.7 N J54

C/2014 OE4 (PANSTARRS) 2017 12 25.21 16.5 T T05
C/2014 OE4 (PANSTARRS) 2017 12 17.48 Q11
C/2014 OE4 (PANSTARRS) 2017 12 13.21 16.3 T T05
C/2014 OE4 (PANSTARRS) 2017 12 07.24 16.5 T T08
C/2014 OE4 (PANSTARRS) 2017 12 04.74 16.5 N C23

C/2014 R3 (PANSTARRS) 2017 12 29.65 17.3 T T05
C/2014 R3 (PANSTARRS) 2017 12 25.62 19.1 T F51
C/2014 R3 (PANSTARRS) 2017 12 22.84 16.8 T 349
C/2014 R3 (PANSTARRS) 2017 12 18.13 17.9 N 461

C/2015 D3 (PANSTARRS) 2017 12 21.02 19.9 T 461
C/2015 D3 (PANSTARRS) 2017 12 18.10 19.5 T 461

C/2015 ER61 (PANSTARRS) 2017 12 24.73 17.3 N 215
C/2015 ER61 (PANSTARRS) 2017 12 23.91 17.1 N А77
C/2015 ER61 (PANSTARRS) 2017 12 23.83 16.6 N C35
C/2015 ER61 (PANSTARRS) 2017 12 20.15 ..C: m1 = 15.5, Dia. = 3', DC = .., хвост = 0.4°, pa = 261°, 0.106-m. R, f5 (x840).
C/2015 ER61 (PANSTARRS) 2017 12 19.55 15.8 N G26
C/2015 ER61 (PANSTARRS) 2017 12 18.89 16.9 N K25
C/2015 ER61 (PANSTARRS) 2017 12 14.20 14.9 T 703
C/2015 ER61 (PANSTARRS) 2017 12 13.02 16.2 N I81
C/2015 ER61 (PANSTARRS) 2017 12 10.26 17.0 N H06
C/2015 ER61 (PANSTARRS) 2017 12 08.49 ..C: m1 = 14.8, Dia. = 3.5', DC = .., хвост = 0.55°, pa = 259°, 0.40-m. L, f4 (x600).
C/2015 ER61 (PANSTARRS) 2017 12 07.75 ..C: m1 = 14.4, Dia. = 4.0', DC = .., хвост = 0.30°, pa = 258°, 0.10-m. R, f6 (x400).
C/2015 ER61 (PANSTARRS) 2017 12 06.82 16.3 N K14
C/2015 ER61 (PANSTARRS) 2017 12 06.82 16.4 N K14
C/2015 ER61 (PANSTARRS) 2017 12 05.94 16.4 N 213
C/2015 ER61 (PANSTARRS) 2017 12 04.79 16.1 N C23

C/2015 O1 (PANSTARRS) 2017 12 30.66 14.6 T T08
C/2015 O1 (PANSTARRS) 2017 12 19.85 Q11
C/2015 O1 (PANSTARRS) 2017 12 14.24 12.7 N I81

C/2015 V1 (PANSTARRS) 2017 12 25.26 17.1 T T08
C/2015 V1 (PANSTARRS) 2017 12 23.28 17.2 T T05
C/2015 V1 (PANSTARRS) 2017 12 22.77 17.2 N А77
C/2015 V1 (PANSTARRS) 2017 12 15.80 16.9 N J01
C/2015 V1 (PANSTARRS) 2017 12 15.79 16.9 N J01
C/2015 V1 (PANSTARRS) 2017 12 13.83 17.1 N Z78
C/2015 V1 (PANSTARRS) 2017 12 13.30 17.1 T T08
C/2015 V1 (PANSTARRS) 2017 12 11.80 16.7 N J01
C/2015 V1 (PANSTARRS) 2017 12 05.33 16.9 T T08
C/2015 V1 (PANSTARRS) 2017 12 04.78 15.8 N C23

C/2015 XY1 (Lemmon) 2017 12 27.53 D88
C/2015 XY1 (Lemmon) 2017 12 26.47 17.6 T T08
C/2015 XY1 (Lemmon) 2017 12 22.62 Q11
C/2015 XY1 (Lemmon) 2017 12 13.76 Q11
C/2015 XY1 (Lemmon) 2017 12 12.51 17.2 T T05
C/2015 XY1 (Lemmon) 2017 12 08.47 17.2 T 703

C/2015 X5 (PANSTARRS) 2017 12 23.52 19.1 T T08
C/2015 X5 (PANSTARRS) 2017 12 18.07 19.4 T 461
C/2015 X5 (PANSTARRS) 2017 12 08.55 19.9 T F51

C/2016 A1 (PANSTARRS) 2017 12 31.64 16.3 T T08
C/2016 A1 (PANSTARRS) 2017 12 26.56 16.3 T T08
C/2016 A1 (PANSTARRS) 2017 12 19.56 16.0 T D88
C/2016 A1 (PANSTARRS) 2017 12 18.93 18.1 N C47
C/2016 A1 (PANSTARRS) 2017 12 17.69 15.3 T 349
C/2016 A1 (PANSTARRS) 2017 12 14.39 15.5 T 703
C/2016 A1 (PANSTARRS) 2017 12 13.99 16.6 N C36
C/2016 A1 (PANSTARRS) 2017 12 10.42 17.0 N H06

C/2016 M1 (PANSTARRS) 2017 12 04.70 15.0 N C23

C/2016 N4 (MASTER) 2017 12 30.81 16.4 N I72
C/2016 N4 (MASTER) 2017 12 23.76 16.7 N A77
C/2016 N4 (MASTER) 2017 12 18.83 17.6 N C47
C/2016 N4 (MASTER) 2017 12 09.47 14.8 T D81
C/2016 N4 (MASTER) 2017 12 04.77 16.2 N C23
C/2016 N4 (MASTER) 2017 12 04.77 15.9 N C23

C/2016 N6 (PANSTARRS) 2017 12 31.25 13.9 T A77
C/2016 N6 (PANSTARRS) 2017 12 31.25 15.0 N A77
C/2016 N6 (PANSTARRS) 2017 12 30.52 ..C: m1 = 14.1, Dia. = 1.7', DC = .., хвост = 0.02°, pa = 98°, 0.106-m. R, f5 (x720).
C/2016 N6 (PANSTARRS) 2017 12 26.12 ..C: m1 = 14.0, Dia. = 3.5', DC = .., хвост = 0.01°, pa = 14°, 0.10-m. R, f6 (x340).
C/2016 N6 (PANSTARRS) 2017 12 25.53 ..C: m1 = 14.3, Dia. = 1.5', DC = .., хвост = 0.06°, pa = 93°, 0.106-m. R, f5 (x600).
C/2016 N6 (PANSTARRS) 2017 12 22.86 349
C/2016 N6 (PANSTARRS) 2017 12 22.86 14.0 T 349
C/2016 N6 (PANSTARRS) 2017 12 19.16 15.1 N L06
C/2016 N6 (PANSTARRS) 2017 12 18.80 UT: m1 = 14.2, Dia. = 0.5', DC = 5, 0.40-m. L, f4.5 (x144).
C/2016 N6 (PANSTARRS) 2017 12 15.23 14.7 N J22
C/2016 N6 (PANSTARRS) 2017 12 15.23 ..C: m1 = 12.4, Dia. = 0.9', DC = .., 0.50-m. L, f3 (x150).
C/2016 N6 (PANSTARRS) 2017 12 14.19 14.8 N I81
C/2016 N6 (PANSTARRS) 2017 12 13.18 14.8 N I81
C/2016 N6 (PANSTARRS) 2017 12 07.71 15.0 N K77

C/2016 T3 (PANSTARRS) 2017 12 30.65 18.4 N Q62
C/2016 T3 (PANSTARRS) 2017 12 30.55 19.6 T F51
C/2016 T3 (PANSTARRS) 2017 12 26.56 19.5 T F51
C/2016 T3 (PANSTARRS) 2017 12 23.42 17.0 T 703
C/2016 T3 (PANSTARRS) 2017 12 23.22 18.3 N А77
C/2016 T3 (PANSTARRS) 2017 12 22.78 17.0 T 349
C/2016 T3 (PANSTARRS) 2017 12 17.73 Q11
C/2016 T3 (PANSTARRS) 2017 12 13.55 18.0 T T08
C/2016 T3 (PANSTARRS) 2017 12 05.56 18.0 T T08

C/2016 X1 (Lemmon) 2017 12 19.98 18.5 T 461

C/2017 A3 (Elenin) 2017 12 01.54 19.5 T U69

C/2017 D2 (Barros) 2017 12 17.44 18.4 T Q11
C/2017 D2 (Barros) 2017 12 09.10 18.3 T 703

C/2017 D3 (ATLAS) 2017 12 24.24 18.0 N А77

C/2017 E3 (PANSTARRS) 2017 12 28.66 17.7 T T08

C/2017 F1 (Lemmon) 2017 12 13.32 19.5 T 703

C/2017 G3 (PANSTARRS) 2017 12 10.64 23.3 T 568

C/2017 K2 (PANSTARRS) 2017 12 20.81 Q11
C/2017 K2 (PANSTARRS) 2017 12 19.82 Q11

C/2017 K6 (Jacques) 2017 12 27.51 15.9 T 423
C/2017 K6 (Jacques) 2017 12 23.57 16.1 T 423
C/2017 K6 (Jacques) 2017 12 20.16 14.0 T I47
C/2017 K6 (Jacques) 2017 12 13.65 UT: m1 = 14.0, Dia. = 0.8', DC = 5/6, 0.254-m. L, f4.7 (x83).
C/2017 K6 (Jacques) 2017 12 11.48 UT: m1 = 13.9, Dia. = 1.5', DC = 3/, 0.254-m. L, f4.7 (x166).
C/2017 K6 (Jacques) 2017 12 10.16 15.9 N W88
C/2017 K6 (Jacques) 2017 12 09.14 ..S: m1 = 13.8, Dia. = 1.5', DC = .., хвост = 2.9', pa = 58°, 0.3-m. SCT
C/2017 K6 (Jacques) 2017 12 07.44 UT: m1 = 14.2, Dia. = 0.9', DC = 3, знач. рассеянная кома, 0.254-m. L, f4.7 (x166).
C/2017 K6 (Jacques) 2017 12 05.51 16.1 N E94

C/2017 M3 (PANSTARRS) 2017 12 13.62 21.3 T 568

C/2017 M4 (ATLAS) 2017 12 30.80 16.8 N I72
C/2017 M4 (ATLAS) 2017 12 19.39 Q11
C/2017 M4 (ATLAS) 2017 12 16.75 16.7 N 213
C/2017 M4 (ATLAS) 2017 12 09.20 16.5 T T05
C/2017 M4 (ATLAS) 2017 12 07.73 18.3 N C47
C/2017 M4 (ATLAS) 2017 12 04.76 16.5 N C23
C/2017 M4 (ATLAS) 2017 12 03.42 16.4 T 349

C/2017 S3 (PANSTARRS) 2017 12 13.73 20.4 T 587

P/2017 S5 (ATLAS) 2017 12 20.48 Q11
P/2017 S5 (ATLAS) 2017 12 18.55 Q11
P/2017 S5 (ATLAS) 2017 12 14.14 17.9 T 703
P/2017 S5 (ATLAS) 2017 12 11.50 18.8 T D29
P/2017 S5 (ATLAS) 2017 12 09.60 18.2 T 349
P/2017 S5 (ATLAS) 2017 12 08.23 18.4 T 703

C/2017 S6 (Catalina) 2017 12 29.12 15.5 T 703
C/2017 S6 (Catalina) 2017 12 28.79 18.9 N A77
C/2017 S6 (Catalina) 2017 12 24.86 18.2 N A77
C/2017 S6 (Catalina) 2017 12 23.86 18.5 N А77
C/2017 S6 (Catalina) 2017 12 23.74 18.6 N А77
C/2017 S6 (Catalina) 2017 12 19.71 19.8 N 130
C/2017 S6 (Catalina) 2017 12 19.45 Q11
C/2017 S6 (Catalina) 2017 12 16.83 18.2 N 213
C/2017 S6 (Catalina) 2017 12 07.86 18.3 N G40
C/2017 S6 (Catalina) 2017 12 07.82 18.5 N I89
C/2017 S6 (Catalina) 2017 12 06.73 18.0 N A77
C/2017 S6 (Catalina) 2017 12 03.90 18.0 N 213
C/2017 S6 (Catalina) 2017 12 03.53 15.7 T 349

C/2017 S7 (Lemmon) 2017 12 23.34 20.6 T F51
C/2017 S7 (Lemmon) 2017 12 20.26 19.3 T G96
C/2017 S7 (Lemmon) 2017 12 09.40 20.5 T F51

C/2017 T2 (PANSTARRS) 2017 12 30.91 18.3 N 213
C/2017 T2 (PANSTARRS) 2017 12 13.01 18.9 N J22
C/2017 T2 (PANSTARRS) 2017 12 11.92 18.8 N B74
C/2017 T2 (PANSTARRS) 2017 12 07.41 19.1 T F51

C/2017 T3 (ATLAS) 2017 12 25.78 18.5 N C47
C/2017 T3 (ATLAS) 2017 12 23.28 17.2 T T08
C/2017 T3 (ATLAS) 2017 12 16.04 17.2 T H45
C/2017 T3 (ATLAS) 2017 12 11.30 17.2 T T08
C/2017 T3 (ATLAS) 2017 12 07.76 17.8 N C47

C/2017 U4 (PANSTARRS) 2017 12 26.50 21.5 T F51
C/2017 U4 (PANSTARRS) 2017 12 12.43 21.1 T 568

C/2017 U5 (PANSTARRS) 2017 12 24.43 21.4 T F51
C/2017 U5 (PANSTARRS) 2017 12 23.28 20.7 T G96
C/2017 U5 (PANSTARRS) 2017 12 14.38 21.1 T F51

C/2017 W2 (Leonard) 2017 12 26.73 372
C/2017 W2 (Leonard) 2017 12 26.34 18.9 T 703
C/2017 W2 (Leonard) 2017 12 23.25 19.6 N G40
C/2017 W2 (Leonard) 2017 12 19.49 19.9 T 691

P/2017 W3 (Gibbs) 2017 12 31.63 20.3 T F51
P/2017 W3 (Gibbs) 2017 12 22.46 19.1 T G96
P/2017 W3 (Gibbs) 2017 12 19.50 19.3 T 691

C/2017 X1 (PANSTARRS) 2017 12 19.49 20.2 T 691

C/2017 Y1 (PANSTARRS) 2017 12 30.22 19.7 T G96

C/2017 Y2 (PANSTARRS) 2017 12 26.25 21.7 T 291
__________________
Альманах ..
Silvester вне форума  
Старый 01.01.2018, 12:43   #62
Silvester
Модератор
 
Аватар для Silvester
 
Регистрация: 20.05.2007
Адрес: Военная Супердержава
Сообщений: 26,717
По умолчанию Кометы наблюдаемые в январе 2018 года (после ~13.0m.) ..

Название: 2018.gif
Просмотров: 94

Размер: 6.9 Кб

Кометы в январе 2018 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 январе 2018 года ..

9P/Tempel 1 2018 01 16.12 21.7 T G96

10P/Tempel 2 2018 01 23.28 19.8 T G96
10P/Tempel 2 2018 01 13.31 20.0 T G96

26P/Grigg-Skjellerup 2018 01 10.31 21.4 T F51

30P/Reinmuth 1 2018 01 27.48 17.9 T 703
30P/Reinmuth 1 2018 01 13.24 18.5 N A77
30P/Reinmuth 1 2018 01 13.24 18.3 N A77
30P/Reinmuth 1 2018 01 06.84 17.4 T 349

31P/Schwassmann-Wachmann 2 2018 01 12.32 21.6 T F51

37P/Forbes 2018 01 14.74 17.2 T Q62
37P/Forbes 2018 01 14.74 Q62

47P/Ashbrook-Jackson 2018 01 23.89 18.6 T G40
47P/Ashbrook-Jackson 2018 01 13.26 19.6 T F51
47P/Ashbrook-Jackson 2018 01 07.04 17.4 N W33
47P/Ashbrook-Jackson 2018 01 04.91 ..C: m1 = 17.1, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x150).
47P/Ashbrook-Jackson 2018 01 01.53 16.9 T 349

56P/Slaughter-Burnham 2018 01 23.34 21.5 T G96
56P/Slaughter-Burnham 2018 01 14.59 21.7 T F51

66P/du Toit 2018 01 28.23 19.0 N A77
66P/du Toit 2018 01 28.23 19.2 N A77
66P/du Toit 2018 01 24.23 19.1 N A77
66P/du Toit 2018 01 23.23 20.7 N A77
66P/du Toit 2018 01 18.23 19.8 N A77
--
66P/du Toit 2003 09 08.40 16.1 N E14

71P/Clark 2018 01 17.22 15.9 T T08
71P/Clark 2018 01 04.45 ..C: m1 = 15.0, Dia. = 2.5', DC = .., 0.51-m. L, f4 (x720).
71P/Clark 2018 01 02.83 17.3 N J22
71P/Clark 2018 01 02.83 ..C: m1 = 14.0, Dia. = 0.6', DC = .., 0.50-m. L, f3 (x150).
71P/Clark 2018 01 01.40 15.8 T 349

73P/Schwassmann-Wachmann 3 2018 01 06.55 18.6 T 349
73P/Schwassmann-Wachmann 3 2018 01 06.54 349

74P/Smirnova-Chernykh 2018 01 27.27 ..C: m1 = 16.5, Dia. = 0.4', DC = .., хвост = 1.4', pa = 292°, 39.6° над горизонтом, 0.30-m. T, f6 (x320).
74P/Smirnova-Chernykh 2018 01 23.12 17.1 N A77
74P/Smirnova-Chernykh 2018 01 23.08 ..C: m1 = 15.9, Dia. = 0.5', DC = .., 0.50-m. L, f3 (x150).
74P/Smirnova-Chernykh 2018 01 18.17 17.3 N A77
74P/Smirnova-Chernykh 2018 01 15.67 17.2 T T08
74P/Smirnova-Chernykh 2018 01 14.43 17.1 N H06
74P/Smirnova-Chernykh 2018 01 13.27 ..C: m1 = 16.4, Dia. = 0.4', DC = .., 0.50-m. L, f3 (x150).
74P/Smirnova-Chernykh 2018 01 13.22 17.0 N A77
74P/Smirnova-Chernykh 2018 01 08.08 ..C: m1 = 16.4, Dia. = 0.7', DC = .., 24.5° над горизонтом, 0.25-m. T, f5 (x020).
74P/Smirnova-Chernykh 2018 01 03.71 16.4 T 349
74P/Smirnova-Chernykh 2018 01 03.70 349

90P/Gehrels 1 2018 01 31.97 17.3 N С23
90P/Gehrels 1 2018 01 25.14 17.7 N H47
90P/Gehrels 1 2018 01 15.23 H06
90P/Gehrels 1 2018 01 14.77 16.9 N С23
90P/Gehrels 1 2018 01 08.51 17.4 T T08
90P/Gehrels 1 2018 01 05.89 17.0 N С23
90P/Gehrels 1 2018 01 05.66 17.0 T 349

93P/Lovas 1 2018 01 27.46 19.9 T G96
93P/Lovas 1 2018 01 27.46 20.0 T G96

95P/Chiron 2018 01 05.85 ..C: m1 = 17.8, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x220).

103P/Hartley 2 2018 01 15.74 Q11
103P/Hartley 2 2018 01 06.78 18.2 T 349
103P/Hartley 2 2018 01 06.77 349

105P/Singer Brewster 2018 01 24.16 20.1 N A77
105P/Singer Brewster 2018 01 20.17 19.7 N A77
105P/Singer Brewster 2018 01 13.23 20.1 N A77
105P/Singer Brewster 2018 01 01.65 20.6 T F51

117P/Helin-Roman-Alu 1 2018 01 19.44 19.0 T T08
117P/Helin-Roman-Alu 1 2018 01 15.44 18.7 T T08

125P/Spacewatch 2018 01 28.07 20.2 N A77
125P/Spacewatch 2018 01 27.40 20.4 T G96
125P/Spacewatch 2018 01 27.40 20.3 T G96

128P/Shoemaker-Holt 1 2018 01 27.30 19.8 T G96
128P/Shoemaker-Holt 1 2018 01 27.30 19.5 T G96
128P/Shoemaker-Holt 1 2018 01 15.32 20.7 T G96

139P/Väisälä-Oterma
139P/Vaisala-Oterma 2018 01 14.53 Q11
139P/Vaisala-Oterma 2018 01 11.82 18.7 N A77
139P/Vaisala-Oterma 2018 01 04.86 19.1 N J22
139P/Vaisala-Oterma 2018 01 04.86 ..C: m1 = 18.4, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x350).

143P/Kowal-Mrkos 2018 01 21.29 ..C: m1 = 18.1, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150).
143P/Kowal-Mrkos 2018 01 27.52 18.6 N E94
143P/Kowal-Mrkos 2018 01 18.21 18.5 N A77
143P/Kowal-Mrkos 2018 01 12.61 18.8 T T05
143P/Kowal-Mrkos 2018 01 02.63 18.4 T F51

145P/Shoemaker-Levy 5 2018 01 31.96 17.2 N С23
145P/Shoemaker-Levy 5 2018 01 29.94 17.8 N A77
145P/Shoemaker-Levy 5 2018 01 23.45 16.2 T D88
145P/Shoemaker-Levy 5 2018 01 23.45 D88
145P/Shoemaker-Levy 5 2018 01 20.27 17.5 N H06
145P/Shoemaker-Levy 5 2018 01 15.07 17.0 N I72
145P/Shoemaker-Levy 5 2018 01 14.98 ..C: m1 = 15.3, Dia. = 0.4', DC = .., 0.50-m. L, f3 (x150).
145P/Shoemaker-Levy 5 2018 01 14.75 16.0 N С23
145P/Shoemaker-Levy 5 2018 01 07.16 17.5 N I81
145P/Shoemaker-Levy 5 2018 01 05.88 16.3 N С23
145P/Shoemaker-Levy 5 2018 01 05.70 15.3 T 349

159P/LONEOS 2018 01 16.14 18.9 T G96
159P/LONEOS 2018 01 14.49 Q11
159P/LONEOS 2018 01 03.86 19.2 N J22
159P/LONEOS 2018 01 03.86 ..C: m1 = 18.8, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x180).

174P/Echeclus 2018 01 29.88 17.7 N С23
174P/Echeclus 2018 01 22.81 18.1 N A77
174P/Echeclus 2018 01 19.89 UT: m1 = 14.6, Dia. = 0.8', DC = 1, 0.60-m. L (x305).
174P/Echeclus 2018 01 19.82 17.8 N С23
174P/Echeclus 2018 01 14.87 ..C: m1 = 14.3, Dia. = 1.5', DC = .., 0.50-m. L, f3 (x150).
174P/Echeclus 2018 01 10.90 17.7 N A77
174P/Echeclus 2018 01 10.71 ..C: m1 = 14.4, Dia. = 3.7', DC = .., 0.10-m. R, f6 (x380).
174P/Echeclus 2018 01 07.79 ..I: m1 = [12.9, Dia. = ..', DC = .., 0.254-m. L, f4.7 (x145).
174P/Echeclus 2018 01 05.98 17.2 N 213
174P/Echeclus 2018 01 05.82 16.7 N С23
174P/Echeclus 2018 01 05.00 17.7 N A77
174P/Echeclus 2018 01 03.89 ..C: m1 = 14.0, Dia. = 2', DC = .., 0.50-m. L, f3 (x150).

183P/Korlevic-Juric 2018 01 29.28 19.4 N J22
183P/Korlevic-Juric 2018 01 29.28 ..C: m1 = 19.1, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x200).
183P/Korlevic-Juric 2018 01 22.17 19.5 N J22
183P/Korlevic-Juric 2018 01 22.17 ..C: m1 = 19.0, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x200).
183P/Korlevic-Juric 2018 01 20.73 Q11

186P/Garradd 2018 01 27.55 18.4 N E94
186P/Garradd 2018 01 13.62 18.8 T T08

187P/LINEAR 2018 01 20.82 18.7 T Q11

188P/LINEAR-Mueller 2018 01 20.26 18.3 T G96
188P/LINEAR-Mueller 2018 01 20.26 18.2 T G96
188P/LINEAR-Mueller 2018 01 15.48 18.6 T T08
188P/LINEAR-Mueller 2018 01 03.61 18.1 T 349
188P/LINEAR-Mueller 2018 01 03.60 349

213P/Van Ness 2018 01 14.40 17.2 T 349
213P/Van Ness 2018 01 14.39 349
213P/Van Ness 2018 01 14.39 17.2 T 349
213P/Van Ness 2018 01 13.06 17.5 T H06
213P/Van Ness 2018 01 13.06 H06
213P/Van Ness 2018 01 12.39 Q11
213P/Van Ness 2018 01 06.25 18.2 T T08

217P/LINEAR 2018 01 28.00 17.8 N A77
217P/LINEAR 2018 01 23.98 17.7 T J43
217P/LINEAR 2018 01 20.27 17.3 N H06
217P/LINEAR 2018 01 20.03 17.6 N A77
217P/LINEAR 2018 01 15.95 17.6 N C36
217P/LINEAR 2018 01 15.06 ..C: m1 = 13.8, Dia. = 0.6', DC = .., 0.50-m. L, f3 (x120).
217P/LINEAR 2018 01 14.80 17.3 N С23
217P/LINEAR 2018 01 08.15 ..C: m1 = 15.9, Dia. = 0.6', DC = .., 34.2° над горизонтом, 0.30-m. T, f6 (x660).
217P/LINEAR 2018 01 07.96 17.0 N C36
217P/LINEAR 2018 01 05.93 16.9 N С23

219P/LINEAR 2018 01 19.19 21.7 T H06

229P/Gibbs 2018 01 27.88 19.7 N A77
229P/Gibbs 2018 01 14.65 18.3 T Q62
229P/Gibbs 2018 01 14.43 18.8 T T08
229P/Gibbs 2018 01 10.38 18.8 T T08

235P/LINEAR 2018 01 28.14 19.8 N A77
235P/LINEAR 2018 01 15.78 Q11
235P/LINEAR 2018 01 12.65 20.4 T F51

236P/LINEAR 2018 01 15.43 Q11
236P/LINEAR 2018 01 13.09 18.2 T 703

240P/NEAT 2018 01 19.46 15.2 T Q62
240P/NEAT 2018 01 16.11 14.6 T 703
240P/NEAT 2018 01 08.11 14.7 T 703
240P/NEAT 2018 01 08.07 ..C: m1 = 14.7, Dia. = 1.1', DC = .., хвост = 0.7', pa = 73°, 35.6° над горизонтом, 0.30-m. T, f6 (x640).
240P/NEAT 2018 01 01.84 ..C: m1 = 13.4, Dia. = 0.8', DC = .., 0.50-m. L, f3 (x150).
240P/NEAT 2018 01 01.44 14.9 T 349

249P/LINEAR 2018 01 20.53 21.4 T F51

250P/Larson 2018 01 25.95 17.8 N 970
250P/Larson 2018 01 23.07 18.9 N A77
250P/Larson 2018 01 15.50 18.6 T T08
250P/Larson 2018 01 09.34 18.8 T G96

302P/Lemmon-PANSTARRS 2018 01 15.07 18.3 T H06

311P/PANSTARRS 2018 01 16.45 21.4 T F51
311P/PANSTARRS 2018 01 12.53 21.5 T F51

314P/Montani 2018 01 18.74 19.7 T Q62
314P/Montani 2018 01 18.74 Q62

334P/NEAT 2018 01 13.53 18.9 T 703

347P/PANSTARRS 2018 01 24.24 20.0 T G96

352P/Skiff 2018 01 14.47 Q11

353P/McNaught 2018 01 04.44 20.2 T Q62

355P/LINEAR-NEAT 2018 01 23.09 G96
355P/LINEAR-NEAT 2018 01 14.90 ..C: m1 = 17.2, Dia. = 0.4', DC = .., 0.50-m. L, f3 (x150).
355P/LINEAR-NEAT 2018 01 13.98 19.0 N G40
355P/LINEAR-NEAT 2018 01 09.34 19.1 T T05
355P/LINEAR-NEAT 2018 01 05.90 17.5 N С23
355P/LINEAR-NEAT 2018 01 05.88 ..C: m1 = 16.0, Dia. = 0.5', DC = .., 0.50-m. L, f3 (x150).
355P/LINEAR-NEAT 2018 01 04.61 17.3 T 349

356P/WISE 2018 01 16.12 18.1 T 703

359P/LONEOS 2018 01 20.09 703
359P/LONEOS 2018 01 20.09 18.1 T 703
359P/LONEOS 2018 01 16.09 18.5 T 703
359P/LONEOS 2018 01 10.26 18.4 T T08

361P/Spacewatch 2018 01 27.42 18.3 T 349
361P/Spacewatch 2018 01 27.41 349
361P/Spacewatch 2018 01 27.11 18.7 T G96
361P/Spacewatch 2018 01 14.45 18.2 T Q11

363P/Lemmon 2018 01 14.14 21.1 T G96

364P/PANSTARRS 2018 01 22.72 Q11

C/2006 S3 (LONEOS) 2018 01 16.54 21.8 T F51

C/2010 U3 (Boattini) 2018 01 31.93 17.4 N С23
C/2010 U3 (Boattini) 2018 01 20.51 Q11
C/2010 U3 (Boattini) 2018 01 19.78 17.6 N С23
C/2010 U3 (Boattini) 2018 01 16.45 17.7 T T08
C/2010 U3 (Boattini) 2018 01 15.10 17.6 N J22
C/2010 U3 (Boattini) 2018 01 15.10 ..C: m1 = 16.0, Dia. = 0.6', DC = .., 0.50-m. L, f3 (x150).
C/2010 U3 (Boattini) 2018 01 14.48 18.0 T T05
C/2010 U3 (Boattini) 2018 01 10.46 17.2 T T05
C/2010 U3 (Boattini) 2018 01 05.87 17.5 N С23

C/2011 KP36 (Spacewatch) 2018 01 25.47 17.5 N E94
C/2011 KP36 (Spacewatch) 2018 01 16.38 17.7 T T05
C/2011 KP36 (Spacewatch) 2018 01 14.57 Q11
C/2011 KP36 (Spacewatch) 2018 01 10.34 17.1 T T08
C/2011 KP36 (Spacewatch) 2018 01 05.92 17.2 N С23
C/2011 KP36 (Spacewatch) 2018 01 05.57 16.4 T 349

C/2012 LP26 (Palomar) 2018 01 05.46 20.3 T Q62
C/2012 LP26 (Palomar) 2018 01 05.46 Q62

P/2013 CU129 (PANSTARRS) 2018 01 22.72 Q11

C/2013 P3 (Palomar) 2018 01 06.45 18.5 T Q62

C/2013 V4 (Catalina) 2018 01 18.86 Q11

C/2013 X1 (PANSTARRS) 2018 01 29.75 18.3 w Q62

C/2014 B1 (Schwartz) 2018 01 20.07 17.3 N A77
C/2014 B1 (Schwartz) 2018 01 16.05 16.5 N C36
C/2014 B1 (Schwartz) 2018 01 14.42 17.3 N H06

C/2014 OE4 (PANSTARRS) 2018 01 18.42 16.3 T Q11
C/2014 OE4 (PANSTARRS) 2018 01 14.72 16.1 N C23
C/2014 OE4 (PANSTARRS) 2018 01 07.72 16.6 N C23
C/2014 OE4 (PANSTARRS) 2018 01 07.72 16.4 N C23
C/2014 OE4 (PANSTARRS) 2018 01 04.44 16.5 T 349

C/2014 R3 (PANSTARRS) 2018 01 26.63 17.3 T T05
C/2014 R3 (PANSTARRS) 2018 01 16.63 17.3 T T08
C/2014 R3 (PANSTARRS) 2018 01 14.66 17.4 T T05
C/2014 R3 (PANSTARRS) 2018 01 10.64 17.7 T T05

C/2015 D3 (PANSTARRS) 2018 01 17.48 19.1 T H06
C/2015 D3 (PANSTARRS) 2018 01 07.58 20.2 T F51

C/2015 ER61 (PANSTARRS) 2018 01 29.87 17.7 N C23
C/2015 ER61 (PANSTARRS) 2018 01 22.87 17.2 N 212
C/2015 ER61 (PANSTARRS) 2018 01 19.09 ..C: m1 = 15.9, Dia. = 2', DC = .., хвост = 0.1°, pa = 258°, 0.51-m. L, f4 (x900).
C/2015 ER61 (PANSTARRS) 2018 01 15.24 H06
C/2015 ER61 (PANSTARRS) 2018 01 14.89 ..C: m1 = 15.4, Dia. = 0.5', DC = .., 0.50-m. L, f3 (x150).
C/2015 ER61 (PANSTARRS) 2018 01 14.78 16.8 N C23
C/2015 ER61 (PANSTARRS) 2018 01 05.83 17.3 N C23
C/2015 ER61 (PANSTARRS) 2018 01 05.83 17.2 N С23
C/2015 ER61 (PANSTARRS) 2018 01 05.61 15.6 T 349
C/2015 ER61 (PANSTARRS) 2018 01 02.88 ..C: m1 = 14.3, Dia. = 0.6', DC = .., 0.50-m. L, f3 (x150).

C/2015 V1 (PANSTARRS) 2018 01 29.77 17.2 N A77
C/2015 V1 (PANSTARRS) 2018 01 28.77 17.3 N A77
C/2015 V1 (PANSTARRS) 2018 01 25.04 16.4 N H47
C/2015 V1 (PANSTARRS) 2018 01 12.48 Q11
C/2015 V1 (PANSTARRS) 2018 01 07.75 ..C: m1 = 15.3, Dia. = 1.3', DC = .., хвост = 0.5', pa = 43°, 33.8° над горизонтом, 0.25-m. Т, f5 (x600).
C/2015 V1 (PANSTARRS) 2018 01 07.04 16.3 N W33
C/2015 V1 (PANSTARRS) 2018 01 03.87 16.9 N J22
C/2015 V1 (PANSTARRS) 2018 01 03.87 ..C: m1 = 15.7, Dia. = 0.7', DC = .., 0.50-m. L, f3 (x120).
C/2015 V1 (PANSTARRS) 2018 01 01.50 15.9 T 349

C/2015 XY1 (Lemmon) 2018 01 24.17 17.6 T G96
C/2015 XY1 (Lemmon) 2018 01 24.17 17.3 T G96
C/2015 XY1 (Lemmon) 2018 01 15.46 17.7 T T08
C/2015 XY1 (Lemmon) 2018 01 06.69 17.2 T 349
C/2015 XY1 (Lemmon) 2018 01 05.54 18.0 T T05

C/2015 X5 (PANSTARRS) 2018 01 22.20 18.5 T 703
C/2015 X5 (PANSTARRS) 2018 01 05.48 19.6 T F51

C/2016 A1 (PANSTARRS) 2018 01 31.56 15.4 T 349
C/2016 A1 (PANSTARRS) 2018 01 27.06 I15
C/2016 A1 (PANSTARRS) 2018 01 20.26 16.2 N H06
C/2016 A1 (PANSTARRS) 2018 01 19.93 UT: m1 = 15.3, Dia. = 0.3', DC = 4, 0.60-m. L (x406).
C/2016 A1 (PANSTARRS) 2018 01 16.53 16.3 T T08
C/2016 A1 (PANSTARRS) 2018 01 15.88 16.2 N C36
C/2016 A1 (PANSTARRS) 2018 01 15.09 ..C: m1 = 15.5, Dia. = 0.4', DC = .., 0.50-m. L, f3 (x150).
C/2016 A1 (PANSTARRS) 2018 01 14.80 16.0 N С23
C/2016 A1 (PANSTARRS) 2018 01 07.63 16.2 T T08
C/2016 A1 (PANSTARRS) 2018 01 05.95 16.4 N С23
C/2016 A1 (PANSTARRS) 2018 01 05.94 ..C: m1 = 14.0, Dia. = 0.5', DC = .., 0.50-m. L, f3 (x150).

C/2016 N4 (MASTER) 2018 01 18.93 16.5 N K02
C/2016 N4 (MASTER) 2018 01 15.05 16.9 N I72
C/2016 N4 (MASTER) 2018 01 14.72 16.2 N C23
C/2016 N4 (MASTER) 2018 01 05.77 16.1 N С23
C/2016 N4 (MASTER) 2018 01 05.77 16.2 N C23
C/2016 N4 (MASTER) 2018 01 04.48 15.6 T 349

C/2016 Q4 (Kowalski) 2018 01 05.87 20.7 N J22
C/2016 Q4 (Kowalski) 2018 01 05.87 ..C: m1 = 20.2, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x450).
--
C/2016 Q4 (Kowalski) 2016 11 19.88 20.6 T G40

C/2016 T3 (PANSTARRS) 2018 01 25.50 18.4 N E94
C/2016 T3 (PANSTARRS) 2018 01 20.69 18.7 N Q62
C/2016 T3 (PANSTARRS) 2018 01 16.60 18.0 T T05
C/2016 T3 (PANSTARRS) 2018 01 12.77 Q11

C/2016 X1 (Lemmon) 2018 01 19.89 19.2 T 461

C/2017 AB5 (PANSTARRS) 2018 01 20.60 18.9 T Q11
C/2017 AB5 (PANSTARRS) 2018 01 12.24 19.6 N G40
C/2017 AB5 (PANSTARRS) 2018 01 07.88 19.8 T J95

C/2017 B3 (LINEAR) 2018 01 27.54 16.1 N E94
C/2017 B3 (LINEAR) 2018 01 06.34 17.1 N W88

C/2017 D2 (Barros) 2018 01 12.41 Q11

C/2017 D3 (ATLAS) 2018 01 27.16 18.0 N C10
C/2017 D3 (ATLAS) 2018 01 23.16 18.4 N A77
C/2017 D3 (ATLAS) 2018 01 20.46 17.9 N H06
C/2017 D3 (ATLAS) 2018 01 15.47 17.3 T G96

C/2017 E3 (PANSTARRS) 2018 01 20.84 17.0 T Q11
C/2017 E3 (PANSTARRS) 2018 01 15.19 17.6 T 215

C/2017 F1 (Lemmon) 2018 01 20.32 20.7 T 568

C/2017 G3 (PANSTARRS) 2018 01 20.61 22.5 T 568

C/2017 K2 (PANSTARRS) 2018 01 24.54 ..C: m1 = 18.2, Dia. = ..', DC = 3, 0.61-m. T, f7 (x600).
C/2017 K2 (PANSTARRS) 2018 01 23.18 18.9 N A77
C/2017 K2 (PANSTARRS) 2018 01 12.83 349
C/2017 K2 (PANSTARRS) 2018 01 12.83 18.1 T 349

C/2017 M3 (PANSTARRS) 2018 01 15.64 22.0 T 568
C/2017 M3 (PANSTARRS) 2018 01 15.64 22.3 T 568

C/2017 M4 (ATLAS) 2018 01 19.20 16.9 N K02
C/2017 M4 (ATLAS) 2018 01 13.75 16.8 N C23
C/2017 M4 (ATLAS) 2018 01 06.41 16.3 T 349
C/2017 M4 (ATLAS) 2018 01 05.76 16.2 N C23

P/2017 P1 (PANSTARRS) 2017 08 24.50 19.6 N 372

P/2017 R1 (PANSTARRS) 2018 01 06.22 21.7 T F51
P/2017 R1 (PANSTARRS) 2018 01 06.22 21.5 T F51

C/2017 S2 (PANSTARRS) 2018 01 16.21 22.6 T 568

C/2017 S3 (PANSTARRS) 2018 01 15.06 19.8 T H06

P/2017 S5 (ATLAS) 2018 01 18.49 Q11

C/2017 S6 (Catalina) 2018 01 24.77 19.5 N A77
C/2017 S6 (Catalina) 2018 01 19.78 19.4 N A77
C/2017 S6 (Catalina) 2018 01 19.77 19.3 N A77
C/2017 S6 (Catalina) 2018 01 14.42 18.4 T Q11
C/2017 S6 (Catalina) 2018 01 12.79 19.1 N A77
C/2017 S6 (Catalina) 2018 01 11.75 19.1 N A77
C/2017 S6 (Catalina) 2018 01 06.75 19.8 N A71
C/2017 S6 (Catalina) 2018 01 05.74 18.8 N A77

C/2017 S7 (Lemmon) 2018 01 20.32 20.1 T 568
C/2017 S7 (Lemmon) 2018 01 20.32 20.0 T 568
C/2017 S7 (Lemmon) 2018 01 13.34 20.6 T F51
C/2017 S7 (Lemmon) 2018 01 06.37 20.6 T F51

C/2017 T2 (PANSTARRS) 2018 01 20.42 18.5 T Q11
C/2017 T2 (PANSTARRS) 2018 01 11.94 ..C: m1 = 18.5, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x300).
C/2017 T2 (PANSTARRS) 2018 01 03.50 349
C/2017 T2 (PANSTARRS) 2018 01 03.50 18.5 T 349

C/2017 T3 (ATLAS) 2018 01 29.85 16.3 N С23
C/2017 T3 (ATLAS) 2018 01 28.82 16.9 N A77
C/2017 T3 (ATLAS) 2018 01 20.26 16.5 T T08
C/2017 T3 (ATLAS) 2018 01 19.76 16.4 N С23
C/2017 T3 (ATLAS) 2018 01 15.48 Q11
C/2017 T3 (ATLAS) 2018 01 14.27 17.2 T T05
C/2017 T3 (ATLAS) 2018 01 10.27 17.3 T T05
C/2017 T3 (ATLAS) 2018 01 07.13 ..C: m1 = 16.6, Dia. = 0.3', DC = .., 0.25-m. L, f3 (x300).
C/2017 T3 (ATLAS) 2018 01 06.50 16.0 T 349

C/2017 W2 (Leonard) 2018 01 24.31 19.0 T G96
C/2017 W2 (Leonard) 2018 01 16.45 19.6 T F51
C/2017 W2 (Leonard) 2018 01 15.37 19.0 T 703

P/2017 W3 (Gibbs) 2018 01 27.74 18.5 T 349
P/2017 W3 (Gibbs) 2018 01 15.76 Q11
P/2017 W3 (Gibbs) 2018 01 15.18 18.9 T 215
P/2017 W3 (Gibbs) 2018 01 10.62 20.0 T F51

C/2017 X1 (PANSTARRS) 2018 01 14.72 18.4 T Q62
C/2017 X1 (PANSTARRS) 2018 01 14.72 Q62
C/2017 X1 (PANSTARRS) 2018 01 03.55 19.8 T F51

C/2017 Y1 (PANSTARRS) 2018 01 25.27 G96
C/2017 Y1 (PANSTARRS) 2018 01 15.27 18.7 T H06

C/2017 Y2 (PANSTARRS) 2018 01 12.10 21.9 T U69
C/2017 Y2 (PANSTARRS) 2018 01 12.10 U69

P/2017 Y3 (Leonard) 2018 01 20.80 Q11
P/2017 Y3 (Leonard) 2018 01 15.85 18.1 T Q11
P/2017 Y3 (Leonard) 2018 01 11.28 18.7 T G40

C/2018 A1 (PANSTARRS) 2018 01 28.19 18.7 N A77
C/2018 A1 (PANSTARRS) 2018 01 25.88 18.1 N 970
C/2018 A1 (PANSTARRS) 2018 01 15.69 Q11
C/2018 A1 (PANSTARRS) 2018 01 12.81 Q11
C/2018 A1 (PANSTARRS) 2018 01 12.77 18.0 T 349
C/2018 A1 (PANSTARRS) 2018 01 11.07 18.4 T G40

C/2018 A3 (ATLAS) 2018 01 26.52 18.1 T 703
C/2018 A3 (ATLAS) 2018 01 20.77 17.9 T 349
C/2018 A3 (ATLAS) 2018 01 18.18 17.9 N I89
C/2018 A3 (ATLAS) 2018 01 17.52 18.1 T H06

P/2018 A4 (PANSTARRS) 2018 01 16.18 20.0 T I52
P/2018 A4 (PANSTARRS) 2018 01 16.18 19.4 T I52

P/2018 A5 (PANSTARRS) 2018 01 20.40 21.5 T F51
P/2018 A5 (PANSTARRS) 2018 01 17.04 19.2 T 033

C/2018 A6 (Gibbs) 2018 01 23.50 691
__________________
Альманах ..
Silvester вне форума  
Старый 02.02.2018, 00:08   #63
Silvester
Модератор
 
Аватар для Silvester
 
Регистрация: 20.05.2007
Адрес: Военная Супердержава
Сообщений: 26,717
По умолчанию Кометы наблюдаемые в феврале 2018 года (после ~13.0m.) ..

Название: 2 февраля 2018 года 75 лет Победы Сталинской РККА над немцами в Сталинградской битве _ 1.gif
Просмотров: 66

Размер: 6.3 Кб

Нажмите на изображение для увеличения
Название: За оборону Сталинграда _ Указ Президиума ВС СССР от 22 декабря 1942 года _ 1.jpg
Просмотров: 21
Размер:	193.5 Кб
ID:	167915

Кометы в феврале 2018 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 феврале 2018 года ..

10P/Tempel 2 2018 02 12.49 20.2 T F51

21P/Giacobini-Zinner 2018 02 21.77 19.3 T Q11
21P/Giacobini-Zinner 2018 02 15.38 20.4 N W96
21P/Giacobini-Zinner 2018 02 15.38 20.2 N W96

26P/Grigg-Skjellerup 2018 02 14.77 20.2 T 215
26P/Grigg-Skjellerup 2018 02 14.77 19.9 T 215

30P/Reinmuth 1 2018 02 23.77 18.6 T D81
30P/Reinmuth 1 2018 02 19.77 18.9 N Q62
30P/Reinmuth 1 2018 02 18.19 19.0 N C10
30P/Reinmuth 1 2018 02 11.69 19.1 N Q62

37P/Forbes 2018 02 25.39 17.0 N W96
37P/Forbes 2018 02 11.74 16.9 N Q62

47P/Ashbrook-Jackson 2018 02 24.77 17.7 N C23
47P/Ashbrook-Jackson 2018 02 24.77 17.9 N C23
47P/Ashbrook-Jackson 2018 02 14.84 18.8 N J22

48P/Johnson 2018 02 23.85 Q11
48P/Johnson 2018 02 23.85 17.3 T Q11
48P/Johnson 2018 02 16.38 18.5 N W96

53P/Van Biesbroeck 2018 02 03.27 21.4 T F51

66P/du Toit 2018 02 25.35 18.3 N W96
66P/du Toit 2018 02 25.35 18.5 N W96
66P/du Toit 2018 02 19.77 17.6 N Q62
66P/du Toit 2018 02 18.36 17.6 T I47
66P/du Toit 2018 02 18.35 ..C: m1 = 17.6, Dia. = 0.4', DC = .., 55.5° над горизонтом, 0.30-m. T, f6 (x150).
66P/du Toit 2018 02 18.24 18.3 N J22
66P/du Toit 2018 02 18.24 ..C: m1 = 17.9, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150).
66P/du Toit 2018 02 17.39 18.9 N W96
66P/du Toit 2018 02 12.22 19.1 N A77

74P/Smirnova-Chernykh 2018 02 24.05 16.5 N J01
74P/Smirnova-Chernykh 2018 02 23.11 16.5 N C23
74P/Smirnova-Chernykh 2018 02 19.31 16.5 N W96
74P/Smirnova-Chernykh 2018 02 18.03 16.6 N J01
74P/Smirnova-Chernykh 2018 02 18.01 16.6 N J01
74P/Smirnova-Chernykh 2018 02 16.01 16.6 N C23
74P/Smirnova-Chernykh 2018 02 15.14 16.6 N J22
74P/Smirnova-Chernykh 2018 02 13.16 16.7 N A77
74P/Smirnova-Chernykh 2018 02 10.33 16.7 N H06
74P/Smirnova-Chernykh 2018 02 10.04 16.7 N J01
74P/Smirnova-Chernykh 2018 02 10.02 16.7 N J01
74P/Smirnova-Chernykh 2018 02 07.67 16.1 T 349
74P/Smirnova-Chernykh 2018 02 07.00 ..C: m1 = 14.8, Dia. = 2.9', DC = .., 0.10-m. R, f6 (x440).
74P/Smirnova-Chernykh 2018 02 05.98 16.6 N C23
74P/Smirnova-Chernykh 2018 02 01.01 16.5 N C23

90P/Gehrels 1 2018 02 21.94 19.9 N I81
90P/Gehrels 1 2018 02 21.94 19.7 N I81
90P/Gehrels 1 2018 02 18.55 18.0 T Q11
90P/Gehrels 1 2018 02 15.89 17.8 N С23
90P/Gehrels 1 2018 02 07.84 17.6 N С23

93P/Lovas 1 2018 02 23.31 19.7 T G96
93P/Lovas 1 2018 02 23.31 19.6 T G96

103P/Hartley 2 2018 02 25.42 19.9 T H15
103P/Hartley 2 2018 02 10.64 19.3 N Q62
103P/Hartley 2 2018 02 10.56 19.0 T T08

105P/Singer Brewster 2018 02 21.69 Q11
105P/Singer Brewster 2018 02 18.69 Q11

123P/West-Hartley 2018 02 04.13 20.4 T 691

125P/Spacewatch 2018 02 26.20 18.4 T 703
125P/Spacewatch 2018 02 12.44 19.7 T F51

128P/Shoemaker-Holt 1 2018 02 22.07 19.0 N I81
128P/Shoemaker-Holt 1 2018 02 13.87 19.4 N I81

139P/Väisälä-Oterma
139P/Vaisala-Oterma 2018 02 23.44 Q11
139P/Vaisala-Oterma 2018 02 17.81 18.8 N C23

143P/Kowal-Mrkos 2018 02 27.27 17.7 T W88
143P/Kowal-Mrkos 2018 02 20.77 17.7 N Q62
143P/Kowal-Mrkos 2018 02 18.08 17.9 N J01

145P/Shoemaker-Levy 5 2018 02 21.96 18.1 N I81
145P/Shoemaker-Levy 5 2018 02 18.89 18.1 N A77
145P/Shoemaker-Levy 5 2018 02 17.87 18.1 N C23
145P/Shoemaker-Levy 5 2018 02 12.87 17.6 N C23
145P/Shoemaker-Levy 5 2018 02 10.92 17.9 N A77
145P/Shoemaker-Levy 5 2018 02 06.93 ..C: m1 = 15.1, Dia. = 3.1', DC = .., 0.10-m. R, f6 (x760).
145P/Shoemaker-Levy 5 2018 02 05.86 17.3 N C23

158P/Kowal-LINEAR 2018 02 14.14 20.1 N J22

159P/LONEOS 2018 02 25.11 19.7 T G96
159P/LONEOS 2018 02 18.45 18.6 T Q11

174P/Echeclus 2018 02 18.79 18.2 N A77
174P/Echeclus 2018 02 17.79 17.8 N C23
174P/Echeclus 2018 02 12.83 17.8 N C23
174P/Echeclus 2018 02 09.81 18.4 N A77
174P/Echeclus 2018 02 07.86 17.7 N C23

183P/Korlevic-Juric 2018 02 26.44 18.7 T G96
183P/Korlevic-Juric 2018 02 13.75 18.5 T Q11

186P/Garradd 2018 02 21.20 18.2 N J22
186P/Garradd 2018 02 14.18 18.3 N J22

188P/LINEAR-Mueller 2018 02 18.85 19.0 N A77
188P/LINEAR-Mueller 2018 02 15.90 18.2 N С23
188P/LINEAR-Mueller 2018 02 07.89 17.8 N С23

217P/LINEAR 2018 02 22.00 16.8 N I81
217P/LINEAR 2018 02 22.00 17.2 N I81
217P/LINEAR 2018 02 17.89 18.3 N C23
217P/LINEAR 2018 02 12.88 18.0 N C23
217P/LINEAR 2018 02 14.91 18.3 N A77
217P/LINEAR 2018 02 05.88 17.6 N C23
217P/LINEAR 2018 02 01.00 18.0 N C23

229P/Gibbs 2018 02 12.49 Q11

235P/LINEAR 2018 02 24.09 18.8 N J01
235P/LINEAR 2018 02 13.73 Q11
235P/LINEAR 2018 02 10.34 19.0 N H06

250P/Larson 2018 02 22.04 18.5 N I81
250P/Larson 2018 02 18.61 Q11
250P/Larson 2018 02 17.86 19.1 N A77
250P/Larson 2018 02 15.92 18.2 N С23
250P/Larson 2018 02 10.97 19.2 N A77

311P/PANSTARRS 2018 02 20.32 21.2 T F51
311P/PANSTARRS 2018 02 13.94 20.3 T 215

352P/Skiff 2018 02 05.13 19.6 T 703

355P/LINEAR-NEAT 2018 02 17.86 19.9 N C23

356P/WISE 2018 02 09.12 19.2 T 703

359P/LONEOS 2018 02 10.08 18.6 T H06

364P/PANSTARRS 2018 02 23.66 Q11
364P/PANSTARRS 2018 02 15.99 18.3 N C23
364P/PANSTARRS 2018 02 15.99 18.0 N C23

P/2010 H2 (Vales) 2018 02 14.19 ..C: m1 = [15.5, Dia. = 1', DC = .., 11.3° над горизонтом,0.25-m. T, f5 (x450).

C/2010 U3 (Boattini) 2018 02 23.82 18.9 N K87
C/2010 U3 (Boattini) 2018 02 21.81 17.7 N C23
C/2010 U3 (Boattini) 2018 02 16.01 17.9 N K02
C/2010 U3 (Boattini) 2018 02 12.91 17.3 N C23

C/2011 KP36 (Spacewatch) 2018 02 23.78 17.3 N C23
C/2011 KP36 (Spacewatch) 2018 02 23.78 17.7 N C23
C/2011 KP36 (Spacewatch) 2018 02 13.88 17.2 N J22
C/2011 KP36 (Spacewatch) 2018 02 12.84 16.9 N C23
C/2011 KP36 (Spacewatch) 2018 02 12.53 16.6 T 349
C/2011 KP36 (Spacewatch) 2018 02 09.05 ..C: m1 = 16.2, Dia. = 0.6', DC = .., 39.3° над горизонтом, 0.30-m. T, f6 (x920).

C/2013 C2 (Tenagra) 2018 02 13.21 19.2 T 215
C/2013 C2 (Tenagra) 2018 02 13.21 215

C/2013 V4 (Catalina) 2018 02 16.76 Q11

C/2014 B1 (Schwartz) 2018 02 23.51 18.9 N E85
C/2014 B1 (Schwartz) 2018 02 23.12 17.2 N C23
C/2014 B1 (Schwartz) 2018 02 16.05 17.2 N K02
C/2014 B1 (Schwartz) 2018 02 15.98 16.8 N C23
C/2014 B1 (Schwartz) 2018 02 11.64 17.3 N Q62

C/2014 OE4 (PANSTARRS) 2018 02 18.85 Q11

C/2014 R3 (PANSTARRS) 2018 02 25.28 16.5 T 703
C/2014 R3 (PANSTARRS) 2018 02 08.36 G96

C/2015 D3 (PANSTARRS) 2018 02 13.90 19.5 T 215
C/2015 D3 (PANSTARRS) 2018 02 13.90 19.7 T 215

C/2015 ER61 (PANSTARRS) 2018 02 24.79 18.1 N C23
C/2015 ER61 (PANSTARRS) 2018 02 24.79 18.0 N C23
C/2015 ER61 (PANSTARRS) 2018 02 18.80 17.6 N C23
C/2015 ER61 (PANSTARRS) 2018 02 12.81 17.6 N C23
C/2015 ER61 (PANSTARRS) 2018 02 10.83 18.2 N A77
C/2015 ER61 (PANSTARRS) 2018 02 05.83 17.0 N C23
C/2015 ER61 (PANSTARRS) 2018 02 04.46 16.6 T 349

C/2015 LC2 (PANSTARRS) 2018 02 09.54 18.8 T G96

P/2015 TP200 (LINEAR) 2018 02 22.44 19.1 T G96

C/2015 V1 (PANSTARRS) 2018 02 17.77 17.1 N A77
C/2015 V1 (PANSTARRS) 2018 02 12.77 16.6 N C23
C/2015 V1 (PANSTARRS) 2018 02 08.79 17.1 N A77
C/2015 V1 (PANSTARRS) 2018 02 05.77 17.0 N C23
C/2015 V1 (PANSTARRS) 2018 02 04.40 16.3 T 349

C/2015 XY1 (Lemmon) 2018 02 19.87 17.9 N A77
C/2015 XY1 (Lemmon) 2018 02 12.56 Q11

C/2015 X5 (PANSTARRS) 2018 02 08.34 20.0 T F51

C/2016 A1 (PANSTARRS) 2018 02 25.95 16.5 N J27
C/2016 A1 (PANSTARRS) 2018 02 21.95 16.8 N K97
C/2016 A1 (PANSTARRS) 2018 02 21.88 16.5 N А77
C/2016 A1 (PANSTARRS) 2018 02 17.90 16.5 N J01
C/2016 A1 (PANSTARRS) 2018 02 17.81 16.4 N A77
C/2016 A1 (PANSTARRS) 2018 02 15.93 16.4 N C23
C/2016 A1 (PANSTARRS) 2018 02 11.58 16.4 T T05
C/2016 A1 (PANSTARRS) 2018 02 07.91 16.3 N C23
C/2016 A1 (PANSTARRS) 2018 02 06.97 ..C: m1 = 15.4, Dia. = 3.1', DC = .., хвост = 0.01°, pa = 170°, 0.10-m. R, f6 (x920).
C/2016 A1 (PANSTARRS) 2018 02 05.90 16.4 N C23
C/2016 A1 (PANSTARRS) 2018 02 01.04 16.4 N C23

C/2016 C1 (PANSTARRS) 2018 02 17.07 19.5 T 461
C/2016 C1 (PANSTARRS) 2018 02 12.55 20.4 T F51

C/2016 E1 (PANSTARRS) 2018 02 17.12 20.2 T 461
C/2016 E1 (PANSTARRS) 2018 02 09.44 19.2 T G96

C/2016 N4 (MASTER) 2018 02 18.82 16.0 T D81
C/2016 N4 (MASTER) 2018 02 18.78 16.1 T Q11
C/2016 N4 (MASTER) 2018 02 18.75 14.4 N C23
C/2016 N4 (MASTER) 2018 02 18.28 16.6 N J22
C/2016 N4 (MASTER) 2018 02 05.78 16.9 N C23

C/2016 T3 (PANSTARRS) 2018 02 23.39 19.1 N E85
C/2016 T3 (PANSTARRS) 2018 02 23.39 19.6 N E85
C/2016 T3 (PANSTARRS) 2018 02 15.02 18.3 N J22
C/2016 T3 (PANSTARRS) 2018 02 10.35 18.6 N H06

C/2016 X1 (Lemmon) 2018 02 13.85 18.9 N J22

C/2017 AB5 (PANSTARRS) 2018 02 13.86 19.2 T 215

C/2017 B3 (LINEAR) 2018 02 21.28 16.4 T W88
C/2017 B3 (LINEAR) 2018 02 19.76 15.9 N Q62
C/2017 B3 (LINEAR) 2018 02 17.36 16.4 N I47
C/2017 B3 (LINEAR) 2018 02 12.34 16.6 N W96
C/2017 B3 (LINEAR) 2018 02 10.64 16.9 N Q62

C/2017 D3 (ATLAS) 2018 02 26.31 17.1 T 703
C/2017 D3 (ATLAS) 2018 02 19.29 17.9 N W96
C/2017 D3 (ATLAS) 2018 02 18.09 17.9 N C10
C/2017 D3 (ATLAS) 2018 02 15.35 17.8 N W96

C/2017 E3 (PANSTARRS) 2018 02 13.80 16.9 T Q11
C/2017 E3 (PANSTARRS) 2018 02 11.69 17.8 N Q62

C/2017 F1 (Lemmon) 2018 02 17.23 22.5 T 568
C/2017 F1 (Lemmon) 2018 02 17.23 22.2 T 568

C/2017 K2 (PANSTARRS) 2018 02 26.82 D81
C/2017 K2 (PANSTARRS) 2018 02 26.08 19.1 T 461
C/2017 K2 (PANSTARRS) 2018 02 19.10 18.5 T K77
C/2017 K2 (PANSTARRS) 2018 02 18.23 18.7 N J22
C/2017 K2 (PANSTARRS) 2018 02 18.23 ..C: m1 = 18.1, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x360).

C/2017 K6 (Jacques) 2018 02 25.78 16.0 N C23
C/2017 K6 (Jacques) 2018 02 21.07 ..C: m1 = 14.9, Dia. = 0.8', DC = .., хвост = 1.3', pa = 141°, 28.3° над горизонтом, 0.30-m. T, f6 (x760).
C/2017 K6 (Jacques) 2018 02 17.78 15.8 N C23
C/2017 K6 (Jacques) 2018 02 12.78 15.7 N C23
C/2017 K6 (Jacques) 2018 02 10.43 UT: m1 = 13.8, Dia. = 1.5', DC = 3, рассеян. кома, 0.254-m. L, f4.7 (x83).
C/2017 K6 (Jacques) 2018 02 08.43 UT: m1 = 13.9, Dia. = 1.0', DC = 2/3, рассеян. кома, 0.254-m. L, f4.7 (x83).
C/2017 K6 (Jacques) 2018 02 08.09 ..C: m1 = 14.9, Dia. = 0.7', DC = .., хвост = 0.9', pa = 134°, 32.5° над горизонтом, 0.30-m. T, f6 (x800).
C/2017 K6 (Jacques) 2018 02 07.43 UT: m1 = 13.8, Dia. = 1.4', DC = 3, рассеян. кома, 0.254-m. L, f4.7 (x83).
C/2017 K6 (Jacques) 2018 02 06.44 UT: m1 = 13.9, Dia. = 1.1', DC = 3, 0.254-m. L, f4.7 (x83).
C/2017 K6 (Jacques) 2018 02 05.44 UT: m1 = 13.8, Dia. = 1.4', DC = 3, рассеян. кома, 0.254-m. L, f4.7 (x83).
C/2017 K6 (Jacques) 2018 02 03.42 14.6 T 349
C/2017 K6 (Jacques) 2018 02 01.90 ..C: m1 = 13.6, Dia. = 0.6', DC = .., 0.50-m. L, f3 (x90).

C/2017 M4 (ATLAS) 2018 02 21.18 16.6 N I81
C/2017 M4 (ATLAS) 2018 02 21.18 16.2 N I81
C/2017 M4 (ATLAS) 2018 02 18.81 Q11
C/2017 M4 (ATLAS) 2018 02 14.26 16.4 N J22
C/2017 M4 (ATLAS) 2018 02 14.26 ..C: m1 = 15.8, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x150).

C/2017 T2 (PANSTARRS) 2018 02 21.79 18.5 N B74
C/2017 T2 (PANSTARRS) 2018 02 21.79 18.6 N B74
C/2017 T2 (PANSTARRS) 2018 02 13.84 18.6 N J22

C/2017 T3 (ATLAS) 2018 02 23.77 16.5 N C23
C/2017 T3 (ATLAS) 2018 02 23.77 16.2 N C23
C/2017 T3 (ATLAS) 2018 02 18.77 16.7 N C23
C/2017 T3 (ATLAS) 2018 02 18.77 16.6 N C23
C/2017 T3 (ATLAS) 2018 02 12.80 16.2 N C23
C/2017 T3 (ATLAS) 2018 02 12.45 15.7 T 349
C/2017 T3 (ATLAS) 2018 02 10.79 16.5 N A77
C/2017 T3 (ATLAS) 2018 02 05.79 16.4 N C23
C/2017 T3 (ATLAS) 2018 02 04.09 ..C: m1 = 16.0, Dia. = 0.6', DC = .., 0.106-m. R, f5 (x300).

C/2017 U5 (PANSTARRS) 2018 02 05.20 20.9 T G96

C/2017 W2 (Leonard) 2018 02 13.92 19.1 T 215
C/2017 W2 (Leonard) 2018 02 13.92 19.3 T 215

P/2017 W3 (Gibbs) 2018 02 22.80 18.8 T D29
P/2017 W3 (Gibbs) 2018 02 13.70 18.3 T Q11

C/2017 X1 (PANSTARRS) 2018 02 13.54 19.5 N 474

C/2017 Y1 (PANSTARRS) 2018 02 13.87 19.4 T 215

P/2017 Y3 (Leonard) 2018 02 18.83 Q11
P/2017 Y3 (Leonard) 2018 02 18.83 17.8 T Q11

C/2018 A1 (PANSTARRS) 2018 02 25.20 18.3 T 703
C/2018 A1 (PANSTARRS) 2018 02 17.43 20.5 T 568
C/2018 A1 (PANSTARRS) 2018 02 15.94 18.0 N C23
C/2018 A1 (PANSTARRS) 2018 02 05.95 18.1 N C23

C/2018 A3 (ATLAS) 2018 02 26.31 17.5 T 703
C/2018 A3 (ATLAS) 2018 02 17.78 349
C/2018 A3 (ATLAS) 2018 02 17.78 17.6 T 349
C/2018 A3 (ATLAS) 2018 02 16.02 17.2 N C23
C/2018 A3 (ATLAS) 2018 02 10.36 17.7 N H06
C/2018 A3 (ATLAS) 2018 02 01.07 17.3 N C23

P/2018 A4 (PANSTARRS) 2018 02 25.13 19.6 T G96
P/2018 A4 (PANSTARRS) 2018 02 13.75 19.2 T 215

C/2018 A6 (Gibbs) 2018 02 25.94 19.4 N B74
C/2018 A6 (Gibbs) 2018 02 18.65 Q11

C/2018 B1 (Lemmon) 2018 02 13.74 19.3 T 215
C/2018 B1 (Lemmon) 2018 02 13.74 19.1 T 215

P/2018 C1 (Lemmon-Read) 2018 02 23.99 18.1 N J01
P/2018 C1 (Lemmon-Read) 2018 02 18.92 18.6 N K77
P/2018 C1 (Lemmon-Read) 2018 02 17.95 19.0 N C10
P/2018 C1 (Lemmon-Read) 2018 02 11.01 18.9 N A77
P/2018 C1 (Lemmon-Read) 2018 02 10.95 18.5 T 595

P/2017 U6 (PanSTARRS) = P/2011 WG113 2011 12 05.06 807

A/2017 U7 2018 02 10.05 19.2 G 807

A/2018 C2 2018 02 27.44 18.3 R 850
A/2018 C2 2018 02 22.16 19.4 R K87
__________________
Альманах ..
Silvester вне форума  
Старый 04.03.2018, 11:01   #64
Silvester
Модератор
 
Аватар для Silvester
 
Регистрация: 20.05.2007
Адрес: Военная Супердержава
Сообщений: 26,717
По умолчанию Кометы наблюдаемые в марте 2018 года (после ~13.0m.) ..

Название: 6.gif
Просмотров: 24

Размер: 1.6 Кб
Кометы в марте 2018 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 марте 2018 года ..

10P/Tempel 2 2018 03 10.11 19.5 T H06
10P/Tempel 2 2018 03 10.11 H06

21P/Giacobini-Zinner 2018 03 24.17 19.1 N A77
21P/Giacobini-Zinner 2018 03 17.77 ..C: m1 = 18.3, Dia. = .., DC = .., 0.51-m. T, f5 (x180).
21P/Giacobini-Zinner 2018 03 17.76 18.3 N Q62
21P/Giacobini-Zinner 2018 03 15.38 18.7 N W96

24P/Schaumasse 2018 03 29.31 17.8 N W88
24P/Schaumasse 2018 03 24.18 17.0 N A77
24P/Schaumasse 2018 03 22.18 17.6 N А77
24P/Schaumasse 2018 03 18.62 19.6 T F51
24P/Schaumasse 2018 03 17.70 18.3 N Q62
24P/Schaumasse 2018 03 14.34 17.6 N W96
24P/Schaumasse 2018 03 13.14 ..C: m1 = 14.2, Dia. = 0.5', DC = .., 0.50-m. L, f3 (x60).
24P/Schaumasse 2018 03 02.80 15.6 T 349

30P/Reinmuth 1 2018 03 25.07 18.1 N I81
30P/Reinmuth 1 2018 03 17.16 19.1 N J22
30P/Reinmuth 1 2018 03 17.16 ..C: m1 = 18.9, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150).
30P/Reinmuth 1 2018 03 14.72 Q11
30P/Reinmuth 1 2018 03 14.15 19.0 N A77
30P/Reinmuth 1 2018 03 11.63 19.1 N Q62

37P/Forbes 2018 03 30.37 15.6 N W88
37P/Forbes 2018 03 27.40 15.9 N W88
37P/Forbes 2018 03 25.37 15.7 N W96
37P/Forbes 2018 03 24.79 ..C: m1 = 13.9, Dia. = 1.2', DC = .., хвост = 2.5', pa = 247°, 0.406-m. L, f3 (x300).
37P/Forbes 2018 03 24.38 15.7 N W96
37P/Forbes 2018 03 19.39 15.9 N W96
37P/Forbes 2018 03 16.64 15.8 T T05
37P/Forbes 2018 03 14.38 16.0 N W96
37P/Forbes 2018 03 04.39 16.4 N W96
37P/Forbes 2018 03 04.39 16.2 N W96

47P/Ashbrook-Jackson 2018 03 19.83 18.0 N C23
47P/Ashbrook-Jackson 2018 03 17.43 Q11
47P/Ashbrook-Jackson 2018 03 14.81 19.2 T 215
47P/Ashbrook-Jackson 2018 03 11.81 18.5 N C23

48P/Johnson 2018 03 24.82 Q11

62P/Tsuchinshan 1 2018 03 30.33 18.3 N W96
62P/Tsuchinshan 1 2018 03 25.71 18.6 N Q21
62P/Tsuchinshan 1 2018 03 24.92 18.0 T 215
62P/Tsuchinshan 1 2018 03 23.39 18.4 N W96
62P/Tsuchinshan 1 2018 03 21.08 ..C: m1 = 15.5, Dia. = 0.3', DC = .., 35.4° над горизонтом, 0.25-m. T, f5 (x360).
62P/Tsuchinshan 1 2018 03 21.00 17.7 N B15
62P/Tsuchinshan 1 2018 03 20.11 ..C: m1 = 14.3, Dia. = 0.8', DC = .., 0.50-m. L, f3 (x150).
62P/Tsuchinshan 1 2018 03 20.02 17.5 N С23
62P/Tsuchinshan 1 2018 03 19.00 17.5 N I81
62P/Tsuchinshan 1 2018 03 17.63 17.8 T T05
62P/Tsuchinshan 1 2018 03 13.15 17.8 N A77
62P/Tsuchinshan 1 2018 03 13.07 18.0 N J54
62P/Tsuchinshan 1 2018 03 11.80 Q11
62P/Tsuchinshan 1 2018 03 11.07 ..C: m1 = 14.3, Dia. = 0.7', DC = .., 0.50-m. L, f3 (x150).
62P/Tsuchinshan 1 2018 03 10.37 18.4 N H06
62P/Tsuchinshan 1 2018 03 02.70 15.9 T 349

74P/Smirnova-Chernykh 2018 03 28.47 17.0 N Q62
74P/Smirnova-Chernykh 2018 03 24.96 15.9 N C36
74P/Smirnova-Chernykh 2018 03 23.99 16.2 N A77
74P/Smirnova-Chernykh 2018 03 20.95 ..C: m1 = 15.1, Dia. = 0.3', DC = .., 46.9° над горизонтом, 0.25-m. T, f5 (x450).
74P/Smirnova-Chernykh 2018 03 20.31 15.2 T 703
74P/Smirnova-Chernykh 2018 03 20.03 ..C: m1 = 14.9, Dia. = 0.8', DC = .., 0.50-m. L, f3 (x150).
74P/Smirnova-Chernykh 2018 03 19.98 16.2 N C23
74P/Smirnova-Chernykh 2018 03 19.52 16.4 T T08
74P/Smirnova-Chernykh 2018 03 17.62 16.6 N Q62
74P/Smirnova-Chernykh 2018 03 14.94 16.1 N C23
74P/Smirnova-Chernykh 2018 03 14.06 16.2 N A77
74P/Smirnova-Chernykh 2018 03 12.88 16.2 N C35
74P/Smirnova-Chernykh 2018 03 11.05 ..C: m1 = 15.5, Dia. = 0.7', DC = .., 0.50-m. L, f3 (x150).
74P/Smirnova-Chernykh 2018 03 10.97 16.2 N C23
74P/Smirnova-Chernykh 2018 03 10.36 16.8 N H06
74P/Smirnova-Chernykh 2018 03 08.01 16.6 N A77
74P/Smirnova-Chernykh 2018 03 06.54 16.1 T T05

90P/Gehrels 1 2018 03 16.86 17.9 T 215
90P/Gehrels 1 2018 03 16.86 215
90P/Gehrels 1 2018 03 11.84 18.4 N C23

93P/Lovas 1 2018 03 20.29 20.9 T 703
93P/Lovas 1 2018 03 19.35 19.4 T G96
93P/Lovas 1 2018 03 13.11 19.9 T W98
93P/Lovas 1 2018 03 10.42 20.2 T F51

103P/Hartley 2 2018 03 22.54 18.3 T Q11
103P/Hartley 2 2018 03 21.29 21.0 T G96
103P/Hartley 2 2018 03 19.51 17.9 T T08
103P/Hartley 2 2018 03 13.69 18.2 T D29
103P/Hartley 2 2018 03 07.53 18.6 T T08

105P/Singer Brewster 2018 03 29.46 16.9 T T05
105P/Singer Brewster 2018 03 27.36 16.6 T 703
105P/Singer Brewster 2018 03 27.36 16.7 T 703
105P/Singer Brewster 2018 03 24.93 17.5 T 215
105P/Singer Brewster 2018 03 24.92 16.9 N C23
105P/Singer Brewster 2018 03 20.38 17.2 T G96
105P/Singer Brewster 2018 03 20.01 17.0 N C23
105P/Singer Brewster 2018 03 18.44 18.6 T F51
105P/Singer Brewster 2018 03 17.39 17.1 T 703
105P/Singer Brewster 2018 03 14.11 17.7 N A77
105P/Singer Brewster 2018 03 13.12 ..C: m1 = 17.2, Dia. = 0.4', DC = .., 0.50-m. L, f3 (x150).
105P/Singer Brewster 2018 03 10.04 17.5 N I81

117P/Helin-Roman-Alu 1 2018 03 10.09 18.8 T H06
117P/Helin-Roman-Alu 1 2018 03 10.09 H06

125P/Spacewatch 2018 03 23.88 19.3 N A77
125P/Spacewatch 2018 03 19.27 18.8 T 703
125P/Spacewatch 2018 03 17.28 19.4 T F51
125P/Spacewatch 2018 03 14.14 19.0 N J22
125P/Spacewatch 2018 03 14.14 ..C: m1 = 18.7, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150).
125P/Spacewatch 2018 03 10.10 19.8 T W98
125P/Spacewatch 2018 03 03.83 18.8 N A77

128P/Shoemaker-Holt 1 2018 03 21.71 20.1 N C97
128P/Shoemaker-Holt 1 2018 03 21.71 20.4 N C97

139P/Väisälä-Oterma
139P/Vaisala-Oterma 2018 03 11.47 19.3 T Q11

143P/Kowal-Mrkos 2018 03 29.49 17.1 T T05
143P/Kowal-Mrkos 2018 03 21.37 17.5 T W98
143P/Kowal-Mrkos 2018 03 19.58 17.1 T T08
143P/Kowal-Mrkos 2018 03 13.64 Q11
143P/Kowal-Mrkos 2018 03 13.05 17.3 N J54
143P/Kowal-Mrkos 2018 03 11.14 ..C: m1 = 17.2, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150).
143P/Kowal-Mrkos 2018 03 10.18 17.2 N 844
143P/Kowal-Mrkos 2018 03 10.57 17.4 N Q62

145P/Shoemaker-Levy 5 2018 03 16.87 18.1 T 215
145P/Shoemaker-Levy 5 2018 03 16.87 17.7 T 215
145P/Shoemaker-Levy 5 2018 03 11.85 18.1 N C23
145P/Shoemaker-Levy 5 2018 03 11.85 17.2 N C23

158P/Kowal-LINEAR 2018 03 18.51 20.7 T F51
158P/Kowal-LINEAR 2018 03 09.06 19.5 N J22
158P/Kowal-LINEAR 2018 03 09.06 ..C: m1 = 18.7, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x200).

159P/LONEOS 2018 03 11.43 Q11

183P/Korlevic-Juric 2018 03 26.04 160
183P/Korlevic-Juric 2018 03 24.03 17.8 N 160
183P/Korlevic-Juric 2018 03 24.03 17.9 N 160
183P/Korlevic-Juric 2018 03 21.95 18.7 N A71
183P/Korlevic-Juric 2018 03 20.35 17.9 T 703
183P/Korlevic-Juric 2018 03 18.44 19.3 T F51
183P/Korlevic-Juric 2018 03 17.48 19.0 T T05
183P/Korlevic-Juric 2018 03 11.75 Q11

185P/Petriew 2018 03 24.79 16.7 N C23
185P/Petriew 2018 03 24.79 16.3 N C23
185P/Petriew 2018 03 22.80 16.5 N 585
185P/Petriew 2018 03 20.85 16.4 N G40
185P/Petriew 2018 03 20.81 ..C: m1 = 14.6, Dia. = 0.5', DC = .., 18.5° над горизонтом, 0.25-m. T, f5 (x360).
185P/Petriew 2018 03 19.79 16.5 N C23
185P/Petriew 2018 03 18.79 ..C: m1 = 14.8, Dia. = 0.3', DC = .., 22.6° над горизонтом, 0.25-m. T, f5 (x360).
185P/Petriew 2018 03 18.41 UT: m1 = 13.2, Dia. = 1.2', DC = 2, 15.8° над горизонтом, 0.254-m. L, f4.7 (x83).
185P/Petriew 2018 03 17.41 UT: m1 = 13.5, Dia. = 0.8', DC = 2, 0.254-m. L, f4.7 (x83).
185P/Petriew 2018 03 16.71 L51
185P/Petriew 2018 03 14.87 15.8 N J22
185P/Petriew 2018 03 14.87 ..C: m1 = 12.5, Dia. = 1.5', DC = .., 0.50-m. L, f3 (x75).
185P/Petriew 2018 03 14.79 15.0 N C23
185P/Petriew 2018 03 12.42 ..S: m1 = 12.5, Dia. = 1.3', DC = 1, 0.40-m. L, f4.5 (x144).
185P/Petriew 2018 03 11.78 16.1 N C23
185P/Petriew 2018 03 11.42 UT: m1 = 12.5, Dia. = 1.4', DC = 3, 13.0° над горизонтом, 0.254-m. L, f4.7 (x83).
185P/Petriew 2018 03 10.44 13.6 T 349
185P/Petriew 2018 03 07.10 ..Z: m1 = 12.0, Dia. = 9', DC = .., 0.106-m. R, f5 (x600).
185P/Petriew 2018 03 04.68 16.9 N C97

186P/Garradd 2018 03 20.46 18.9 T T05
186P/Garradd 2018 03 20.46 18.6 T T05
186P/Garradd 2018 03 20.24 18.2 N W96
186P/Garradd 2018 03 17.62 18.0 N Q62
186P/Garradd 2018 03 16.48 17.9 T T05
186P/Garradd 2018 03 11.13 ..C: m1 = 17.6, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x220).
186P/Garradd 2018 03 10.52 18.2 N Q62

187P/LINEAR 2018 03 28.78 Q62
187P/LINEAR 2018 03 24.76 Q11
187P/LINEAR 2018 03 13.19 20.4 N A77

188P/LINEAR-Mueller 2018 03 12.56 Q11
188P/LINEAR-Mueller 2018 03 11.59 18.9 T Q11

217P/LINEAR 2018 03 21.68 19.9 N C97
217P/LINEAR 2018 03 21.68 20.4 N C97
217P/LINEAR 2018 03 19.92 21.3 N I81
217P/LINEAR 2018 03 12.57 Q11
217P/LINEAR 2018 03 11.88 18.5 N С23

229P/Gibbs 2018 03 14.83 19.2 T 215
229P/Gibbs 2018 03 14.83 19.6 T 215

235P/LINEAR 2018 03 25.99 160
235P/LINEAR 2018 03 24.87 18.2 T 215
235P/LINEAR 2018 03 20.33 18.0 T G96
235P/LINEAR 2018 03 18.19 18.4 N W96
235P/LINEAR 2018 03 17.34 17.9 T 703
235P/LINEAR 2018 03 11.08 ..C: m1 = 18.2, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150).

240P/NEAT 2018 03 10.42 15.8 T 349
240P/NEAT 2018 03 10.41 349
240P/NEAT 2018 03 10.41 15.8 T 349

250P/Larson 2018 03 22.86 18.0 N 585
250P/Larson 2018 03 22.86 18.9 N 585
250P/Larson 2018 03 19.87 18.5 N C23
250P/Larson 2018 03 14.88 19.3 N J22
250P/Larson 2018 03 14.88 ..C: m1 = 19.3, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150).
250P/Larson 2018 03 11.86 19.0 N C23
250P/Larson 2018 03 11.86 18.8 N C23
250P/Larson 2018 03 02.35 19.9 T F51

311P/PANSTARRS 2018 03 07.27 21.4 T F51

334P/NEAT 2018 03 22.62 20.4 T F51

355P/LINEAR-NEAT 2018 03 09.89 19.1 N I81

363P/Lemmon 2018 03 04.10 19.6 T H06
363P/Lemmon 2018 03 04.10 H06

364P/PANSTARRS 2018 03 24.95 18.4 N I81
364P/PANSTARRS 2018 03 24.95 18.6 N I81
364P/PANSTARRS 2018 03 23.83 19.2 N A77
364P/PANSTARRS 2018 03 21.23 18.9 T 703
364P/PANSTARRS 2018 03 19.95 18.4 N C23
364P/PANSTARRS 2018 03 18.31 19.0 T 703
364P/PANSTARRS 2018 03 17.39 19.6 T T05
364P/PANSTARRS 2018 03 14.84 18.3 N C23
364P/PANSTARRS 2018 03 11.15 ..C: m1 = 19.1, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x180).
364P/PANSTARRS 2018 03 09.23 19.2 T G96
364P/PANSTARRS 2018 03 08.86 19.2 N A77

365P/PanSTARRS (P/2011 WG113, P/2017 U6)
365P/PANSTARRS 2018 03 25.02 18.0 N C47
365P/PANSTARRS 2018 03 11.64 16.3 T 349

366P/Spacewatch (P/2005 JN, P/2018 F2)
366P/Spacewatch 2018 03 26.10 19.9 N A77

P/1999 XN120 (Catalina) 2018 03 21.71 20.9 N C97

P/2005 JN (Spacewatch) 2018 03 26.10 19.9 N A77
P/2005 JN (Spacewatch) 2018 03 22.68 Q11
P/2005 JN (Spacewatch) 2018 03 17.20 20.0 N J04

C/2010 U3 (Boattini) 2018 03 25.90 17.7 N A77
C/2010 U3 (Boattini) 2018 03 21.89 17.8 N G40
C/2010 U3 (Boattini) 2018 03 20.04 17.3 N I81
C/2010 U3 (Boattini) 2018 03 19.91 17.6 N C23
C/2010 U3 (Boattini) 2018 03 16.69 18.9 N C97
C/2010 U3 (Boattini) 2018 03 11.89 17.0 N C23
C/2010 U3 (Boattini) 2018 03 11.89 17.3 N C23
C/2010 U3 (Boattini) 2018 03 07.87 17.8 N A77
C/2010 U3 (Boattini) 2018 03 05.16 16.9 N W33
C/2010 U3 (Boattini) 2018 03 03.70 18.8 N C97
C/2010 U3 (Boattini) 2018 03 03.66 16.5 T 349

C/2011 KP36 (Spacewatch) 2018 03 18.80 ..C: m1 = [15.1, Dia. = ..', DC = .., 16.3° над горизонтом, 0.25-m. T, f5 (x450).
C/2011 KP36 (Spacewatch) 2018 03 14.80 17.2 N C23
C/2011 KP36 (Spacewatch) 2018 03 09.75 17.3 N 071
C/2011 KP36 (Spacewatch) 2018 03 08.87 ..C: m1 = 15.6, Dia. = 0.4', DC = .., 0.50-m. L, f3 (x180).
C/2011 KP36 (Spacewatch) 2018 03 05.07 17.0 N W33

365P/PanSTARRS (P/2011 WG113, P/2017 U6) =
P/2011 WG113 (PANSTARRS) 2018 03 30.45 17.4 T T05
P/2011 WG113 (PANSTARRS) 2018 03 24.89 16.8 N C23
P/2011 WG113 (PANSTARRS) 2018 03 24.89 16.7 N C23
P/2011 WG113 (PANSTARRS) 2018 03 25.02 18.0 N C47
P/2011 WG113 (PANSTARRS) 2018 03 20.16 16.9 N J22
P/2011 WG113 (PANSTARRS) 2018 03 20.16 ..C: m1 = 16.2, Dia. = 0.4', DC = .., 0.50-m. L, f3 (x150).
P/2011 WG113 (PANSTARRS) 2018 03 20.03 16.8 N C23
P/2011 WG113 (PANSTARRS) 2018 03 17.98 16.7 N C36
P/2011 WG113 (PANSTARRS) 2018 03 14.92 16.8 N C23
P/2011 WG113 (PANSTARRS) 2018 03 13.13 ..C: m1 = 16.3, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x150).
P/2011 WG113 (PANSTARRS) 2018 03 08.87 17.4 N A71

C/2013 V4 (Catalina) 2018 03 28.69 349
C/2013 V4 (Catalina) 2018 03 28.69 18.3 T 349
C/2013 V4 (Catalina) 2018 03 24.91 18.4 T 215
C/2013 V4 (Catalina) 2018 03 24.91 19.4 T 215

C/2014 B1 (Schwartz) 2018 03 25.52 16.0 T D81
C/2014 B1 (Schwartz) 2018 03 25.45 16.4 T D88
C/2014 B1 (Schwartz) 2018 03 25.45 D88
C/2014 B1 (Schwartz) 2018 03 24.92 17.2 N C10
C/2014 B1 (Schwartz) 2018 03 24.92 16.9 N C36
C/2014 B1 (Schwartz) 2018 03 23.94 17.0 N A77
C/2014 B1 (Schwartz) 2018 03 20.06 16.8 N I81
C/2014 B1 (Schwartz) 2018 03 19.05 16.7 N I81
C/2014 B1 (Schwartz) 2018 03 14.94 17.5 N A71
C/2014 B1 (Schwartz) 2018 03 14.87 16.8 N C23
C/2014 B1 (Schwartz) 2018 03 11.00 16.7 N C23
C/2014 B1 (Schwartz) 2018 03 11.00 16.5 N C23
C/2014 B1 (Schwartz) 2018 03 10.32 17.8 N H06
C/2014 B1 (Schwartz) 2018 03 05.00 17.7 T 461

C/2014 OE4 (PANSTARRS) 2018 03 17.80 Q11
C/2014 OE4 (PANSTARRS) 2018 03 02.83 16.5 T 349
C/2014 OE4 (PANSTARRS) 2018 03 02.83 349

C/2014 R3 (PANSTARRS) 2018 03 25.47 17.6 T D88
C/2014 R3 (PANSTARRS) 2018 03 25.47 D88
C/2014 R3 (PANSTARRS) 2018 03 24.88 17.6 T 215
C/2014 R3 (PANSTARRS) 2018 03 21.27 703
C/2014 R3 (PANSTARRS) 2018 03 12.99 17.6 T 461
C/2014 R3 (PANSTARRS) 2018 03 10.35 17.8 N H06
C/2014 R3 (PANSTARRS) 2018 03 08.45 18.4 T F51
C/2014 R3 (PANSTARRS) 2018 03 05.01 17.8 T 461

C/2015 D3 (PANSTARRS) 2018 03 04.96 19.9 T 461

C/2015 ER61 (PANSTARRS) 2018 03 24.81 17.5 N C23
C/2015 ER61 (PANSTARRS) 2018 03 19.88 17.8 N I81
C/2015 ER61 (PANSTARRS) 2018 03 14.81 17.0 N C23
C/2015 ER61 (PANSTARRS) 2018 03 14.81 16.8 N C23
C/2015 ER61 (PANSTARRS) 2018 03 11.80 17.7 N C23

C/2015 LC2 (PANSTARRS) 2018 03 17.75 Q11
C/2015 LC2 (PANSTARRS) 2018 03 13.68 18.2 T Q11

P/2015 TP200 (LINEAR) 2018 03 19.37 21.0 T F51
P/2015 TP200 (LINEAR) 2018 03 13.64 19.9 T D29

C/2015 V2 (Johnson) 2018 03 30.41 15.8 N W88
C/2015 V2 (Johnson) 2018 03 04.02 15.2 T W88
C/2015 V2 (Johnson) 2018 03 04.02 15.3 T W88

C/2015 VL62 (Lemmon-Yeung-PANSTARRS) 2018 03 23.82 18.1 T Q11
C/2015 VL62 (Lemmon-Yeung-PANSTARRS) 2018 03 23.82 Q11

C/2015 XY1 (Lemmon) 2018 03 16.87 18.3 T 215
C/2015 XY1 (Lemmon) 2018 03 16.87 18.2 T 215
C/2015 XY1 (Lemmon) 2018 03 11.54 Q11

C/2016 A1 (PANSTARRS) 2018 03 24.94 14.8 N I81
C/2016 A1 (PANSTARRS) 2018 03 21.81 17.5 N K87
C/2016 A1 (PANSTARRS) 2018 03 20.01 16.7 N J22
C/2016 A1 (PANSTARRS) 2018 03 19.88 16.7 N C23
C/2016 A1 (PANSTARRS) 2018 03 18.97 ..C: m1 = 15.7, Dia. = 0.2', DC = .., 45.0° над горизонтом, 0.25-m. T, f5 (x450).
C/2016 A1 (PANSTARRS) 2018 03 17.34 17.0 T T05
C/2016 A1 (PANSTARRS) 2018 03 14.91 17.0 N K97
C/2016 A1 (PANSTARRS) 2018 03 11.65 Q11
C/2016 A1 (PANSTARRS) 2018 03 10.93 16.2 N С23
C/2016 A1 (PANSTARRS) 2018 03 06.16 15.2 T 703
C/2016 A1 (PANSTARRS) 2018 03 04.06 16.5 N H47
C/2016 A1 (PANSTARRS) 2018 03 03.08 16.1 N H47

C/2016 C1 (PANSTARRS) 2018 03 19.43 21.3 T F51
C/2016 C1 (PANSTARRS) 2018 03 17.48 20.4 T F51

C/2016 E1 (PANSTARRS) 2018 03 13.00 19.5 T 461
C/2016 E1 (PANSTARRS) 2018 03 13.00 19.6 T 461
C/2016 E1 (PANSTARRS) 2018 03 10.54 21.1 T F51

C/2016 N4 (MASTER) 2018 03 27.62 16.6 T D81
C/2016 N4 (MASTER) 2018 03 25.81 18.0 N C47
C/2016 N4 (MASTER) 2018 03 25.81 18.3 N C47
C/2016 N4 (MASTER) 2018 03 25.15 16.9 N C23
C/2016 N4 (MASTER) 2018 03 16.00 17.4 N 238
C/2016 N4 (MASTER) 2018 03 13.24 16.8 N J22
C/2016 N4 (MASTER) 2018 03 13.24 ..C: m1 = 15.1, Dia. = 0.6', DC = .., 0.50-m. L, f3 (x120).
C/2016 N4 (MASTER) 2018 03 10.10 16.3 N I81
C/2016 N4 (MASTER) 2018 03 06.26 ..C: m1 = 14.7, Dia. = 0.4', DC = .., 0.50-m. L, f3 (x120).
C/2016 N4 (MASTER) 2018 03 06.25 16.9 N J22

C/2016 T3 (PANSTARRS) 2018 03 24.85 18.6 T 215
C/2016 T3 (PANSTARRS) 2018 03 24.85 18.7 T 215
C/2016 T3 (PANSTARRS) 2018 03 17.04 18.2 T I47
C/2016 T3 (PANSTARRS) 2018 03 09.07 ..C: m1 = 18.2, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150).
C/2016 T3 (PANSTARRS) 2018 03 08.05 ..C: m1 = 18.2, Dia. = 0.3', DC = .., 58.1° над горизонтом,0.30-m. T, f6 (x280).

C/2016 X1 (Lemmon) 2018 03 12.50 Q11
C/2016 X1 (Lemmon) 2018 03 11.56 Q11
C/2016 X1 (Lemmon) 2018 03 10.87 ..C: m1 = 19.1, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x250).

C/2017 AB5 (PANSTARRS) 2018 03 14.51 19.4 T Q11
C/2017 AB5 (PANSTARRS) 2018 03 11.70 Q11

C/2017 B3 (LINEAR) 2018 03 30.30 15.5 N W96
C/2017 B3 (LINEAR) 2018 03 26.23 16.5 N W88
C/2017 B3 (LINEAR) 2018 03 26.23 16.6 N W88
C/2017 B3 (LINEAR) 2018 03 17.46 16.3 T 423
C/2017 B3 (LINEAR) 2018 03 10.58 15.9 N Q62

C/2017 D3 (ATLAS) 2018 03 26.04 17.7 N A77
C/2017 D3 (ATLAS) 2018 03 24.90 17.4 N C23
C/2017 D3 (ATLAS) 2018 03 24.89 18.0 T 215
C/2017 D3 (ATLAS) 2018 03 20.10 17.3 N I81
C/2017 D3 (ATLAS) 2018 03 19.35 16.6 T 703
C/2017 D3 (ATLAS) 2018 03 16.32 16.6 T G96
C/2017 D3 (ATLAS) 2018 03 14.93 17.7 N C23
C/2017 D3 (ATLAS) 2018 03 10.36 18.2 N H06
C/2017 D3 (ATLAS) 2018 03 10.00 17.5 N I81
C/2017 D3 (ATLAS) 2018 03 06.57 17.1 T T05

C/2017 E3 (PANSTARRS) 2018 03 29.55 17.8 T T05
C/2017 E3 (PANSTARRS) 2018 03 18.57 19.4 T F51
C/2017 E3 (PANSTARRS) 2018 03 17.59 17.7 N 474
C/2017 E3 (PANSTARRS) 2018 03 11.60 17.8 N Q62

C/2017 K1 (PANSTARRS) 2018 03 27.49 18.8 T 703
C/2017 K1 (PANSTARRS) 2018 03 27.49 18.9 T 703

C/2017 K2 (PANSTARRS) 2018 03 25.14 17.8 N C23
C/2017 K2 (PANSTARRS) 2018 03 25.14 18.1 N C23
C/2017 K2 (PANSTARRS) 2018 03 17.24 18.3 N J22
C/2017 K2 (PANSTARRS) 2018 03 17.24 ..C: m1 = 17.4, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x360).
C/2017 K2 (PANSTARRS) 2018 03 13.70 Q11
C/2017 K2 (PANSTARRS) 2018 03 10.15 18.3 N I81
C/2017 K2 (PANSTARRS) 2018 03 08.16 18.4 N A77
C/2017 K2 (PANSTARRS) 2018 03 05.05 18.9 T 461

C/2017 M4 (ATLAS) 2018 03 31.56 15.8 T T05
C/2017 M4 (ATLAS) 2018 03 25.17 16.0 N C23
C/2017 M4 (ATLAS) 2018 03 25.17 16.1 N C23
C/2017 M4 (ATLAS) 2018 03 25.10 15.8 N C36
C/2017 M4 (ATLAS) 2018 03 20.18 16.1 N I81
C/2017 M4 (ATLAS) 2018 03 20.04 16.0 N C23
C/2017 M4 (ATLAS) 2018 03 18.11 16.3 N C36
C/2017 M4 (ATLAS) 2018 03 16.82 15.7 T Q11
C/2017 M4 (ATLAS) 2018 03 13.22 ..C: m1 = 15.3, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x150).
C/2017 M4 (ATLAS) 2018 03 11.26 16.4 N G40
C/2017 M4 (ATLAS) 2018 03 05.12 16.8 N C36
C/2017 M4 (ATLAS) 2018 03 05.12 UT: m1 = 16.3, Dia. = 0.17', DC = 9, 0.20-m. L, f4 + CCD (x300).

C/2017 M5 (TOTAS) 2018 03 17.81 Q11
C/2017 M5 (TOTAS) 2018 03 17.81 18.4 T Q11

C/2017 O1 (ASASSN) 2018 03 25.94 19.1 N A77
C/2017 O1 (ASASSN) 2018 03 24.83 18.8 N C10
C/2017 O1 (ASASSN) 2018 03 20.01 18.5 N I81
C/2017 O1 (ASASSN) 2018 03 18.98 ..C: m1 = [16.5, Dia. = ..', DC = .., 56.5° над горизонтом, 0.25-m. T, f5 (x450).
C/2017 O1 (ASASSN) 2018 03 19.89 18.4 N C23
C/2017 O1 (ASASSN) 2018 03 14.89 18.6 N J22
C/2017 O1 (ASASSN) 2018 03 14.89 ..C: m1 = 17.7, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x150).
C/2017 O1 (ASASSN) 2018 03 11.63 17.9 T Q11
C/2017 O1 (ASASSN) 2018 03 10.95 18.3 N C23
C/2017 O1 (ASASSN) 2018 03 09.08 ..C: m1 = 16.6, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x150).
C/2017 O1 (ASASSN) 2018 03 04.65 16.7 T 349
C/2017 O1 (ASASSN) 2018 03 04.19 C51

C/2017 S3 (PANSTARRS) 2018 03 24.15 18.8 N I81
C/2017 S3 (PANSTARRS) 2018 03 24.15 17.5 N I81
C/2017 S3 (PANSTARRS) 2018 03 23.79 Q11

C/2017 T1 (Heinze) 2018 03 30.79 ..Z: m1 = 14.9, Dia. = 2.1', DC = .., 0.106-m. R, f5 (x600).
C/2017 T1 (Heinze) 2018 03 28.79 15.1 T Q62
C/2017 T1 (Heinze) 2018 03 28.79 Q62
C/2017 T1 (Heinze) 2018 03 28.39 ..C: m1 = 16.1, Dia. = 0.8', DC = .., 20.2° над горизонтом, 0.30-m. T, f6 (x860).
C/2017 T1 (Heinze) 2018 03 25.40 18.5 N W96
C/2017 T1 (Heinze) 2018 03 24.40 18.5 N W96
C/2017 T1 (Heinze) 2018 03 15.40 16.4 T W96
C/2017 T1 (Heinze) 2018 03 14.39 16.7 T W96

C/2017 T2 (PANSTARRS) 2018 03 05.35 18.9 N E85

C/2017 T3 (ATLAS) 2018 03 22.75 15.7 N 585
C/2017 T3 (ATLAS) 2018 03 22.75 15.6 N 585
C/2017 T3 (ATLAS) 2018 03 19.81 15.7 N C23
C/2017 T3 (ATLAS) 2018 03 19.81 15.6 N C23
C/2017 T3 (ATLAS) 2018 03 18.78 ..C: m1 = 14.6, Dia. = 0.2', DC = .., 28.3° над горизонтом, 0.25-m. T, f5 (x270).
C/2017 T3 (ATLAS) 2018 03 14.78 16.0 N C23
C/2017 T3 (ATLAS) 2018 03 08.78 17.2 N A71
C/2017 T3 (ATLAS) 2018 03 06.09 ..C: m1 = 15.1, Dia. = 0.7', DC = .., хвост = 0.6', pa = 19°, 0.106-m. R, f5 (x300).
C/2017 T3 (ATLAS) 2018 03 04.65 17.1 N C97
C/2017 T3 (ATLAS) 2018 03 03.79 16.7 N A77

P/2017 W3 (Gibbs) 2018 03 21.90 19.0 N A71
P/2017 W3 (Gibbs) 2018 03 21.90 19.1 N A71
P/2017 W3 (Gibbs) 2018 03 20.19 18.4 N W96
P/2017 W3 (Gibbs) 2018 03 19.53 18.5 T T08
P/2017 W3 (Gibbs) 2018 03 13.59 Q11

C/2017 X1 (PANSTARRS) 2018 03 10.42 19.1 N 474

P/2017 Y3 (Leonard) 2018 03 24.77 Q11
P/2017 Y3 (Leonard) 2018 03 24.77 18.2 T Q11
P/2017 Y3 (Leonard) 2018 03 17.78 Q11

C/2018 A1 (PANSTARRS) 2018 03 19.98 19.0 N I81
C/2018 A1 (PANSTARRS) 2018 03 19.98 18.4 N I81
C/2018 A1 (PANSTARRS) 2018 03 11.68 Q11
C/2018 A1 (PANSTARRS) 2018 03 06.21 18.3 T 703

C/2018 A3 (ATLAS) 2018 03 26.00 160
C/2018 A3 (ATLAS) 2018 03 25.87 17.7 N C47
C/2018 A3 (ATLAS) 2018 03 24.97 17.9 N C47
C/2018 A3 (ATLAS) 2018 03 24.87 16.8 N C23
C/2018 A3 (ATLAS) 2018 03 21.88 17.0 N A77
C/2018 A3 (ATLAS) 2018 03 21.00 16.8 N C23
C/2018 A3 (ATLAS) 2018 03 19.34 16.9 T 703
C/2018 A3 (ATLAS) 2018 03 16.31 16.8 T 703
C/2018 A3 (ATLAS) 2018 03 14.90 16.9 N C23
C/2018 A3 (ATLAS) 2018 03 11.73 Q11
C/2018 A3 (ATLAS) 2018 03 11.09 ..C: m1 = 16.9, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x150).
C/2018 A3 (ATLAS) 2018 03 10.98 16.9 N C23
C/2018 A3 (ATLAS) 2018 03 10.35 16.9 N H06
C/2018 A3 (ATLAS) 2018 03 08.05 17.4 N A77
C/2018 A3 (ATLAS) 2018 03 04.37 17.8 N H06

C/2018 A4 (PANSTARRS) 2018 03 28.12 18.7 T G96
C/2018 A4 (PANSTARRS) 2018 03 28.12 18.9 T G96
C/2018 A4 (PANSTARRS) 2018 03 14.46 Q11

C/2018 A6 (Gibbs) 2018 03 24.99 19.0 N C47
C/2018 A6 (Gibbs) 2018 03 20.27 17.7 T 703
C/2018 A6 (Gibbs) 2018 03 19.49 18.5 T T08
C/2018 A6 (Gibbs) 2018 03 11.57 18.4 N Q62
C/2018 A6 (Gibbs) 2018 03 10.29 18.73T I41
C/2018 A6 (Gibbs) 2018 03 08.50 18.3 T T08

C/2018 B1 (Lemmon) 2018 03 03.78 19.8 N K77
C/2018 B1 (Lemmon) 2018 03 03.78 19.6 N K77

P/2018 C1 (Lemmon-Read) 2018 03 21.84 20.0 N A71
P/2018 C1 (Lemmon-Read) 2018 03 19.88 19.1 N A77
P/2018 C1 (Lemmon-Read) 2018 03 12.92 19.2 N B74
P/2018 C1 (Lemmon-Read) 2018 03 09.30 19.5 T 691
P/2018 C1 (Lemmon-Read) 2018 03 07.95 19.5 N A77

C/2018 C2 (Lemmon) 2018 03 28.48 17.93T I41
A/2018 C2 2018 03 24.92 17.4 R 215
A/2018 C2 2018 03 14.78 17.8 G D35
A/2018 C2 2018 03 14.19 17.5 R A77
A/2018 C2 2018 03 13.46 17.6 G 703
A/2018 C2 2018 03 11.84 17.8 R Q11
A/2018 C2 2018 03 07.37 18.2 R W96
A/2018 C2 2018 03 06.38 18.2 R W96
A/2018 C2 2018 03 05.52 18.1 r I41

C/2018 E1 (ATLAS) 2018 03 18.39 16.9 N Q62
C/2018 E1 (ATLAS) 2018 03 16.25 17.7 T T05
C/2018 E1 (ATLAS) 2018 03 13.03 17.3 R W96

C/2018 E2 (Barros) 2018 03 16.38 20.0 T 474
C/2018 E2 (Barros) 2018 03 16.38 19.8 T 474
C/2018 E2 (Barros) 2018 03 14.05 18.5 R W96

C/2018 F1 (Grauer) 2018 03 23.65 18.5 T Q11
C/2018 F1 (Grauer) 2018 03 20.35 18.6 T 703
C/2018 F1 (Grauer) 2018 03 19.43 19.6 T F51
C/2018 F1 (Grauer) 2018 03 19.20 19.2 N W96

C/2018 F3 (Johnson) 2018 03 28.20 20.6 G 807

A/2018 F4 2018 03 28.39 20.1 G I52
A/2018 F4 2018 03 28.39 18.6 G I52
__________________
Альманах ..
Silvester вне форума  
Старый 01.04.2018, 10:10   #65
Silvester
Модератор
 
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Регистрация: 20.05.2007
Адрес: Военная Супердержава
Сообщений: 26,717
По умолчанию Кометы наблюдаемые в апреле 2018 года (после ~13.0m.) ..

Название: СССР - Страна Победитель в ВОВ 1941 - 1945 гг. и во II Мировой войне в целом!.gif
Просмотров: 36

Размер: 6.3 Кб

Кометы в апреле 2018 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 апреле 2018 года ..

A/1627 Ivar 2018 04 18.894 ..I: m1 = 13.7, Dia. = ..', DC = .., 0.305-m. T (x139).
A/1627 Ivar 2018 04 18.893 ..I: m1 = 13.4, Dia. = ..', DC = .., 0.305-m. T (x139).

21P/Giacobini-Zinner 2018 04 25.43 16.8 T H47
21P/Giacobini-Zinner 2018 04 25.43 17.1 T H47
21P/Giacobini-Zinner 2018 04 23.38 17.7 N W96
21P/Giacobini-Zinner 2018 04 21.13 17.2 N J01
21P/Giacobini-Zinner 2018 04 21.07 17.3 N C10
21P/Giacobini-Zinner 2018 04 20.80 ..Z: m1 = 17.1, Dia. = 0.9', DC = .., 0.40-m. L, f4 (x600).
21P/Giacobini-Zinner 2018 04 18.14 17.4 N 970
21P/Giacobini-Zinner 2018 04 18.10 17.0 N C23
21P/Giacobini-Zinner 2018 04 16.34 17.7 N W96
21P/Giacobini-Zinner 2018 04 16.19 ..C: m1 = 17.1, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x150).
21P/Giacobini-Zinner 2018 04 15.13 17.2 N A77
21P/Giacobini-Zinner 2018 04 14.46 ..Z: m1 = 17.2, Dia. = 0.8', DC = .., хвост = 0.01°, pa = 265°, 0.51-m. L, f4 (x720).
21P/Giacobini-Zinner 2018 04 13.49 ..C: m1 = 17.3, Dia. = ..', DC = .., хвост = 12.0', pa = 275°, 0.61-m. Y, f7 (x180).
21P/Giacobini-Zinner 2018 04 12.11 18.2 N I81
21P/Giacobini-Zinner 2018 04 11.11 18.3 N С10
21P/Giacobini-Zinner 2018 04 02.80 ..Z: m1 = 17.7, Dia. = 0.7', DC = .., 0.40-m. L, f4.5 (x840).

24P/Schaumasse 2018 04 28.38 18.4 T H47
24P/Schaumasse 2018 04 16.20 ..C: m1 = 14.7, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x150).
24P/Schaumasse 2018 04 14.62 18.6 T T05
24P/Schaumasse 2018 04 13.56 19.4 T F51
24P/Schaumasse 2018 04 10.76 18.3 N Q62

28P/Neujmin 1 2018 04 15.29 21.6 T G96
28P/Neujmin 1 2018 04 15.29 20.9 T G96

30P/Reinmuth 1 2018 04 26.09 18.8 N А77
30P/Reinmuth 1 2018 04 25.36 18.4 T H47
30P/Reinmuth 1 2018 04 25.36 18.6 T H47
30P/Reinmuth 1 2018 04 18.04 18.0 N C23
30P/Reinmuth 1 2018 04 15.41 18.4 T G96
30P/Reinmuth 1 2018 04 14.73 19.0 N Q62
30P/Reinmuth 1 2018 04 12.76 Q11

46P/Wirtanen 2018 04 14.77 18.5 N Q62

48P/Johnson 2018 04 29.22 16.6 N G40
48P/Johnson 2018 04 21.14 16.7 N C10
48P/Johnson 2018 04 17.21 ..C: m1 = 16.0, Dia. = 0.4', DC = .., 0.50-m. L, f3 (x150).
48P/Johnson 2018 04 15.15 16.8 N A77
48P/Johnson 2018 04 12.79 ..C: m1 = 16.0, Dia. = 0.3', DC = .., 0.106-m. R, f5 (x300).
48P/Johnson 2018 04 11.76 17.3 N Q68
48P/Johnson 2018 04 07.79 17.2 N Q68
48P/Johnson 2018 04 04.38 17.0 N W96

62P/Tsuchinshan 1 2018 04 24.97 18.5 N 160
62P/Tsuchinshan 1 2018 04 24.01 18.2 N 160
62P/Tsuchinshan 1 2018 04 24.01 18.5 N 160
62P/Tsuchinshan 1 2018 04 21.95 ..Z: m1 = 17.2, Dia. = 0.8', DC = .., 0.20-m. L, f4 (x800).
62P/Tsuchinshan 1 2018 04 20.00 18.5 N A77
62P/Tsuchinshan 1 2018 04 19.09 ..C: m1 = 15.1, Dia. = 0.4', DC = .., 0.50-m. L, f3 (x150).
62P/Tsuchinshan 1 2018 04 18.02 ..C: m1 = 15.8, Dia. = 1.4', DC = .., 0.10-m. R, f6 (x960).
62P/Tsuchinshan 1 2018 04 16.71 17.3 T D29
62P/Tsuchinshan 1 2018 04 16.26 18.6 N W96
62P/Tsuchinshan 1 2018 04 12.72 Q11
62P/Tsuchinshan 1 2018 04 09.05 ..C: m1 = 14.8, Dia. = 3.7', DC = .., 0.10-m. R, f6 (x160).
62P/Tsuchinshan 1 2018 04 08.39 15.8 T 703
62P/Tsuchinshan 1 2018 04 08.26 15.7 N W96
62P/Tsuchinshan 1 2018 04 06.95 UT: m1 = [16.0, Dia. = ..', DC = .., 0.60-m. L (x407).
62P/Tsuchinshan 1 2018 04 06.01 ..C: m1 = 15.7, Dia. = 0.5', DC = .., 0.50-m. L, f3 (x150).
62P/Tsuchinshan 1 2018 04 04.93 ..Z: m1 = 14.6, Dia. = 4', DC = .., 0.20-m. L, f4 (x600).

74P/Smirnova-Chernykh 2018 04 24.92 16.8 N A77
74P/Smirnova-Chernykh 2018 04 23.87 17.5 N 160
74P/Smirnova-Chernykh 2018 04 21.93 16.5 N A77
74P/Smirnova-Chernykh 2018 04 21.85 16.3 N A77
74P/Smirnova-Chernykh 2018 04 20.92 17.0 N K97
74P/Smirnova-Chernykh 2018 04 20.89 17.0 N C10
74P/Smirnova-Chernykh 2018 04 19.96 16.6 N A77
74P/Smirnova-Chernykh 2018 04 19.94 ..C: m1 = 15.4, Dia. = 0.6', DC = .., 0.50-m. L, f3 (x150).
74P/Smirnova-Chernykh 2018 04 19.93 16.9 N K97
74P/Smirnova-Chernykh 2018 04 18.93 16.6 N A77
74P/Smirnova-Chernykh 2018 04 18.86 16.6 N I57
74P/Smirnova-Chernykh 2018 04 17.98 17.0 N K97
74P/Smirnova-Chernykh 2018 04 17.96 16.4 N C23
74P/Smirnova-Chernykh 2018 04 17.86 ..C: m1 = 16.2, Dia. = 1.4', DC = .., хвост = 0.01°, pa = 283°, 0.10-m. R, f6 (x880).
74P/Smirnova-Chernykh 2018 04 16.93 16.5 N J01
74P/Smirnova-Chernykh 2018 04 16.92 16.6 N С10
74P/Smirnova-Chernykh 2018 04 15.23 17.1 N H06
74P/Smirnova-Chernykh 2018 04 13.47 16.2 T T08
74P/Smirnova-Chernykh 2018 04 12.89 16.5 N C86
74P/Smirnova-Chernykh 2018 04 11.94 16.4 N С23
74P/Smirnova-Chernykh 2018 04 08.97 ..C: m1 = 16.0, Dia. = 1.9', DC = .., хвост = 0.01°, pa = 286°, 0.10-m. R, f6 (x400).
74P/Smirnova-Chernykh 2018 04 08.48 16.9 N Q38
74P/Smirnova-Chernykh 2018 04 07.97 16.5 N J01
74P/Smirnova-Chernykh 2018 04 07.95 16.5 N J01
74P/Smirnova-Chernykh 2018 04 06.95 16.5 N A77
74P/Smirnova-Chernykh 2018 04 06.95 UT: m1 = 16.0, Dia. = 0.35', DC = 3, 0.60-m. L (x407).
74P/Smirnova-Chernykh 2018 04 06.91 ..k: m1 = 15.5, Dia. = 0.9', DC = .., 0.15-m. L, f4 (x60).
74P/Smirnova-Chernykh 2018 04 06.88 ..V: m1 = 15.9, Dia. = 0.95', DC = .., 0.15-m. L, f4 (x60).
74P/Smirnova-Chernykh 2018 04 06.07 ..C: m1 = 15.5, Dia. = 0.4', DC = .., 0.50-m. L, f3 (x150).
74P/Smirnova-Chernykh 2018 04 03.84 16.3 N C86
74P/Smirnova-Chernykh 2018 04 01.85 16.9 T K63

90P/Gehrels 1 2018 04 15.48 Q11

93P/Lovas 1 2018 04 19.28 20.8 T 691

103P/Hartley 2 2018 04 18.53 Q11
103P/Hartley 2 2018 04 15.58 18.9 T D29
103P/Hartley 2 2018 04 14.25 18.2 T 703
103P/Hartley 2 2018 04 08.87 19.3 T K77

105P/Singer Brewster 2018 04 24.23 16.7 T 703
105P/Singer Brewster 2018 04 21.96 17.5 N K97
105P/Singer Brewster 2018 04 19.00 17.3 N A77
105P/Singer Brewster 2018 04 15.91 17.6 T G40
105P/Singer Brewster 2018 04 14.30 703
105P/Singer Brewster 2018 04 11.95 16.6 N С23
105P/Singer Brewster 2018 04 08.93 17.7 N K77
105P/Singer Brewster 2018 04 07.55 17.2 N Q62

125P/Spacewatch 2018 04 26.89 18.7 N 160
125P/Spacewatch 2018 04 19.39 0207 C51
125P/Spacewatch 2018 04 19.39 C51
125P/Spacewatch 2018 04 10.58 Q11

143P/Kowal-Mrkos 2018 04 24.96 17.4 N A77
143P/Kowal-Mrkos 2018 04 24.18 17.6 T 691
143P/Kowal-Mrkos 2018 04 21.98 16.7 N A77
143P/Kowal-Mrkos 2018 04 14.34 16.6 T 703
143P/Kowal-Mrkos 2018 04 12.00 16.4 N С23
143P/Kowal-Mrkos 2018 04 09.16 17.0 T W88
143P/Kowal-Mrkos 2018 04 08.05 ..C: m1 = 16.0, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x150).
143P/Kowal-Mrkos 2018 04 07.54 16.6 N Q62
143P/Kowal-Mrkos 2018 04 05.02 ..C: m1 = 16.8, Dia. = 0.2', DC = .., 28.4° над горизонтом, 0.30-m. T, f6 (x540).

145P/Shoemaker-Levy 5 2018 04 15.51 Q11
145P/Shoemaker-Levy 5 2018 04 09.51 18.5 T Q11

158P/Kowal-LINEAR 2018 04 24.27 19.3 T G96
158P/Kowal-LINEAR 2018 04 24.27 19.2 T G96
158P/Kowal-LINEAR 2018 04 15.34 G96
158P/Kowal-LINEAR 2018 04 13.45 20.5 T F51
158P/Kowal-LINEAR 2018 04 06.00 19.5 N J22
158P/Kowal-LINEAR 2018 04 06.00 ..C: m1 = 19.2, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x200).

162P/Siding Spring 2018 04 18.17 20.0 T W98
162P/Siding Spring 2018 04 16.37 20.5 T G96
162P/Siding Spring 2018 04 12.52 20.2 T F51
162P/Siding Spring 2018 04 08.33 20.3 T 691

183P/Korlevic-Juric 2018 04 23.88 18.6 N 160
183P/Korlevic-Juric 2018 04 23.88 18.0 N 160
183P/Korlevic-Juric 2018 04 15.27 18.1 T G96
183P/Korlevic-Juric 2018 04 14.30 18.0 T 703
183P/Korlevic-Juric 2018 04 08.66 17.8 T 349
183P/Korlevic-Juric 2018 04 08.30 17.6 T 703

185P/Petriew 2018 04 21.47 16.9 T 349
185P/Petriew 2018 04 21.46 349
185P/Petriew 2018 04 11.87 17.8 N G40
185P/Petriew 2018 04 06.82 18.0 N K77
185P/Petriew 2018 04 05.00 ..C: m1 = 14.5, Dia. = 1.5', DC = .., 22.9° над горизонтом, 0.30-m. T, f6 (x080).
185P/Petriew 2018 04 04.12 ..Z: m1 = 13.7, Dia. = 5', DC = .., 0.106-m. R, f5 (x840).

186P/Garradd 2018 04 12.03 18.5 T Y00
186P/Garradd 2018 04 06.65 17.8 N E94

187P/LINEAR 2018 04 21.07 19.3 N J01
187P/LINEAR 2018 04 14.73 19.9 N Q62

188P/LINEAR-Mueller 2018 04 18.47 Q11
188P/LINEAR-Mueller 2018 04 15.52 Q11
188P/LINEAR-Mueller 2018 04 06.87 19.4 T 215

215P/NEAT 2018 04 12.57 20.7 T F51

235P/LINEAR 2018 04 24.87 18.4 N 160
235P/LINEAR 2018 04 23.88 18.1 N 160
235P/LINEAR 2018 04 15.58 18.6 T D29
235P/LINEAR 2018 04 14.28 18.2 T 703
235P/LINEAR 2018 04 06.87 18.4 N А77
235P/LINEAR 2018 04 06.02 ..C: m1 = 18.2, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150).

250P/Larson 2018 04 15.57 19.2 T Q11
250P/Larson 2018 04 12.58 Q11
250P/Larson 2018 04 06.88 19.3 T 215

292P/Li 2018 04 23.46 24.4 T 568
292P/Li 2018 04 23.46 24.0 T 568

315P/LONEOS 2018 04 12.57 20.4 T F51

334P/NEAT 2018 04 21.38 18.1 T G96
334P/NEAT 2018 04 16.65 19.3 N Q62

346P/Catalina 2018 04 09.31 G96
346P/Catalina 2018 04 09.31 22.1 T G96

364P/PANSTARRS 2018 04 23.83 18.6 N 160
364P/PANSTARRS 2018 04 23.83 18.7 N 160
364P/PANSTARRS 2018 04 14.81 18.9 N A71
364P/PANSTARRS 2018 04 13.87 19.0 N A71
364P/PANSTARRS 2018 04 11.91 17.8 N С23
364P/PANSTARRS 2018 04 09.60 Q11
364P/PANSTARRS 2018 04 02.77 C51
364P/PANSTARRS 2018 04 02.37 C51

365P/PANSTARRS 2018 04 23.46 17.7 T T05
365P/PANSTARRS 2018 04 15.70 Q11
365P/PANSTARRS 2018 04 13.53 17.6 T T08
365P/PANSTARRS 2018 04 08.06 17.4 N J22
365P/PANSTARRS 2018 04 08.06 ..C: m1 = 16.7, Dia. = 0.4', DC = .., 0.50-m. L, f3 (x150).
365P/PANSTARRS 2018 04 07.65 16.8 T 349

366P/Spacewatch 2018 04 20.88 20.5 N A71
366P/Spacewatch 2018 04 12.33 21.0 T F51
366P/Spacewatch 2018 04 07.01 20.1 N K77

367P/Catalina (P/2011 CR42, P/2018 H1)
367P/Catalina 2018 04 18.07 21.2 N Z84

C/2010 U3 (Boattini) 2018 04 22.81 17.9 N 071
C/2010 U3 (Boattini) 2018 04 22.81 17.8 N 071
C/2010 U3 (Boattini) 2018 04 14.84 18.4 T 461
C/2010 U3 (Boattini) 2018 04 12.33 18.2 T T05
C/2010 U3 (Boattini) 2018 04 09.53 Q11
C/2010 U3 (Boattini) 2018 04 06.84 UT: m1 = 16.0, Dia. = 0.2', DC = 6, 0.60-m. L (x407).

P/2011 CR42 (Catalina) 2018 04 06.93 16.9 N K41

365P/PanSTARRS (P/2011 WG113, P/2017 U6) =
P/2011 WG113 (PANSTARRS) 2018 04 20.31 17.0 T 703
P/2011 WG113 (PANSTARRS) 2018 04 19.91 17.2 N C23
P/2011 WG113 (PANSTARRS) 2018 04 18.03 17.2 N C23
P/2011 WG113 (PANSTARRS) 2018 04 13.34 17.0 T 703
P/2011 WG113 (PANSTARRS) 2018 04 10.34 16.8 T 703
P/2011 WG113 (PANSTARRS) 2018 04 06.91 UT: m1 = [16.2, Dia. = ..', DC = .., 0.60-m. L (x407).

C/2013 C2 (Tenagra) 2018 04 06.66 18.7 N E94

C/2014 B1 (Schwartz) 2018 04 20.87 17.3 N C10
C/2014 B1 (Schwartz) 2018 04 13.90 17.7 N A71
C/2014 B1 (Schwartz) 2018 04 11.92 17.3 N C23
C/2014 B1 (Schwartz) 2018 04 09.64 Q11
C/2014 B1 (Schwartz) 2018 04 08.50 17.4 N Q62
C/2014 B1 (Schwartz) 2018 04 06.88 UT: m1 = [16.2, Dia. = ..', DC = .., 0.60-m. L (x407).

C/2014 OE4 (PANSTARRS) 2018 04 28.04 17.1 T 461
C/2014 OE4 (PANSTARRS) 2018 04 13.79 D81
C/2014 OE4 (PANSTARRS) 2018 04 12.04 16.6 N C23
C/2014 OE4 (PANSTARRS) 2018 04 08.11 17.8 T 215
C/2014 OE4 (PANSTARRS) 2018 04 07.79 16.7 T 349

C/2014 R3 (PANSTARRS) 2018 04 24.39 18.2 T T05
C/2014 R3 (PANSTARRS) 2018 04 24.39 17.9 T T05
C/2014 R3 (PANSTARRS) 2018 04 15.24 18.2 N H06
C/2014 R3 (PANSTARRS) 2018 04 12.64 Q11
C/2014 R3 (PANSTARRS) 2018 04 06.02 17.7 N G40

C/2015 D3 (PANSTARRS) 2018 04 03.80 20.3 T 461
C/2015 D3 (PANSTARRS) 2018 04 03.80 20.1 T 461

C/2015 LC2 (PANSTARRS) 2018 04 22.01 19.4 N 461
C/2015 LC2 (PANSTARRS) 2018 04 22.01 19.6 N 461
C/2015 LC2 (PANSTARRS) 2018 04 14.98 19.1 T 461
C/2015 LC2 (PANSTARRS) 2018 04 06.97 18.5 T 215

P/2015 TP200 (LINEAR) 2018 04 06.91 19.6 T 215
P/2015 TP200 (LINEAR) 2018 04 06.91 19.4 T 215

C/2015 V2 (Johnson) 2018 04 14.42 15.9 N W88

C/2015 XY1 (Lemmon) 2018 04 10.47 Q11

C/2015 X5 (PANSTARRS) 2018 04 07.87 19.4 T 215

C/2016 A1 (PANSTARRS) 2018 04 20.91 15.5 N I81
C/2016 A1 (PANSTARRS) 2018 04 20.91 15.2 N I81
C/2016 A1 (PANSTARRS) 2018 04 15.55 Q11
C/2016 A1 (PANSTARRS) 2018 04 11.95 16.6 N I81
C/2016 A1 (PANSTARRS) 2018 04 06.88 16.9 N K77
C/2016 A1 (PANSTARRS) 2018 04 02.86 ..V: m1 = 17.4, Dia. = 0.3', DC = .., 0.50-m. L, f4 (x40).

P/2016 A3 (PANSTARRS) 2018 04 23.29 19.2 T G96
P/2016 A3 (PANSTARRS) 2018 04 23.29 19.3 T G96
P/2016 A3 (PANSTARRS) 2018 04 12.52 19.9 T F52
P/2016 A3 (PANSTARRS) 2018 04 07.94 18.7 T 215

C/2016 C1 (PANSTARRS) 2018 04 13.39 20.7 T F51
C/2016 C1 (PANSTARRS) 2018 04 07.93 18.9 T 215

C/2016 E1 (PANSTARRS) 2018 04 14.94 20.5 N A71
C/2016 E1 (PANSTARRS) 2018 04 07.90 19.6 T 215

C/2016 N4 (MASTER) 2018 04 20.68 16.5 T 349
C/2016 N4 (MASTER) 2018 04 20.67 349
C/2016 N4 (MASTER) 2018 04 17.87 18.6 N C47
C/2016 N4 (MASTER) 2018 04 12.05 16.4 N C23
C/2016 N4 (MASTER) 2018 04 06.81 17.2 N 215

C/2016 T3 (PANSTARRS) 2018 04 18.49 Q11

C/2016 X1 (Lemmon) 2018 04 18.45 18.8 T Q11
C/2016 X1 (Lemmon) 2018 04 18.45 Q11
C/2016 X1 (Lemmon) 2018 04 15.43 Q11
C/2016 X1 (Lemmon) 2018 04 13.43 18.4 T Q11
C/2016 X1 (Lemmon) 2018 04 06.84 18.6 T 215

C/2017 AB5 (PANSTARRS) 2018 04 18.87 19.6 T 215
C/2017 AB5 (PANSTARRS) 2018 04 18.87 19.8 T 215
C/2017 AB5 (PANSTARRS) 2018 04 15.61 19.5 T Q11
C/2017 AB5 (PANSTARRS) 2018 04 06.86 20.3 N A71

C/2017 B3 (LINEAR) 2018 04 25.45 15.5 N E94
C/2017 B3 (LINEAR) 2018 04 12.46 16.4 T 423
C/2017 B3 (LINEAR) 2018 04 08.46 15.9 N Q38
C/2017 B3 (LINEAR) 2018 04 08.34 15.8 N W96

C/2017 D3 (ATLAS) 2018 04 23.42 17.9 T T05
C/2017 D3 (ATLAS) 2018 04 17.90 18.6 N C47
C/2017 D3 (ATLAS) 2018 04 16.90 17.5 N C23
C/2017 D3 (ATLAS) 2018 04 15.23 18.4 N H06
C/2017 D3 (ATLAS) 2018 04 13.29 16.8 T 703
C/2017 D3 (ATLAS) 2018 04 08.26 18.3 N H06
C/2017 D3 (ATLAS) 2018 04 07.06 17.9 N C47

C/2017 E3 (PANSTARRS) 2018 04 26.51 17.4 T T05
C/2017 E3 (PANSTARRS) 2018 04 16.39 16.6 T G96
C/2017 E3 (PANSTARRS) 2018 04 14.73 17.7 N Q62
C/2017 E3 (PANSTARRS) 2018 04 14.40 16.1 T 703

C/2017 F2 (PANSTARRS) 2018 04 07.92 19.3 T 215

C/2017 K1 (PANSTARRS) 2018 04 21.92 18.9 T 215
C/2017 K1 (PANSTARRS) 2018 04 16.39 18.6 T G96
C/2017 K1 (PANSTARRS) 2018 04 14.40 19.6 T 703

C/2017 K2 (PANSTARRS) 2018 04 25.94 19.1 T 461
C/2017 K2 (PANSTARRS) 2018 04 25.13 18.5 N A77
C/2017 K2 (PANSTARRS) 2018 04 19.96 17.5 N C23
C/2017 K2 (PANSTARRS) 2018 04 15.02 18.8 N A71
C/2017 K2 (PANSTARRS) 2018 04 13.05 18.4 T 461
C/2017 K2 (PANSTARRS) 2018 04 08.74 17.8 T 349
C/2017 K2 (PANSTARRS) 2018 04 07.94 ..C: m1 = 18.7, Dia. = 1.4', DC = .., 0.10-m. R, f6 (x450).
C/2017 K2 (PANSTARRS) 2018 04 05.07 20.3 N 461
C/2017 K2 (PANSTARRS) 2018 04 04.94 ..Z: m1 = 18.3, Dia. = 0.5', DC = .., 0.40-m. L, f3 (x080).

C/2017 K6 (Jacques) 2018 04 21.44 16.1 T 349
C/2017 K6 (Jacques) 2018 04 21.43 349
C/2017 K6 (Jacques) 2018 04 12.46 15.6 T 367
C/2017 K6 (Jacques) 2018 04 12.46 367
C/2017 K6 (Jacques) 2018 04 08.45 D81

C/2017 M3 (PANSTARRS) 2018 04 23.41 23.1 T 568
C/2017 M3 (PANSTARRS) 2018 04 23.41 22.7 T 568
C/2017 M3 (PANSTARRS) 2018 04 09.33 22.0 T G96

C/2017 M4 (ATLAS) 2018 04 29.16 C51
C/2017 M4 (ATLAS) 2018 04 23.04 15.9 N 071
C/2017 M4 (ATLAS) 2018 04 18.06 15.8 N C23
C/2017 M4 (ATLAS) 2018 04 17.96 17.2 N C47
C/2017 M4 (ATLAS) 2018 04 12.06 15.5 N I81
C/2017 M4 (ATLAS) 2018 04 08.11 15.8 N J01
C/2017 M4 (ATLAS) 2018 04 07.76 15.5 T 349

C/2017 M5 (TOTAS) 2018 04 21.74 Q11
C/2017 M5 (TOTAS) 2018 04 14.47 H06

C/2017 O1 (ASASSN) 2018 04 19.20 17.6 T 703
C/2017 O1 (ASASSN) 2018 04 19.20 17.9 T 703
C/2017 O1 (ASASSN) 2018 04 16.87 18.4 N C23
C/2017 O1 (ASASSN) 2018 04 15.59 18.3 T Q11
C/2017 O1 (ASASSN) 2018 04 12.20 17.3 T 703
C/2017 O1 (ASASSN) 2018 04 07.84 215

C/2017 S3 (PANSTARRS) 2018 04 22.78 Q11
C/2017 S3 (PANSTARRS) 2018 04 22.45 ..Z: m1 = 16.6, Dia. = 0.6', DC = .., 0.51-m. L, f4 (x480).
C/2017 S3 (PANSTARRS) 2018 04 20.77 17.2 T 349
C/2017 S3 (PANSTARRS) 2018 04 16.45 ..C: m1 = 17.6, Dia. = ..', DC = .., 0.51-m. B, f5 (x300).
C/2017 S3 (PANSTARRS) 2018 04 16.23 17.8 T G40
C/2017 S3 (PANSTARRS) 2018 04 08.12 18.9 T 215

C/2017 T1 (Heinze) 2018 04 23.78 ..Z: m1 = [16.0, Dia. = 1.5', DC = .., 0.106-m. R, f5 (x900).
C/2017 T1 (Heinze) 2018 04 05.80 ..Z: m1 = 14.5, Dia. = 3', DC = .., 0.40-m. L, f4 (x720).

C/2017 T3 (ATLAS) 2018 04 08.43 14.9 T D81
C/2017 T3 (ATLAS) 2018 04 08.43 D81
C/2017 T3 (ATLAS) 2018 04 06.80 UT: m1 = [14.2, Dia. = ..', DC = .., 10° над горизонтом, 0.60-m. L (x305).
C/2017 T3 (ATLAS) 2018 04 06.79 16.5 T 215

P/2017 W3 (Gibbs) 2018 04 19.47 Q11
P/2017 W3 (Gibbs) 2018 04 16.28 18.1 T G96
P/2017 W3 (Gibbs) 2018 04 08.89 19.0 N K77

C/2017 X1 (PANSTARRS) 2018 04 13.39 19.1 N 474
C/2017 X1 (PANSTARRS) 2018 04 13.39 19.2 N 474
C/2017 X1 (PANSTARRS) 2018 04 06.84 18.9 T 215

P/2017 Y3 (Leonard) 2018 04 22.76 19.3 T Q11
P/2017 Y3 (Leonard) 2018 04 14.12 19.5 N A71
P/2017 Y3 (Leonard) 2018 04 08.14 19.0 T 215

C/2018 A1 (PANSTARRS) 2018 04 18.88 19.3 T 215

C/2018 A3 (ATLAS) 2018 04 24.87 17.0 N A77
C/2018 A3 (ATLAS) 2018 04 23.85 17.6 N 160
C/2018 A3 (ATLAS) 2018 04 23.85 16.0 N 160
C/2018 A3 (ATLAS) 2018 04 20.98 17.3 N K97
C/2018 A3 (ATLAS) 2018 04 17.83 17.3 N 213
C/2018 A3 (ATLAS) 2018 04 15.23 16.9 N H06
C/2018 A3 (ATLAS) 2018 04 13.46 17.1 T T08
C/2018 A3 (ATLAS) 2018 04 10.27 16.9 T 703
C/2018 A3 (ATLAS) 2018 04 08.26 16.8 N H06
C/2018 A3 (ATLAS) 2018 04 06.96 UT: m1 = [16.2, Dia. = ..', DC = .., 0.60-m. L (x517).
C/2018 A3 (ATLAS) 2018 04 06.91 17.2 N K22
C/2018 A3 (ATLAS) 2018 04 06.04 ..C: m1 = 16.8, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x150).

C/2018 A6 (Gibbs) 2018 04 20.19 18.1 T G96
C/2018 A6 (Gibbs) 2018 04 16.92 18.0 N C23
C/2018 A6 (Gibbs) 2018 04 14.21 17.8 T 703
C/2018 A6 (Gibbs) 2018 04 08.54 17.7 T 349
C/2018 A6 (Gibbs) 2018 04 08.53 349

P/2018 C1 (Lemmon-Read) 2018 04 20.16 19.8 T G96
P/2018 C1 (Lemmon-Read) 2018 04 20.16 G96
P/2018 C1 (Lemmon-Read) 2018 04 12.16 19.4 T G96

C/2018 C2 (Lemmon) 2018 04 26.49 16.4 T T08
C/2018 C2 (Lemmon) 2018 04 22.15 16.4 N A77
C/2018 C2 (Lemmon) 2018 04 21.97 16.1 N B83
C/2018 C2 (Lemmon) 2018 04 21.09 16.5 N B83
C/2018 C2 (Lemmon) 2018 04 20.74 16.9 T 349
C/2018 C2 (Lemmon) 2018 04 20.00 16.3 N B74
C/2018 C2 (Lemmon) 2018 04 18.08 16.9 N K97
C/2018 C2 (Lemmon) 2018 04 17.86 16.2 N 213
C/2018 C2 (Lemmon) 2018 04 17.86 16.3 N 213
C/2018 C2 (Lemmon) 2018 04 16.95 16.2 N C23
C/2018 C2 (Lemmon) 2018 04 12.10 16.8 N G40
C/2018 C2 (Lemmon) 2018 04 10.96 16.7 N C10
C/2018 C2 (Lemmon) 2018 04 10.36 17.07T I41

C/2018 E1 (ATLAS) 2018 04 20.97 17.1 T W88
C/2018 E1 (ATLAS) 2018 04 20.97 16.9 T W88
C/2018 E1 (ATLAS) 2018 04 08.42 16.5 N Q38

C/2018 E2 (Barros) 2018 04 13.35 20.0 N 474
C/2018 E2 (Barros) 2018 04 03.39 Q62

C/2018 EF9 (Lemmon) 2018 04 22.70 Q11
C/2018 EF9 (Lemmon) 2018 04 14.18 G37

C/2018 F1 (Grauer) 2018 04 23.23 18.4 T 703
C/2018 F1 (Grauer) 2018 04 16.35 18.2 T 703
C/2018 F1 (Grauer) 2018 04 13.50 18.8 T T08
C/2018 F1 (Grauer) 2018 04 10.32 18.6 T 703
C/2018 F1 (Grauer) 2018 04 07.72 18.5 T 349
C/2018 F1 (Grauer) 2018 04 07.06 ..C: m1 = 18.6, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150).

C/2018 F3 (Johnson) 2018 04 06.92 20.2 T 215
C/2018 F3 (Johnson) 2018 04 06.92 20.5 T 215

C/2018 F4 (PANSTARRS) 2018 04 21.38 18.7 G 703
A/2018 F4 2018 04 13.39 18.9 G 568
A/2018 F4 2018 04 09.89 19.4 R 461

P/2018 H2 (PANSTARRS) 2018 04 25.43 18.2 G I52

A/2017 U7 2018 04 27.79 18.2 w Q62
__________________
Альманах ..
Silvester вне форума  
Старый 01.05.2018, 10:30   #66
Silvester
Модератор
 
Аватар для Silvester
 
Регистрация: 20.05.2007
Адрес: Военная Супердержава
Сообщений: 26,717
По умолчанию Кометы наблюдаемые в Победном мае 2018 года (после ~13.0m.) ..

Название: СССР - Страна Победитель в ВОВ 1941 - 1945 гг. и во II Мировой войне в целом!.gif
Просмотров: 24

Размер: 6.3 Кб

Кометы в Победном мае 2018 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 мае 2018 года ..

21P/Giacobini-Zinner 2018 05 30.43 ..C: m1 = 13.7, Dia. = 1.1', DC = .., хвост = 1.5', pa = 253°, 0.106-m. R, f5 (x300).
21P/Giacobini-Zinner 2018 05 29.37 15.8 R H47
21P/Giacobini-Zinner 2018 05 25.97 15.6 N C36
21P/Giacobini-Zinner 2018 05 25.97 15.7 N C36
21P/Giacobini-Zinner 2018 05 23.33 ..C: m1 = 15.1, Dia. = 0.4', DC = .., 24.2° над горизонтом, 0.30-m. T, f6 (x500).
21P/Giacobini-Zinner 2018 05 22.80 15.1 N G26
21P/Giacobini-Zinner 2018 05 21.03 16.9 N 213
21P/Giacobini-Zinner 2018 05 21.02 ..Z: m1 = 13.8, Dia. = 3', DC = .., хвост = 0.02°, pa = 246°, 0.075-m. A, f4 (x050).
21P/Giacobini-Zinner 2018 05 18.34 15.8 N W96
21P/Giacobini-Zinner 2018 05 18.02 ..S: m1 = 15.0, Dia. = ..', DC = .., 0.40-m. L, f4.5 (x180).
21P/Giacobini-Zinner 2018 05 17.35 ..C: m1 = 14.8, Dia. = 0.6', DC = .., хвост = 0.7', pa = 250°, 0.25-m. L, f3 (x300).
21P/Giacobini-Zinner 2018 05 16.42 ..Z: m1 = 14.5, Dia. = 1.6', DC = .., хвост = 0.02°, pa = 246°, 0.51-m. L, f4 (x600).
21P/Giacobini-Zinner 2018 05 15.41 16.1 N W96
21P/Giacobini-Zinner 2018 05 13.11 16.1 N J01
21P/Giacobini-Zinner 2018 05 11.13 16.6 N C10
21P/Giacobini-Zinner 2018 05 11.04 15.7 N C23
21P/Giacobini-Zinner 2018 05 10.38 ..C: m1 = 15.4, Dia. = 0.6', DC = .., хвост = 0.6', pa = 255°, 0.25-m. L, f3 (x180).
21P/Giacobini-Zinner 2018 05 10.36 16.5 T H06
21P/Giacobini-Zinner 2018 05 09.35 ..Z: m1 = 14.9, Dia. = 1.5', DC = .., 0.51-m. L, f4 (x720).
21P/Giacobini-Zinner 2018 05 08.00 16.8 T C47
21P/Giacobini-Zinner 2018 05 06.01 16.2 N C23
21P/Giacobini-Zinner 2018 05 05.00 14.9 N J38
21P/Giacobini-Zinner 2018 05 04.01 15.8 N C23
21P/Giacobini-Zinner 2018 05 03.99 15.7 N C23

24P/Schaumasse 2018 05 22.52 18.4 o T08

29P/Schwassmann-Wachmann 1 2018 05 28.42 16.9 N W96
29P/Schwassmann-Wachmann 1 2018 05 25.75 UT: m1 = [14.5, Dia. = ..', DC = .., 0.254-m. L, f4.7 (x83).
29P/Schwassmann-Wachmann 1 2018 05 24.78 15.7 N Q62
29P/Schwassmann-Wachmann 1 2018 05 23.42 17.0 N W96
29P/Schwassmann-Wachmann 1 2018 05 21.75 UT: m1 = [15.0, Dia. = ..', DC = .., 0.254-m. L, f4.7 (x83).
29P/Schwassmann-Wachmann 1 2018 05 21.41 16.9 N W96
29P/Schwassmann-Wachmann 1 2018 05 20.41 ..k: m1 = 16.7, Dia. = 0.3', DC = .., 45.5° над горизонтом, 0.30-m. T, f6 (x080).
29P/Schwassmann-Wachmann 1 2018 05 19.75 UT: m1 = [14.7, Dia. = ..', DC = .., 0.254-m. L, f4.7 (x83).
29P/Schwassmann-Wachmann 1 2018 05 18.81 17.2 N Q62
29P/Schwassmann-Wachmann 1 2018 05 18.76 UT: m1 = [14.6, Dia. = ..', DC = .., 0.254-m. L, f4.7 (x83).
29P/Schwassmann-Wachmann 1 2018 05 19.10 16.5 N С10
29P/Schwassmann-Wachmann 1 2018 05 16.41 16.9 N W96
29P/Schwassmann-Wachmann 1 2018 05 14.41 16.9 N W96
29P/Schwassmann-Wachmann 1 2018 05 13.81 17.1 N Q62
29P/Schwassmann-Wachmann 1 2018 05 10.41 17.1 N W96
29P/Schwassmann-Wachmann 1 2018 05 09.11 16.5 N С10
29P/Schwassmann-Wachmann 1 2018 05 07.37 16.6 N W96
29P/Schwassmann-Wachmann 1 2018 05 07.11 16.9 N C10
29P/Schwassmann-Wachmann 1 2018 05 06.11 16.8 R C10
29P/Schwassmann-Wachmann 1 2018 05 05.12 16.5 T C10
29P/Schwassmann-Wachmann 1 2018 05 05.12 16.5 R C10
29P/Schwassmann-Wachmann 1 2018 05 01.41 16.7 N W96

30P/Reinmuth 1 2018 05 21.26 19.1 R I47
30P/Reinmuth 1 2018 05 21.25 ..C: m1 = 19.1, Dia. = 0.2', DC = .., 40.8° над горизонтом, 0.30-m. T, f6 (x920).
30P/Reinmuth 1 2018 05 20.30 18.2 G 703
30P/Reinmuth 1 2018 05 12.17 18.9 N W96
30P/Reinmuth 1 2018 05 08.42 17.6 G 703
30P/Reinmuth 1 2018 05 06.99 18.9 N C10
30P/Reinmuth 1 2018 05 04.96 18.6 T C10
30P/Reinmuth 1 2018 05 04.95 18.0 N C23
30P/Reinmuth 1 2018 05 04.96 18.6 R C10

38P/Stephan-Oterma 2018 05 22.42 17.3 N W88

46P/Wirtanen 2018 05 08.47 20.3 R G37

48P/Johnson 2018 05 31.59 15.4 o T05
48P/Johnson 2018 05 24.76 15.3 T D81
48P/Johnson 2018 05 24.76 D81
48P/Johnson 2018 05 21.45 14.8 G 703
48P/Johnson 2018 05 20.10 15.8 N С10
48P/Johnson 2018 05 18.37 16.0 N W96
48P/Johnson 2018 05 14.78 ..C: m1 = 15.5, Dia. = 0.4', DC = .., 0.70-m. L, f7 (x60).
48P/Johnson 2018 05 10.56 C51
48P/Johnson 2018 05 05.71 C51

62P/Tsuchinshan 1 2018 05 15.59 18.5 T Q11
62P/Tsuchinshan 1 2018 05 12.25 19.8 N H06
62P/Tsuchinshan 1 2018 05 05.93 18.3 N C23
62P/Tsuchinshan 1 2018 05 02.91 ..C: m1 = 17.1, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150).

64P/Swift-Gehrels 2018 05 25.45 291
64P/Swift-Gehrels 2018 05 25.45 20.7 T 291

65P/Gunn 2018 05 21.41 17.2 R I47

74P/Smirnova-Chernykh 2018 05 19.36 16.6 o T08
74P/Smirnova-Chernykh 2018 05 17.94 16.9 N C23
74P/Smirnova-Chernykh 2018 05 17.88 17.2 N K97
74P/Smirnova-Chernykh 2018 05 16.94 16.7 N J27
74P/Smirnova-Chernykh 2018 05 12.96 16.8 N J01
74P/Smirnova-Chernykh 2018 05 10.95 16.9 N C23
74P/Smirnova-Chernykh 2018 05 09.01 16.8 N I81
74P/Smirnova-Chernykh 2018 05 08.91 17.3 N K97
74P/Smirnova-Chernykh 2018 05 08.89 16.5 N C35
74P/Smirnova-Chernykh 2018 05 08.14 17.6 N W96
74P/Smirnova-Chernykh 2018 05 07.98 17.8 T C47
74P/Smirnova-Chernykh 2018 05 07.89 16.6 N C23
74P/Smirnova-Chernykh 2018 05 07.89 17.1 N K97
74P/Smirnova-Chernykh 2018 05 06.89 16.8 N C23
74P/Smirnova-Chernykh 2018 05 05.98 16.8 N C23
74P/Smirnova-Chernykh 2018 05 05.91 17.1 R C10
74P/Smirnova-Chernykh 2018 05 05.87 16.6 N K21
74P/Smirnova-Chernykh 2018 05 05.40 17.3 T T05
74P/Smirnova-Chernykh 2018 05 04.97 16.7 N J38
74P/Smirnova-Chernykh 2018 05 04.93 17.1 N A77
74P/Smirnova-Chernykh 2018 05 04.91 16.5 N C23
74P/Smirnova-Chernykh 2018 05 04.90 ..C: m1 = 16.2, Dia. = 1.9', DC = .., 0.065-m. R, f6 (x920).
74P/Smirnova-Chernykh 2018 05 04.89 17.1 R C10
74P/Smirnova-Chernykh 2018 05 03.85 16.6 N C23

78P/Gehrels 2 2018 05 25.46 18.2 T 691
78P/Gehrels 2 2018 05 20.43 18.3 G 703

105P/Singer Brewster 2018 05 22.39 17.8 o T08
105P/Singer Brewster 2018 05 19.94 18.0 G K25
105P/Singer Brewster 2018 05 18.91 18.0 N К97
105P/Singer Brewster 2018 05 07.89 18.0 N A71
105P/Singer Brewster 2018 05 05.05 17.4 T W88

108P/Ciffreo 2015 03 14.97 7975 C51
108P/Ciffreo 2018 05 12.17 24.0 r 807

125P/Spacewatch 2018 05 19.27 18.7 o T08
125P/Spacewatch 2018 05 09.20 18.7 G G96
125P/Spacewatch 2018 05 07.22 18.1 T 703

130P/McNaught-Hughes 2018 05 25.43 16.9 N W88
130P/McNaught-Hughes 2018 05 25.43 16.8 N W88

137P/Shoemaker-Levy 2 2018 05 21.45 19.3 G G96
137P/Shoemaker-Levy 2 2018 05 21.45 19.4 G G96

143P/Kowal-Mrkos 2018 05 22.53 Q23
143P/Kowal-Mrkos 2018 05 17.15 17.7 N W96
143P/Kowal-Mrkos 2018 05 14.09 17.5 N W96
143P/Kowal-Mrkos 2018 05 08.44 17.3 o T05
143P/Kowal-Mrkos 2018 05 08.17 17.4 N W96
143P/Kowal-Mrkos 2018 05 04.92 17.3 T G40

145P/Shoemaker-Levy 5 2018 05 14.45 18.6 T Q11
145P/Shoemaker-Levy 5 2018 05 14.45 Q11

158P/Kowal-LINEAR 2018 05 19.65 Q11

162P/Siding Spring 2018 05 14.26 20.2 G G96

183P/Korlevic-Juric 2018 05 19.61 Q11
183P/Korlevic-Juric 2018 05 03.40 18.7 N E85

186P/Garradd 2018 05 23.26 17.7 R I47
186P/Garradd 2018 05 21.35 17.6 o T08
186P/Garradd 2018 05 16.21 17.9 N W96
186P/Garradd 2018 05 07.37 18.3 T T05

187P/LINEAR 2018 05 21.52 20.1 w F51
187P/LINEAR 2018 05 13.41 19.2 N H06
187P/LINEAR 2018 05 07.05 19.3 N C10

215P/NEAT 2018 05 19.44 19.5 w F51
215P/NEAT 2018 05 07.37 19.8 T 691

230P/LINEAR 2018 05 21.47 21.8 w F51

234P/LINEAR 2018 05 17.78 21.1 w Q62
234P/LINEAR 2018 05 17.78 Q62

235P/LINEAR 2018 05 19.57 18.4 T Q11
235P/LINEAR 2018 05 02.92 19.1 N J22
235P/LINEAR 2018 05 02.92 ..C: m1 = 18.5, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x250).

245P/WISE 2010 10 11.75 20.3 T 215
245P/WISE 2018 05 13.79 Q62

250P/Larson 2018 05 04.19 19.8 T 703

315P/LONEOS 2018 05 19.49 19.9 w F51

331P/Gibbs 2018 05 20.92 19.4 N K41
331P/Gibbs 2018 05 20.92 20.6 N K41

334P/NEAT 2018 05 20.98 19.1 N K77
334P/NEAT 2018 05 06.93 18.6 N C10
334P/NEAT 2018 05 05.36 17.9 T 703

350P/McNaught 2018 05 19.41 19.9 w F51

364P/PANSTARRS 2018 05 23.28 15.8 o T08
364P/PANSTARRS 2018 05 19.16 703
364P/PANSTARRS 2018 05 19.16 ..C: m1 = 14.7, Dia. = 0.3', DC = .., хвост = 3.1', pa = 96°, 0.25-m. L, f3 (x300).
364P/PANSTARRS 2018 05 10.89 16.6 N C23
364P/PANSTARRS 2018 05 09.23 ..C: m1 = 15.7, Dia. = 0.3', DC = .., хвост = 0.8', pa = 91°, 0.25-m. L, f3 (x300).
364P/PANSTARRS 2018 05 07.18 16.3 T 703
364P/PANSTARRS 2018 05 06.87 17.1 N C23
364P/PANSTARRS 2018 05 05.90 17.0 N C23
364P/PANSTARRS 2018 05 05.88 17.0 N Z55
364P/PANSTARRS 2018 05 05.88 16.9 N Z55
364P/PANSTARRS 2018 05 05.87 16.8 N C23
364P/PANSTARRS 2018 05 03.90 17.1 N C23
364P/PANSTARRS 2018 05 02.95 17.4 N J22
364P/PANSTARRS 2018 05 02.95 ..C: m1 = 17.0, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x180).

365P/PANSTARRS 2018 05 21.23 19.2 G G96
365P/PANSTARRS 2018 05 05.46 18.6 T T05
365P/PANSTARRS 2018 05 03.90 ..C: m1 = 18.2, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150).

C/2010 U3 (Boattini) 2018 05 17.89 17.4 N C23
C/2010 U3 (Boattini) 2018 05 06.33 17.3 T T05
C/2010 U3 (Boattini) 2018 05 04.93 17.6 N J38
C/2010 U3 (Boattini) 2018 05 02.93 ..C: m1 = 15.6, Dia. = 0.4', DC = .., 0.50-m. L, f3 (x180).

365P/PanSTARRS (P/2011 WG113, P/2017 U6) =
P/2011 WG113 (PANSTARRS) 2018 05 18.92 18.5 N C23
P/2011 WG113 (PANSTARRS) 2018 05 03.97 18.1 N C23

C/2013 V4 (Catalina) 2018 05 18.47 19.5 c T05
C/2013 V4 (Catalina) 2018 05 18.47 19.7 c T05

C/2014 B1 (Schwartz) 2018 05 17.93 16.8 N C23
C/2014 B1 (Schwartz) 2018 05 17.93 17.1 N C23
C/2014 B1 (Schwartz) 2018 05 17.10 17.7 N W96
C/2014 B1 (Schwartz) 2018 05 12.95 17.4 N J54
C/2014 B1 (Schwartz) 2018 05 06.84 18.3 N A71
C/2014 B1 (Schwartz) 2018 05 04.53 16.5 T D88

C/2014 OE4 (PANSTARRS) 2018 05 15.73 16.7 T D81
C/2014 OE4 (PANSTARRS) 2018 05 06.00 16.5 N C23

C/2014 R3 (PANSTARRS) 2018 05 22.32 18.2 o T05
C/2014 R3 (PANSTARRS) 2018 05 04.48 17.6 T D88

C/2015 V1 (PANSTARRS) 2018 05 19.40 17.3 N W96

C/2015 V2 (Johnson) 2018 05 24.41 15.8 N W88
C/2015 V2 (Johnson) 2018 05 19.38 15.7 N W96
C/2015 V2 (Johnson) 2018 05 14.80 ..Z: m1 = 14.6, Dia. = 2.7', DC = .., хвост = 0.24°, pa = 224°, 0.40-m. L, f4 (x720).

C/2015 X5 (PANSTARRS) 2018 05 03.82 19.5 T 461

C/2016 A1 (PANSTARRS) 2018 05 17.90 16.4 N C23
C/2016 A1 (PANSTARRS) 2018 05 17.90 16.8 N C23
C/2016 A1 (PANSTARRS) 2018 05 05.51 16.3 T 349
C/2016 A1 (PANSTARRS) 2018 05 04.99 16.5 N I81

P/2016 A3 (PANSTARRS) 2018 05 19.36 20.6 w F51

C/2016 C1 (PANSTARRS) 2018 05 06.93 20.3 N A71
C/2016 C1 (PANSTARRS) 2018 05 06.84 19.3 T 461

C/2016 E1 (PANSTARRS) 2018 05 05.91 20.3 T 461
C/2016 E1 (PANSTARRS) 2018 05 05.91 20.2 T 461

C/2016 N4 (MASTER) 2018 05 21.88 18.6 G C47
C/2016 N4 (MASTER) 2018 05 21.88 18.7 G C47
C/2016 N4 (MASTER) 2018 05 04.85 16.8 N C23
C/2016 N4 (MASTER) 2018 05 02.96 ..C: m1 = 16.0, Dia. = 0.5', DC = .., 0.50-m. L, f3 (x120).

C/2017 B3 (LINEAR) 2018 05 23.39 15.6 R Q62
C/2017 B3 (LINEAR) 2018 05 20.42 16.5 T 423
C/2017 B3 (LINEAR) 2018 05 16.15 15.9 N W96
C/2017 B3 (LINEAR) 2018 05 07.31 16.0 N W96

C/2017 D3 (ATLAS) 2018 05 19.90 18.0 N C23
C/2017 D3 (ATLAS) 2018 05 12.26 18.7 N H06
C/2017 D3 (ATLAS) 2018 05 08.97 18.6 N G40
C/2017 D3 (ATLAS) 2018 05 04.93 18.1 N C23

C/2017 E3 (PANSTARRS) 2018 05 31.48 18.1 o T05
C/2017 E3 (PANSTARRS) 2018 05 24.21 16.2 G 703
C/2017 E3 (PANSTARRS) 2018 05 18.97 16.8 N C23
C/2017 E3 (PANSTARRS) 2018 05 09.34 17.0 R H47
C/2017 E3 (PANSTARRS) 2018 05 05.97 16.6 N C23
C/2017 E3 (PANSTARRS) 2018 05 04.06 18.1 T Y00

C/2017 F2 (PANSTARRS) 2018 05 22.26 21.8 G 568
C/2017 F2 (PANSTARRS) 2018 05 22.26 21.4 G 568
C/2017 F2 (PANSTARRS) 2018 05 09.31 19.6 G G96

C/2017 K1 (PANSTARRS) 2018 05 16.33 18.9 G 703
C/2017 K1 (PANSTARRS) 2018 05 16.33 19.1 G 703
C/2017 K1 (PANSTARRS) 2018 05 08.95 19.6 T 461

C/2017 K2 (PANSTARRS) 2018 05 21.90 18.7 N A71
C/2017 K2 (PANSTARRS) 2018 05 19.96 18.1 N C10
C/2017 K2 (PANSTARRS) 2018 05 17.99 17.7 N C23
C/2017 K2 (PANSTARRS) 2018 05 10.97 18.0 N C10
C/2017 K2 (PANSTARRS) 2018 05 09.08 17.5 N I81
C/2017 K2 (PANSTARRS) 2018 05 08.97 18.3 N C10
C/2017 K2 (PANSTARRS) 2018 05 06.04 18.3 T C10
C/2017 K2 (PANSTARRS) 2018 05 06.04 18.3 R C10
C/2017 K2 (PANSTARRS) 2018 05 05.91 ..C: m1 = 17.7, Dia. = 1', DC = .., 0.065-m. R, f6 (x600).
C/2017 K2 (PANSTARRS) 2018 05 05.03 18.0 T C10
C/2017 K2 (PANSTARRS) 2018 05 05.03 18.0 R C10
C/2017 K2 (PANSTARRS) 2018 05 03.99 17.7 N C23

C/2017 K4 (ATLAS) 2018 05 21.77 17.2 T Q11

C/2017 K5 (PANSTARRS) 2018 05 12.37 21.3 w H06

C/2017 M4 (ATLAS) 2018 05 24.55 16.2 i F51
C/2017 M4 (ATLAS) 2018 05 22.64 Q23
C/2017 M4 (ATLAS) 2018 05 21.05 16.0 N K97
C/2017 M4 (ATLAS) 2018 05 20.93 15.6 N 213
C/2017 M4 (ATLAS) 2018 05 20.02 15.5 N C10
C/2017 M4 (ATLAS) 2018 05 19.96 15.9 G K25
C/2017 M4 (ATLAS) 2018 05 16.11 15.9 V A77
C/2017 M4 (ATLAS) 2018 05 15.38 15.8 N W96
C/2017 M4 (ATLAS) 2018 05 13.41 15.8 N H06
C/2017 M4 (ATLAS) 2018 05 11.02 15.5 N С10
C/2017 M4 (ATLAS) 2018 05 09.37 15.7 R H47
C/2017 M4 (ATLAS) 2018 05 09.02 15.6 N С10
C/2017 M4 (ATLAS) 2018 05 08.06 16.1 N K97
C/2017 M4 (ATLAS) 2018 05 07.98 15.1 N C36
C/2017 M4 (ATLAS) 2018 05 06.97 ..C: m1 = 14.6, Dia. = 2.2', DC = .., 0.10-m. R, f6 (x880).
C/2017 M4 (ATLAS) 2018 05 05.09 15.6 T C10
C/2017 M4 (ATLAS) 2018 05 05.09 15.6 R C10
C/2017 M4 (ATLAS) 2018 05 05.00 ..C: m1 = 15.0, Dia. = 1.6', DC = .., 0.065-m. R, f6 (x620).
C/2017 M4 (ATLAS) 2018 05 04.64 14.9 T 349

C/2017 M5 (TOTAS) 2018 05 22.17 18.6 N G40
C/2017 M5 (TOTAS) 2018 05 20.07 18.8 N C10
C/2017 M5 (TOTAS) 2018 05 13.81 18.9 N Q62

C/2017 O1 (ASASSN) 2018 05 19.19 G96
C/2017 O1 (ASASSN) 2018 05 19.19 19.4 G G96
C/2017 O1 (ASASSN) 2018 05 04.89 19.0 N C23

C/2017 S3 (PANSTARRS) 2018 05 31.16 16.7 N G40
C/2017 S3 (PANSTARRS) 2018 05 21.06 17.4 N A71
C/2017 S3 (PANSTARRS) 2018 05 15.47 ..C: m1 = 16.9, Dia. = 0.7', DC = .., 0.51-m. Y, f7 (x30).
C/2017 S3 (PANSTARRS) 2018 05 11.75 16.3 T 349
C/2017 S3 (PANSTARRS) 2018 05 09.05 17.3 N I81
C/2017 S3 (PANSTARRS) 2018 05 06.10 17.7 T C10
C/2017 S3 (PANSTARRS) 2018 05 06.10 17.7 R C10
C/2017 S3 (PANSTARRS) 2018 05 01.09 17.5 N I81

C/2017 W2 (Leonard) 2018 05 12.31 21.8 N 474

P/2017 W3 (Gibbs) 2018 05 14.41 18.6 o T08
P/2017 W3 (Gibbs) 2018 05 08.59 18.8 R D29
P/2017 W3 (Gibbs) 2018 05 03.37 19.6 N E85

C/2018 A3 (ATLAS) 2018 05 25.36 17.0 o T05
C/2018 A3 (ATLAS) 2018 05 22.33 17.5 o T05
C/2018 A3 (ATLAS) 2018 05 12.25 17.2 N H06
C/2018 A3 (ATLAS) 2018 05 08.99 16.6 N I81
C/2018 A3 (ATLAS) 2018 05 07.92 ..C: m1 = 17.4, Dia. = 0.6', DC = .., 0.10-m. R, f6 (x760).
C/2018 A3 (ATLAS) 2018 05 07.00 17.1 N J22
C/2018 A3 (ATLAS) 2018 05 07.00 ..C: m1 = 17.0, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x150).
C/2018 A3 (ATLAS) 2018 05 05.39 17.4 T T05

C/2018 A6 (Gibbs) 2018 05 10.91 17.2 N C23
C/2018 A6 (Gibbs) 2018 05 10.91 17.6 N C23
C/2018 A6 (Gibbs) 2018 05 08.53 18.4 R D29
C/2018 A6 (Gibbs) 2018 05 03.91 17.6 N C23
C/2018 A6 (Gibbs) 2018 05 03.33 18.4 N E85

P/2018 C1 (Lemmon-Read) 2018 05 28.16 21.5 T 695
P/2018 C1 (Lemmon-Read) 2018 05 25.19 691
P/2018 C1 (Lemmon-Read) 2018 05 09.21 20.2 R 691

C/2018 C2 (Lemmon) 2018 05 31.87 16.3 V L01
C/2018 C2 (Lemmon) 2018 05 24.21 15.8 G G96
C/2018 C2 (Lemmon) 2018 05 22.55 15.8 o T05
C/2018 C2 (Lemmon) 2018 05 20.92 15.8 N 213
C/2018 C2 (Lemmon) 2018 05 19.26 16.0 N W96
C/2018 C2 (Lemmon) 2018 05 19.08 15.7 N С10
C/2018 C2 (Lemmon) 2018 05 19.01 16.2 N K97
C/2018 C2 (Lemmon) 2018 05 18.00 15.7 N C23
C/2018 C2 (Lemmon) 2018 05 16.98 ..C: m1 = 15.2, Dia. = 0.4', DC = .., 0.50-m. L, f3 (x150).
C/2018 C2 (Lemmon) 2018 05 13.01 16.0 N J01
C/2018 C2 (Lemmon) 2018 05 11.91 16.2 G K25
C/2018 C2 (Lemmon) 2018 05 11.90 16.2 N K10
C/2018 C2 (Lemmon) 2018 05 11.03 15.9 N C23
C/2018 C2 (Lemmon) 2018 05 10.99 16.0 N J01
C/2018 C2 (Lemmon) 2018 05 10.92 16.2 G K25
C/2018 C2 (Lemmon) 2018 05 08.01 16.4 N K97
C/2018 C2 (Lemmon) 2018 05 07.87 16.3 T C47
C/2018 C2 (Lemmon) 2018 05 06.99 16.1 N J22
C/2018 C2 (Lemmon) 2018 05 06.99 ..C: m1 = 16.0, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x150).
C/2018 C2 (Lemmon) 2018 05 06.01 ..C: m1 = 15.9, Dia. = 1.9', DC = .., 0.065-m. R, f6 (x000).
C/2018 C2 (Lemmon) 2018 05 05.97 16.0 R C10
C/2018 C2 (Lemmon) 2018 05 05.04 16.1 N J01
C/2018 C2 (Lemmon) 2018 05 04.92 16.0 N C23
C/2018 C2 (Lemmon) 2018 05 04.40 17.07T I41

C/2018 E1 (ATLAS) 2018 05 17.00 16.9 N W96
C/2018 E1 (ATLAS) 2018 05 14.03 16.8 N W96

C/2018 E2 (Barros) 2018 05 12.28 20.4 N 474

C/2018 F1 (Grauer) 2018 05 18.90 18.3 N C23
C/2018 F1 (Grauer) 2018 05 09.28 18.7 G G96
C/2018 F1 (Grauer) 2018 05 07.86 ..C: m1 = 19.0, Dia. = 0.4', DC = .., 0.10-m. R, f6 (x200).
C/2018 F1 (Grauer) 2018 05 06.96 ..C: m1 = 18.6, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150).
C/2018 F1 (Grauer) 2018 05 06.95 18.8 N J22
C/2018 F1 (Grauer) 2018 05 01.88 18.5 N B74

C/2018 F4 (PANSTARRS) 2018 05 22.26 19.8 G 568
C/2018 F4 (PANSTARRS) 2018 05 22.26 19.9 G 568
C/2018 F4 (PANSTARRS) 2018 05 16.29 19.2 G 703
C/2018 F4 (PANSTARRS) 2018 05 08.33 18.7 G 703

P/2018 H2 (PANSTARRS) 2018 05 24.26 17.8 G 703
P/2018 H2 (PANSTARRS) 2018 05 16.52 19.1 c T05
P/2018 H2 (PANSTARRS) 2018 05 08.70 18.2 R D29

C/2018 K1 (Weiland) 2018 05 30.34 691
C/2018 K1 (Weiland) 2018 05 28.15 17.6 R W96
C/2018 K1 (Weiland) 2018 05 26.80 17.4 R Q62
__________________
Альманах ..
Silvester вне форума  
Старый 01.06.2018, 11:16   #67
Silvester
Модератор
 
Аватар для Silvester
 
Регистрация: 20.05.2007
Адрес: Военная Супердержава
Сообщений: 26,717
По умолчанию Кометы наблюдаемые в июне 2018 года (после ~13.0m.) ..

Нажмите на изображение для увеличения
Название: 22 июня 1941 года - Никто не забыт, ничто не забыто, никому не забудем _ 1.jpg
Просмотров: 13
Размер:	14.8 Кб
ID:	171655

Кометы в июне 2018 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 июне 2018 года ..

3552 Don Quixote 2018 06 17.42 16.2 R W96
3552 Don Quixote 2018 06 15.41 16.3 G W96
3552 Don Quixote 2018 06 12.42 16.2 R W96
3552 Don Quixote 2018 06 08.41 16.1 G W96
3552 Don Quixote 2018 06 07.38 16.9 R W96

2018 EN4 _ K18E04N _ N00ctza object 2018 06 04.89 18.6 V A71

24P/Schaumasse 2018 06 19.24 G96
24P/Schaumasse 2018 06 13.59 Q11
24P/Schaumasse 2018 06 07.31 19.2 V 691
24P/Schaumasse 2018 06 03.37 19.5 V 691

29P/Schwassmann-Wachmann 1 2018 06 22.78 UT: m1 = [15.1, Dia. = ..', DC = .., 0.254-m. L, f4.7 (x166).
29P/Schwassmann-Wachmann 1 2018 06 22.08 16.2 R C10
29P/Schwassmann-Wachmann 1 2018 06 21.09 16.2 R C10
29P/Schwassmann-Wachmann 1 2018 06 20.41 16.2 N W96
29P/Schwassmann-Wachmann 1 2018 06 20.09 16.0 N С10
29P/Schwassmann-Wachmann 1 2018 06 18.34 17.0 N W96
29P/Schwassmann-Wachmann 1 2018 06 17.34 17.0 N W96
29P/Schwassmann-Wachmann 1 2018 06 16.33 16.9 N W96
29P/Schwassmann-Wachmann 1 2018 06 15.76 UT: m1 = [14.9, Dia. = ..', DC = .., 0.254-m. L, f4.7 (x166).
29P/Schwassmann-Wachmann 1 2018 06 13.77 UT: m1 = [15.0, Dia. = ..', DC = .., 0.254-m. L, f4.7 (x166).
29P/Schwassmann-Wachmann 1 2018 06 13.75 Q11
29P/Schwassmann-Wachmann 1 2018 06 13.42 16.9 N W96
29P/Schwassmann-Wachmann 1 2018 06 12.75 UT: m1 = [15.0, Dia. = ..', DC = .., 0.254-m. L, f4.7 (x166).
29P/Schwassmann-Wachmann 1 2018 06 12.39 16.8 N W96
29P/Schwassmann-Wachmann 1 2018 06 11.70 UT: m1 = [14.6, Dia. = ..', DC = .., 0.254-m. L, f4.7 (x166).
29P/Schwassmann-Wachmann 1 2018 06 10.46 17.0 N U69
29P/Schwassmann-Wachmann 1 2018 06 07.34 16.7 N W96
29P/Schwassmann-Wachmann 1 2018 06 02.77 14.4 T 349
29P/Schwassmann-Wachmann 1 2018 06 01.42 16.9 N W96

30P/Reinmuth 1 2018 06 13.57 19.2 T Q11
30P/Reinmuth 1 2018 06 04.32 19.6 V 691

38P/Stephan-Oterma 2018 06 19.21 15.8 T G40

48P/Johnson 2018 06 22.76 UT: m1 = 14.0, Dia. = 1', DC = 6, 0.254-m. L, f4.7 (x83).
48P/Johnson 2018 06 19.41 14.1 G G96
48P/Johnson 2018 06 19.09 UT: m1 = 11.5, Dia. = 4', DC = 2, 22° над горизонтом, 0.203-m. T, f10 (x100).
48P/Johnson 2018 06 15.68 15.3 N Q62
48P/Johnson 2018 06 11.73 UT: m1 = 14.6, Dia. = 0.8', DC = 3/4, рассеянная кома, 0.254-m. L, f4.7 (x83).
48P/Johnson 2018 06 11.43 14.1 G 703
48P/Johnson 2018 06 07.78 ..C: m1 = 14.7, Dia. = 0.7', DC = .., хвост = 1.3', pa = 255°, 0.106-m. R, f5 (x180).
48P/Johnson 2018 06 06.07 15.1 N C23
48P/Johnson 2018 06 02.75 14.9 T 349

64P/Swift-Gehrels 2018 06 13.73 19.2 T Q11
64P/Swift-Gehrels 2018 06 11.43 20.1 G 703

65P/Gunn 2018 06 22.79 17.7 N Q62
65P/Gunn 2018 06 12.27 18.3 R Y00
65P/Gunn 2018 06 03.38 C51

74P/Smirnova-Chernykh 2018 06 18.91 16.8 N Z39
74P/Smirnova-Chernykh 2018 06 16.91 17.1 N C23
74P/Smirnova-Chernykh 2018 06 13.33 16.7 o T05
74P/Smirnova-Chernykh 2018 06 11.31 16.7 o T08
74P/Smirnova-Chernykh 2018 06 04.91 16.5 N C23
74P/Smirnova-Chernykh 2018 06 04.31 16.8 o T08
74P/Smirnova-Chernykh 2018 06 02.30 16.7 o T05

78P/Gehrels 2 2018 06 22.02 17.6 N C10
78P/Gehrels 2 2018 06 19.69 17.9 N Q62
78P/Gehrels 2 2018 06 19.04 17.6 N C23
78P/Gehrels 2 2018 06 18.41 17.3 G G96
78P/Gehrels 2 2018 06 13.68 Q11

94P/Russell 4 2018 06 18.54 21.2 w F51
94P/Russell 4 2018 06 10.58 21.6 w F51

105P/Singer Brewster 2018 06 19.34 18.5 o T08
105P/Singer Brewster 2018 06 14.91 ..C: m1 = 17.4, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x150).
105P/Singer Brewster 2018 06 14.28 19.5 N E85
105P/Singer Brewster 2018 06 14.28 19.5 N E85
105P/Singer Brewster 2018 06 11.21 17.0 G 703
105P/Singer Brewster 2018 06 04.29 17.1 G 703
105P/Singer Brewster 2018 06 03.42 18.3 N Q62
105P/Singer Brewster 2018 06 02.92 ..C: m1 = 15.6, Dia. = 0.5', DC = .., 0.50-m. L, f3 (x150).
105P/Singer Brewster 2018 06 02.53 16.8 T 349
105P/Singer Brewster 2018 06 01.90 18.1 N G40

125P/Spacewatch 2018 06 16.84 18.2 N 160
125P/Spacewatch 2018 06 13.50 Q11
125P/Spacewatch 2018 06 12.27 18.3 o T08
125P/Spacewatch 2018 06 10.17 17.1 G 703
125P/Spacewatch 2018 06 04.21 17.4 G 703

133P/Elst-Pizarro 2018 06 21.96 20.4 N C10
133P/Elst-Pizarro 2018 06 17.11 18.6 N W96


137P/Shoemaker-Levy 2 2018 06 18.39 18.5 G G96
137P/Shoemaker-Levy 2 2018 06 13.66 Q11

143P/Kowal-Mrkos 2018 06 19.35 17.9 o T08
143P/Kowal-Mrkos 2018 06 14.79 C51
143P/Kowal-Mrkos 2018 06 14.26 18.2 N E85
143P/Kowal-Mrkos 2018 06 05.35 18.1 o T05
143P/Kowal-Mrkos 2018 06 03.35 17.9 N Q62
143P/Kowal-Mrkos 2018 06 02.91 ..C: m1 = 17.5, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150).
143P/Kowal-Mrkos 2018 06 02.37 18.1 o T08

150P/LONEOS 2018 06 16.53 21.9 w F51

158P/Kowal-LINEAR 2018 06 07.89 19.6 N J22
158P/Kowal-LINEAR 2018 06 07.89 ..C: m1 = 19.1, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x200).

162P/Siding Spring 2018 06 05.31 21.0 w F51

183P/Korlevic-Juric 2018 06 15.54 18.7 R D29
183P/Korlevic-Juric 2018 06 13.52 18.3 T Q11
183P/Korlevic-Juric 2018 06 13.36 19.1 o T05
183P/Korlevic-Juric 2018 06 02.35 18.8 N Q62

186P/Garradd 2018 06 18.30 17.4 o T08
186P/Garradd 2018 06 14.32 17.5 o T05
186P/Garradd 2018 06 12.32 18.6 c T05
186P/Garradd 2018 06 07.07 17.8 T W88
186P/Garradd 2018 06 02.36 18.3 N Q62
186P/Garradd 2018 06 02.36 17.7 o T08

187P/LINEAR 2018 06 19.45 19.2 o T08
187P/LINEAR 2018 06 10.93 19.7 N A71
187P/LINEAR 2018 06 08.44 20.3 w F51
187P/LINEAR 2018 06 04.42 19.6 i F52
187P/LINEAR 2018 06 02.35 19.0 G G96

200P/Larsen 2018 06 17.04 18.1 N 160

215P/NEAT 2018 06 14.37 19.7 w F51
215P/NEAT 2018 06 12.56 18.9 R D29
215P/NEAT 2018 06 07.23 19.8 V W98
215P/NEAT 2018 06 02.31 19.2 G G96

234P/LINEAR 2018 06 18.38 22.3 w F51
234P/LINEAR 2018 06 10.45 22.0 w F51

235P/LINEAR 2018 06 03.90 19.8 T G40

243P/NEAT 2018 06 15.81 Q62

245P/WISE 2018 06 18.44 20.5 G G96

313P/Gibbs 2018 06 17.42 19.6 c T05

315P/LONEOS 2018 06 14.42 20.0 w F51
315P/LONEOS 2018 06 06.44 19.9 w F51
315P/LONEOS 2018 06 02.33 20.1 G G96

334P/NEAT 2018 06 11.34 19.9 i F52

350P/McNaught 2018 06 06.35 20.1 w F51

365P/PANSTARRS 2018 06 02.31 20.5 w F51

= P/2018 L3 (NEAT)
P/2005 R1 (NEAT) 2018 06 18.17 20.1 T G40

C/2010 U3 (Boattini) 2018 06 04.98 17.7 R B96

C/2013 V4 (Catalina) 2018 06 15.41 19.6 c T05
C/2013 V4 (Catalina) 2018 06 04.65 17.9 T D81
C/2013 V4 (Catalina) 2018 06 03.31 19.33r I41

C/2014 B1 (Schwartz) 2018 06 06.91 17.4 N G40

C/2014 OE4 (PANSTARRS) 2018 06 20.95 16.9 N C23
C/2014 OE4 (PANSTARRS) 2018 06 19.01 17.5 R B96
C/2014 OE4 (PANSTARRS) 2018 06 13.97 17.0 N C23
C/2014 OE4 (PANSTARRS) 2018 06 09.62 16.9 o T08

C/2014 R3 (PANSTARRS) 2018 06 10.35 18.9 c T05
C/2014 R3 (PANSTARRS) 2018 06 02.35 18.0 o T05

C/2015 LC2 (PANSTARRS) 2018 06 15.37 21.1 w F51
C/2015 LC2 (PANSTARRS) 2018 06 02.67 349
C/2015 LC2 (PANSTARRS) 2018 06 02.67 18.6 T 349

C/2015 V1 (PANSTARRS) 2018 06 14.21 17.5 N G40

C/2015 V2 (Johnson) 2018 06 19.30 17.0 R Y00

C/2015 VL62 (Lemmon-Yeung-PANSTARRS) 2018 06 18.42 18.2 o T08

C/2016 N4 (MASTER) 2018 06 20.93 16.9 N C23
C/2016 N4 (MASTER) 2018 06 19.34 17.1 o T05
C/2016 N4 (MASTER) 2018 06 13.97 16.9 N C23
C/2016 N4 (MASTER) 2018 06 13.97 17.1 N C23
C/2016 N4 (MASTER) 2018 06 11.34 17.5 c T05
C/2016 N4 (MASTER) 2018 06 01.94 17.1 N A77
C/2016 N4 (MASTER) 2018 06 01.70 16.7 T D81

C/2017 B3 (LINEAR) 2018 06 05.47 16.8 V Q38

C/2017 E3 (PANSTARRS) 2018 06 19.40 18.1 o T08
C/2017 E3 (PANSTARRS) 2018 06 18.94 17.2 N C23
C/2017 E3 (PANSTARRS) 2018 06 14.32 19.4 N E85
C/2017 E3 (PANSTARRS) 2018 06 06.59 16.7 R D29
C/2017 E3 (PANSTARRS) 2018 06 04.92 18.1 R B96
C/2017 E3 (PANSTARRS) 2018 06 03.35 17.8 N Q62
C/2017 E3 (PANSTARRS) 2018 06 02.62 17.0 T 349

C/2017 F2 (PANSTARRS) 2018 06 07.31 22.7 G 568

C/2017 K1 (PANSTARRS) 2018 06 18.94 19.6 T G40
C/2017 K1 (PANSTARRS) 2018 06 11.26 19.3 G 703

C/2017 K2 (PANSTARRS) 2018 06 20.94 18.3 R C10
C/2017 K2 (PANSTARRS) 2018 06 19.94 18.2 N C10
C/2017 K2 (PANSTARRS) 2018 06 19.00 18.3 R B96
C/2017 K2 (PANSTARRS) 2018 06 12.72 17.6 T Q11
C/2017 K2 (PANSTARRS) 2018 06 08.08 ..C: m1 = 17.6, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x240).
C/2017 K2 (PANSTARRS) 2018 06 04.94 17.9 N С23

C/2017 K4 (ATLAS) 2018 06 13.44 16.1 G 703

C/2017 M4 (ATLAS) 2018 06 20.99 15.4 R C10
C/2017 M4 (ATLAS) 2018 06 19.99 15.3 N C10
C/2017 M4 (ATLAS) 2018 06 19.01 15.9 N K14
C/2017 M4 (ATLAS) 2018 06 18.90 15.4 N C23
C/2017 M4 (ATLAS) 2018 06 15.91 15.5 R K22
C/2017 M4 (ATLAS) 2018 06 14.68 14.7 R D29
C/2017 M4 (ATLAS) 2018 06 13.90 15.5 N C23
C/2017 M4 (ATLAS) 2018 06 13.90 15.6 N C23
C/2017 M4 (ATLAS) 2018 06 12.98 ..I: m1 = 14.4, Dia. = ..', DC = 9, 0.203-m. T, f10 (x133).
C/2017 M4 (ATLAS) 2018 06 11.52 15.5 c T05
C/2017 M4 (ATLAS) 2018 06 10.10 15.5 N A77
C/2017 M4 (ATLAS) 2018 06 09.92 15.7 R B96
C/2017 M4 (ATLAS) 2018 06 09.36 16.3 N H06
C/2017 M4 (ATLAS) 2018 06 05.92 15.8 R B96
C/2017 M4 (ATLAS) 2018 06 04.98 ..C: m1 = 14.8, Dia. = 1.4', DC = .., 0.10-m. R, f6 (x600).
C/2017 M4 (ATLAS) 2018 06 04.96 16.0 R B96
C/2017 M4 (ATLAS) 2018 06 04.89 15.7 N С23
C/2017 M4 (ATLAS) 2018 06 02.45 14.4 G 703

C/2017 M5 (TOTAS) 2018 06 15.70 18.7 N Q62
C/2017 M5 (TOTAS) 2018 06 13.65 Q11
C/2017 M5 (TOTAS) 2018 06 04.40 18.4 R H47

C/2017 S3 (PANSTARRS) 2018 06 19.02 15.9 N C23
C/2017 S3 (PANSTARRS) 2018 06 14.00 16.7 N C23
C/2017 S3 (PANSTARRS) 2018 06 14.00 16.9 N C23
C/2017 S3 (PANSTARRS) 2018 06 07.71 15.2 T 349
C/2017 S3 (PANSTARRS) 2018 06 07.70 349
C/2017 S3 (PANSTARRS) 2018 06 06.06 16.5 N С23
C/2017 S3 (PANSTARRS) 2018 06 05.97 16.7 R B96
C/2017 S3 (PANSTARRS) 2018 06 03.46 ..C: m1 = 16.1, Dia. = ..', DC = 5, 0.61-m. Y, f7 (x120).

C/2017 T1 (Heinze) 2018 06 17.19 20.7 T W96

A/2017 U7 2018 06 17.37 17.6 R W88

P/2017 W3 (Gibbs) 2018 06 13.35 19.2 o T05

C/2017 X1 (PANSTARRS) 2018 06 07.35 19.4 N 474

C/2018 A1 (PANSTARRS) 2018 06 11.25 22.6 G 568

C/2018 A3 (ATLAS) 2018 06 18.31 17.7 c T05
C/2018 A3 (ATLAS) 2018 06 12.92 17.0 T G40
C/2018 A3 (ATLAS) 2018 06 02.57 349
C/2018 A3 (ATLAS) 2018 06 02.57 16.9 T 349
C/2018 A3 (ATLAS) 2018 06 01.83 17.2 N 160

C/2018 A6 (Gibbs) 2018 06 17.28 18.5 c T05
C/2018 A6 (Gibbs) 2018 06 13.47 Q11

C/2018 C2 (Lemmon) 2018 06 18.95 15.7 N C23
C/2018 C2 (Lemmon) 2018 06 18.94 15.7 N Z39
C/2018 C2 (Lemmon) 2018 06 17.95 15.6 N A77
C/2018 C2 (Lemmon) 2018 06 16.93 15.6 N C23
C/2018 C2 (Lemmon) 2018 06 15.93 15.6 N A77
C/2018 C2 (Lemmon) 2018 06 15.92 16.0 N K97
C/2018 C2 (Lemmon) 2018 06 14.94 16.2 G K38
C/2018 C2 (Lemmon) 2018 06 13.95 15.6 N C23
C/2018 C2 (Lemmon) 2018 06 11.00 15.7 N Z39
C/2018 C2 (Lemmon) 2018 06 10.04 15.7 N A77
C/2018 C2 (Lemmon) 2018 06 09.91 15.7 R B96
C/2018 C2 (Lemmon) 2018 06 05.93 15.4 R B96
C/2018 C2 (Lemmon) 2018 06 05.90 15.8 N 213
C/2018 C2 (Lemmon) 2018 06 04.95 15.6 N С23
C/2018 C2 (Lemmon) 2018 06 04.90 15.4 R B96
C/2018 C2 (Lemmon) 2018 06 03.92 15.4 R B96
C/2018 C2 (Lemmon) 2018 06 03.29 15.5 G 703

C/2018 E1 (ATLAS) 2018 06 05.38 17.1 G Q38

C/2018 F1 (Grauer) 2018 06 10.97 18.9 N G40

C/2018 F4 (PANSTARRS) 2018 06 12.50 Q11
C/2018 F4 (PANSTARRS) 2018 06 05.30 19.7 w F51

P/2018 H2 (PANSTARRS) 2018 06 12.60 Q11
P/2018 H2 (PANSTARRS) 2018 06 09.87 19.3 N 157

C/2018 K1 (Weiland) 2018 06 21.91 17.5 N C10
C/2018 K1 (Weiland) 2018 06 19.11 17.3 N W88
C/2018 K1 (Weiland) 2018 06 18.42 17.4 o T08
C/2018 K1 (Weiland) 2018 06 17.03 17.2 N W96
C/2018 K1 (Weiland) 2018 06 15.97 16.9 N A77
C/2018 K1 (Weiland) 2018 06 15.69 15.8 N Q62
C/2018 K1 (Weiland) 2018 06 12.63 15.8 T Q11
C/2018 K1 (Weiland) 2018 06 09.35 16.8 R H47
C/2018 K1 (Weiland) 2018 06 07.66 14.7 T 349
C/2018 K1 (Weiland) 2018 06 03.55 16.5 N Q62
C/2018 K1 (Weiland) 2018 06 03.55 16.1 N Q62
C/2018 K1 (Weiland) 2018 06 03.53 16.2 N Q62

P/2018 L1 (PANSTARRS) 2018 06 16.33 19.6 N 474
P/2018 L1 (PANSTARRS) 2018 06 07.94 19.0 G G40

C/2018 L2 (ATLAS) 2018 06 18.35 16.0 o T08
C/2018 L2 (ATLAS) 2018 06 17.02 15.8 N W96
C/2018 L2 (ATLAS) 2018 06 14.35 15.5 o T05
C/2018 L2 (ATLAS) 2018 06 10.36 15.6 o T08
C/2018 L2 (ATLAS) 2018 06 08.37 16.4 G 474

= 2018 EN4 _ K18E04N
C/2018 EN4 (NEOWISE) 2018 06 12.47 Q11
C/2018 EN4 (NEOWISE) 2018 06 09.90 204

P/2018 L3 = P/2005 R1 (NEAT) 2018 н/д
-
P/2005 R1 (NEAT) 2006 01 28.14 20.2 T 704

P/2018 L4 (PANSTARRS) 2018 06 22.38 291
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