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Опции темы | Опции просмотра |
01.06.2015, 11:53 | #31 |
Модератор
Регистрация: 20.05.2007
Адрес: Новороссия
Сообщений: 19,745
|
Кометы наблюдаемые в июне 2015 года (после ~13.0m.) ..
Кометы в июне 2015 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 2015 года .. 4P/Faye 2015 06 10.41 20.4 N E07 7P/Pons-Winnecke 2015 06 03.78 UT: m1 = 16.6, Dia. = 0.3', DC = .., 0.51-m. RC 10P/Tempel 2 2015 06 26.86 17.3 N 160 10P/Tempel 2 2015 06 24.89 18.0 N 958 10P/Tempel 2 2015 06 22.91 16.7 N C23 10P/Tempel 2 2015 06 20.23 UT: m1 = 17.1, Dia. = 0.5', DC = .., 0.61-m. C 10P/Tempel 2 2015 06 18.99 17.0 N 939 10P/Tempel 2 2015 06 16.90 17.1 N C23 10P/Tempel 2 2015 06 12.30 17.2 N H06 10P/Tempel 2 2015 06 12.30 UT: m1 = 16.8, Dia. = ..', DC = 9, 0.51-m. C, f6.8 10P/Tempel 2 2015 06 12.22 UT: m1 = 17.0, Dia. = 0.4', DC = .., 0.61-m. C 10P/Tempel 2 2015 06 12.01 ..C: m1 = 13.6, Dia. = 1.5', DC = 3, 0.54-m. L, f2 (x a10). 10P/Tempel 2 2015 06 10.19 17.5 T H45 10P/Tempel 2 2015 06 08.31 17.9 T F51 10P/Tempel 2 2015 06 05.92 17.0 N 939 10P/Tempel 2 2015 06 04.00 17.1 N I57 32P/Comas Sola 2015 06 15.83 18.6 N 160 32P/Comas Sola 2015 06 13.92 17.7 N C23 32P/Comas Sola 2015 06 13.19 17.4 T G96 32P/Comas Sola 2015 06 06.90 17.8 N C23 32P/Comas Sola 2015 06 05.87 17.4 N A77 32P/Comas Sola 2015 06 03.93 17.5 N I57 40P/Vaisala 1 2015 06 26.42 19.5 T F51 40P/Vaisala 1 2015 06 22.92 17.7 N C23 40P/Vaisala 1 2015 06 12.29 18.1 T G96 40P/Vaisala 1 2015 06 07.00 17.5 N C23 42P/Neujmin 3 2015 06 18.37 C51 42P/Neujmin 3 2015 06 12.45 18.4 T G96 44P/Reinmuth 2015 06 28.21 17.5 N G40 47P/Ashbrook-Jackson 2015 06 07.36 20.8 T F51 50P/Arend 2015 06 16.41 20.6 N W96 51P/Harrington 2015 06 21.98 C51 51P/Harrington 2015 06 20.34 17.7 N W96 51P/Harrington 2015 06 05.38 16.8 N W96 51P/Harrington 2015 06 04.19 16.7 N G40 51P/Harrington 2015 06 03.79 UT: m1 = 15.7, Dia. = 0.3', DC = .., хвост = 0.8', pa = 237°, 0.51-m. RC 53P/Van Biesbroeck 2015 06 26.83 17.8 N 160 53P/Van Biesbroeck 2015 06 18.89 17.6 N 939 53P/Van Biesbroeck 2015 06 09.91 17.3 N C23 53P/Van Biesbroeck 2015 06 08.89 18.0 N G40 53P/Van Biesbroeck 2015 06 03.98 17.6 N I57 57P/du Toit-Neujmin-Delporte 2015 06 03.79 UT: m1 = 16.2, Dia. = 0.4', DC = .., 0.51-m. RC 57P/du Toit-Neujmin-Delporte 2015 06 27.02 17.2 N 160 57P/du Toit-Neujmin-Delporte 2015 06 23.36 16.2 N W96 57P/du Toit-Neujmin-Delporte 2015 06 15.75 C51 57P/du Toit-Neujmin-Delporte 2015 06 15.35 C51 57P/du Toit-Neujmin-Delporte 2015 06 14.45 14.3 T 703 57P/du Toit-Neujmin-Delporte 2015 06 09.32 C51 57P/du Toit-Neujmin-Delporte 2015 06 05.36 14.5 N W96 57P/du Toit-Neujmin-Delporte 2015 06 03.79 UT: m1 = 16.2, Dia. = 0.4', DC = .., 0.51-m. RC 57P/du Toit-Neujmin-Delporte 2015 06 02.21 17.6 N G40 61P/Shajn-Schaldach 2015 06 27.09 18.0 N 160 61P/Shajn-Schaldach 2015 06 26.19 18.4 N G40 67P/Churyumov-Gerasimenko 2015 06 29.21 15.5 N G40 67P/Churyumov-Gerasimenko 2015 06 28.13 15.0 N 958 67P/Churyumov-Gerasimenko 2015 06 27.81 UT: m1 = 14.0, Dia. = 0.6', DC = 2/3, 20.9° над горизонтом, 0.254-m. L, f4.7 (x83). 67P/Churyumov-Gerasimenko 2015 06 27.21 15.4 N G40 67P/Churyumov-Gerasimenko 2015 06 26.42 15.0 N W96 67P/Churyumov-Gerasimenko 2015 06 25.42 14.7 N W96 67P/Churyumov-Gerasimenko 2015 06 24.43 14.9 N G39 67P/Churyumov-Gerasimenko 2015 06 24.09 14.7 N C10 67P/Churyumov-Gerasimenko 2015 06 22.81 UT: m1 = 14.2, Dia. = 0.5', DC = 2/3, 21.3° над горизонтом, 0.254-m. L, f4.7 (x83). 67P/Churyumov-Gerasimenko 2015 06 22.43 15.1 N G39 67P/Churyumov-Gerasimenko 2015 06 20.43 15.2 N G39 67P/Churyumov-Gerasimenko 2015 06 19.42 15.2 N W96 67P/Churyumov-Gerasimenko 2015 06 15.41 15.0 N I39 67P/Churyumov-Gerasimenko 2015 06 14.36 15.7 T Y00 67P/Churyumov-Gerasimenko 2015 06 10.41 15.4 N I39 67P/Churyumov-Gerasimenko 2015 06 08.39 15.3 N I39 67P/Churyumov-Gerasimenko 2015 06 05.42 15.5 N W96 67P/Churyumov-Gerasimenko 2015 06 03.81 UT: m1 = 14.7, Dia. = 0.4', DC = .., хвост = 0.5', pa = 249°, 0.51-m. RC 70P/Kojima 2015 06 19.17 17.9 T 703 70P/Kojima 2015 06 13.22 18.5 T 703 117P/Helin-Roman-Alu 1 2015 06 25.38 16.8 N W96 117P/Helin-Roman-Alu 1 2015 06 18.41 17.5 N W88 117P/Helin-Roman-Alu 1 2015 06 03.80 UT: m1 = 16.7, Dia. = 0.2', DC = .., хвост = 0.6', pa = 244°, 0.51-m. RC 136P/Mueller 3 2015 06 26.52 21.8 T F51 136P/Mueller 3 2015 06 24.38 20.5 N W96 136P/Mueller 3 2015 06 22.57 21.7 T F51 136P/Mueller 3 2015 06 18.57 21.8 T F51 141P/Machholz 2 2015 06 12.09 ..C: m1 = 14.8, Dia. = 0.9', DC = 3, 0.54-m. L, f2 (x a20). 141P/Machholz 2 2015 06 07.02 18.8 N 160 162P/Siding Spring 2015 06 21.83 17.2 N Q62 162P/Siding Spring 2015 06 03.81 UT: m1 = 16.5, Dia. = ..', DC = .., 0.51-m. RC 174P/Echeclus 2015 06 11.71 UT: m1 = 15.4, Dia. = 0.2', DC = .., 0.406-m. RC 190P/Mueller 2015 06 28.60 20.2 T F51 190P/Mueller 2015 06 26.57 20.7 T F51 190P/Mueller 2015 06 21.56 20.7 T F51 205P/Giacobini 2015 06 20.79 Q62 205P/Giacobini 2015 06 03.79 UT: m1 = [16.5, Dia. = ..', DC = .., 0.51-m. RC 218P/LINEAR 2015 06 28.54 18.3 T F51 218P/LINEAR 2015 06 27.11 17.6 N J01 218P/LINEAR 2015 06 24.06 16.4 N C10 218P/LINEAR 2015 06 22.10 16.4 N K22 218P/LINEAR 2015 06 18.41 16.4 N H47 218P/LINEAR 2015 06 17.40 16.4 N H47 218P/LINEAR 2015 06 16.40 16.4 N H47 218P/LINEAR 2015 06 13.42 16.3 N H47 218P/LINEAR 2015 06 10.67 UT: m1 = 14.0, Dia. = 0.2', DC = .., 0.406-m. RC 218P/LINEAR 2015 06 04.07 16.0 N C23 218P/LINEAR 2015 06 01.37 16.4 N W96 220P/McNaught 2015 06 23.57 19.6 T F51 221P/LINEAR 2015 06 25.92 16.2 N K22 221P/LINEAR 2015 06 24.98 16.5 N K25 221P/LINEAR 2015 06 23.44 17.3 T F51 221P/LINEAR 2015 06 19.89 16.2 N B74 221P/LINEAR 2015 06 18.62 15.9 T D29 221P/LINEAR 2015 06 18.00 16.3 N K25 221P/LINEAR 2015 06 16.52 17.1 T F52 221P/LINEAR 2015 06 14.26 16.1 T G45 221P/LINEAR 2015 06 11.32 16.1 T G45 221P/LINEAR 2015 06 08.00 16.8 T Y00 221P/LINEAR 2015 06 07.23 16.0 T 703 221P/LINEAR 2015 06 05.94 16.5 N B74 230P/LINEAR 2015 06 22.78 Q62 287P/Christensen 2015 06 20.78 Q62 299P/Catalina-PANSTARRS 2015 06 28.28 17.4 N E85 299P/Catalina-PANSTARRS 2015 06 22.27 16.5 T G45 299P/Catalina-PANSTARRS 2015 06 14.28 16.4 T G45 299P/Catalina-PANSTARRS 2015 06 06.48 16.5 N D90 299P/Catalina-PANSTARRS 2015 06 06.48 UT: m1 = 16.2, Dia. = 0.2', DC = .., 0.406-m. RC 299P/Catalina-PANSTARRS 2015 06 05.60 18.1 N E07 318P/McNaught-Hartley 2015 06 27.78 16.3 N Q62 318P/McNaught-Hartley 2015 06 27.71 16.0 N Q62 318P/McNaught-Hartley 2015 06 27.71 UT: m1 = 14.9, Dia. = 0.76', DC = .., 0.305-m. SCT 318P/McNaught-Hartley 2015 06 26.37 17.0 N W96 318P/McNaught-Hartley 2015 06 23.30 17.2 N W96 318P/McNaught-Hartley 2015 06 19.36 17.1 N W96 318P/McNaught-Hartley 2015 06 12.35 17.3 N W96 318P/McNaught-Hartley 2015 06 07.22 18.2 T Y00 319P/Catalina-McNaught 2015 06 22.59 18.7 T F51 319P/Catalina-McNaught 2015 06 09.32 C51 319P/Catalina-McNaught 2015 06 08.40 C51 319P/Catalina-McNaught 2015 06 04.72 C51 319P/Catalina-McNaught 2015 06 03.41 C51 320P/McNaught 2015 06 14.46 C51 322P/SOHO 2015 06 18.19 G37 C/2008 S3 (Boattini) 2015 06 15.41 20.4 T G96 P/2009 L2 (Yang-Gao) 2009 10 11.81 19.8 N A77 C/2010 S1 (LINEAR) 2015 06 20.01 17.2 N J01 C/2011 J2 (LINEAR) 2015 06 27.03 17.8 N 160 C/2011 J2 (LINEAR) 2015 06 24.59 19.4 T F51 C/2011 J2 (LINEAR) 2015 06 14.07 17.1 N C23 C/2011 J2 (LINEAR) 2015 06 10.06 17.0 N C23 P/2012 B1 (PANSTARRS) 2015 06 10.55 20.3 T F51 C/2012 F3 (PANSTARRS) 2015 06 27.71 UT: m1 = 13.7, Dia. = 0.7', DC = 2, хвоста нет, 0.254-m. L, f4.7 (x83). C/2012 F3 (PANSTARRS) 2015 06 27.00 16.1 N J01 C/2012 F3 (PANSTARRS) 2015 06 26.72 UT: m1 = 13.9, Dia. = 0.4', DC = 2, хвоста нет, 0.254-m. L, f4.7 (x83). C/2012 F3 (PANSTARRS) 2015 06 24.96 16.7 N C47 C/2012 F3 (PANSTARRS) 2015 06 24.06 16.2 N A77 C/2012 F3 (PANSTARRS) 2015 06 23.96 UT: m1 = 13.7, Dia. = 0.6', DC = 3, 0.35-m. L (x239). C/2012 F3 (PANSTARRS) 2015 06 22.74 UT: m1 = 13.9, Dia. = 0.6', DC = 1/2, хвоста нет, неб. рассеян. кома, 0.254-m. L, f4.7 (x166). C/2012 F3 (PANSTARRS) 2015 06 21.34 15.6 N H47 C/2012 F3 (PANSTARRS) 2015 06 20.14 15.9 N G40 C/2012 F3 (PANSTARRS) 2015 06 18.08 15.2 N J38 C/2012 F3 (PANSTARRS) 2015 06 12.65 14.3 T D81 C/2012 F3 (PANSTARRS) 2015 06 08.06 15.5 N C10 C/2012 F3 (PANSTARRS) 2015 06 07.39 15.5 N H45 C/2012 F3 (PANSTARRS) 2015 06 04.04 15.7 N 939 C/2012 K1 (PANSTARRS) 2015 06 16.42 16.7 N W88 C/2012 K1 (PANSTARRS) 2015 06 03.75 15.9 N D90 C/2012 K1 (PANSTARRS) 2015 06 03.75 UT: m1 = 14.4, Dia. = 0.2', DC = .., 0.406-m. RC C/2012 K8 (Lemmon) 2015 06 25.93 17.9 N C23 C/2012 K8 (Lemmon) 2015 06 13.96 18.5 N C23 C/2012 K8 (Lemmon) 2015 06 11.90 18.9 T 461 C/2012 K8 (Lemmon) 2015 06 04.01 18.0 N C23 C/2012 LP26 (Palomar) 2015 06 28.48 19.7 T F51 C/2012 LP26 (Palomar) 2015 06 27.54 19.6 T F51 C/2012 LP26 (Palomar) 2015 06 17.99 18.9 N 461 C/2012 LP26 (Palomar) 2015 06 17.54 20.0 T F51 C/2012 U1 (PANSTARRS) 2015 06 15.90 19.4 T K25 C/2012 X1 (LINEAR) 2015 06 03.41 19.6 N W96 C/2013 A1 (Siding Spring) 2015 06 25.92 16.9 N C23 C/2013 A1 (Siding Spring) 2015 06 25.02 203 C/2013 A1 (Siding Spring) 2015 06 22.90 16.9 N C23 C/2013 A1 (Siding Spring) 2015 06 18.93 16.6 N 939 C/2013 A1 (Siding Spring) 2015 06 17.30 UT: m1 = 16.6, Dia. = 0.37', DC = .., 0.305-m. SCT, f6 C/2013 A1 (Siding Spring) 2015 06 17.30 17.1 N U69 C/2013 A1 (Siding Spring) 2015 06 14.01 17.0 N J38 C/2013 A1 (Siding Spring) 2015 06 12.34 ..Z: m1 = 16.6, Dia. = 02.03', DC = .., 0.305-m. SCT, f6 C/2013 A1 (Siding Spring) 2015 06 10.21 16.5 N H45 C/2013 A1 (Siding Spring) 2015 06 08.07 16.8 T I15 C/2013 A1 (Siding Spring) 2015 06 06.96 16.4 N C36 C/2013 A1 (Siding Spring) 2015 06 05.96 16.3 N 939 C/2013 A1 (Siding Spring) 2015 06 03.95 16.6 N 939 C/2013 A1 (Siding Spring) 2015 06 02.96 16.6 N K38 C/2013 A1 (Siding Spring) 2015 06 01.35 C51 C/2013 C2 (Tenagra) 2015 06 11.07 19.4 N W96 C/2013 C2 (Tenagra) 2015 06 10.49 20.1 N E07 C/2013 C2 (Tenagra) 2015 06 04.11 19.0 N W96 C/2013 G3 (PANSTARRS) 2015 06 14.06 17.4 N C23 C/2013 G9 (Tenagra) 2015 06 05.38 18.9 N E07 C/2013 H2 (Boattini) 2015 06 11.91 19.3 T 461 C/2013 TW5 (Spacewatch) 2015 06 10.46 18.9 N E07 C/2013 U2 (Holvorcem) 2015 06 04.90 17.4 N C23 C/2013 V2 (Borisov) 2015 06 26.85 17.6 N 160 C/2013 V2 (Borisov) 2015 06 18.97 17.2 N 939 C/2013 V2 (Borisov) 2015 06 16.96 16.9 N C23 C/2013 V2 (Borisov) 2015 06 10.50 18.6 N E07 C/2013 V2 (Borisov) 2015 06 04.95 17.0 N 203 C/2013 V2 (Borisov) 2015 06 03.89 17.0 N K14 C/2014 A4 (SONEAR) 2015 06 27.85 16.4 N D90 C/2014 AA52 (Catalina) 2015 06 03.78 UT: m1 = 17.8, Dia. = ..', DC = .., хвост = 0.2', pa = 229°, 0.51-m. RC C/2014 E2 (Jacques) 2015 06 06.97 19.3 N 160 C/2014 F2 (Tenagra) 2015 06 09.98 18.4 N C23 C/2014 M1 (PANSTARRS) 2015 06 22.58 18.9 T Q62 C/2014 OE4 (PANSTARRS) 2015 06 21.46 18.7 T F51 C/2014 OE4 (PANSTARRS) 2015 06 18.11 18.2 N W96 C/2014 OE4 (PANSTARRS) 2015 06 18.00 18.1 N K25 C/2014 OE4 (PANSTARRS) 2015 06 17.08 18.3 N W96 C/2014 OE4 (PANSTARRS) 2015 06 10.45 18.9 T F52 C/2014 R1 (Borisov) 2015 06 23.44 19.2 T F51 C/2014 R1 (Borisov) 2015 06 22.29 16.6 T G45 C/2014 R1 (Borisov) 2015 06 17.98 17.8 N 958 C/2014 R1 (Borisov) 2015 06 17.90 18.7 T Y00 C/2014 R1 (Borisov) 2015 06 15.97 17.3 N K25 C/2014 R1 (Borisov) 2015 06 11.32 16.4 T G45 C/2014 R1 (Borisov) 2015 06 07.27 16.6 T 703 C/2014 R3 (PANSTARRS) 2015 06 11.95 18.8 T 461 C/2014 W6 (Catalina) 2015 06 05.37 21.2 N E07 C/2014 W9 (PANSTARRS) 2015 06 08.38 18.9 T F51 C/2014 W11 (PANSTARRS) 2015 06 27.40 14.7 N D90 C/2014 W11 (PANSTARRS) 2015 06 11.28 16.1 T F51 C/2014 W11 (PANSTARRS) 2015 06 06.89 15.3 N G40 C/2014 W11 (PANSTARRS) 2015 06 06.39 UT: m1 = 14.3, Dia. = 0.3', DC = .., 0.406-m. RC C/2014 W11 (PANSTARRS) 2015 06 05.87 14.7 N 939 C/2014 W11 (PANSTARRS) 2015 06 03.87 14.8 N I57 C/2015 B2 (PANSTARRS) 2015 06 10.38 19.2 N E07 P/2015 C1 (TOTAS-Gibbs) 2015 06 12.49 20.1 T 867 C/2015 D4 (Borisov) 2015 06 21.00 20.0 N J01 P/2015 D5 (Kowalski) 2015 06 12.51 20.7 T 867 P/2015 D6 (Lemmon-PANSTARRS) 2015 06 12.50 20.2 T 867 P/2015 F1 (PANSTARRS) 2015 06 28.26 17.7 N E85 P/2015 F1 (PANSTARRS) 2015 06 22.32 17.8 N E85 P/2015 F1 (PANSTARRS) 2015 06 20.24 16.6 N W96 P/2015 F1 (PANSTARRS) 2015 06 17.24 16.8 T G45 P/2015 F1 (PANSTARRS) 2015 06 15.96 17.4 N 958 P/2015 F1 (PANSTARRS) 2015 06 11.42 UT: m1 = 16.0, Dia. = 0.2', DC = .., 0.406-m. RC P/2015 F1 (PANSTARRS) 2015 06 07.31 16.5 T 703 P/2015 F1 (PANSTARRS) 2015 06 06.45 UT: m1 = 15.7, Dia. = 0.3', DC = .., 0.406-m. RC P/2015 F1 (PANSTARRS) 2015 06 05.95 17.2 N K25 C/2015 F2 (Polonia) 2015 06 28.15 18.2 N Z81 C/2015 F2 (Polonia) 2015 06 21.40 703 C/2015 F2 (Polonia) 2015 06 20.38 17.2 N W96 C/2015 F2 (Polonia) 2015 06 17.41 16.9 T 703 C/2015 F2 (Polonia) 2015 06 12.03 17.6 N C23 C/2015 F2 (Polonia) 2015 06 09.31 17.6 T Y00 C/2015 F2 (Polonia) 2015 06 08.08 17.3 N C10 C/2015 H1 (Bressi) 2015 06 28.35 19.6 T F51 C/2015 H1 (Bressi) 2015 06 28.02 17.9 N A77 C/2015 H1 (Bressi) 2015 06 26.37 19.7 T F51 C/2015 H1 (Bressi) 2015 06 25.42 19.6 T F51 C/2015 H1 (Bressi) 2015 06 23.09 18.7 N G40 C/2015 H1 (Bressi) 2015 06 22.93 17.9 N C23 C/2015 H1 (Bressi) 2015 06 22.32 UT: m1 = 17.6, Dia. = 0.43', DC = .., 0.305-m. SCT, f6 (x0). C/2015 H1 (Bressi) 2015 06 15.90 23.6 N K14 C/2015 H1 (Bressi) 2015 06 10.97 18.3 N C23 C/2015 H1 (Bressi) 2015 06 08.00 18.2 N C10 C/2015 H2 (PANSTARRS) 2015 06 05.40 19.5 N E07 C/2015 J2 (PANSTARRS) 2015 06 22.35 19.2 N E85 P/2015 J3 (NEOWISE) 2015 06 25.58 20.3 T F51 P/2015 J3 (NEOWISE) 2015 06 24.65 19.1 N 474 P/2015 J3 (NEOWISE) 2015 06 16.64 19.1 N 474 P/2015 J3 (NEOWISE) 2015 06 12.45 18.8 T 703 C/2015 K1 (MASTER) 2015 06 28.77 372 C/2015 K1 (MASTER) 2015 06 26.43 17.6 N G32 C/2015 K1 (MASTER) 2015 06 22.39 17.5 N W96 C/2015 K1 (MASTER) 2015 06 18.37 17.6 T W95 C/2015 K1 (MASTER) 2015 06 16.37 17.8 N G32 C/2015 K1 (MASTER) 2015 06 13.36 17.6 T Y00 C/2015 K1 (MASTER) 2015 06 03.77 UT: m1 = 16.5, Dia. = 0.3', DC = .., хвост = 0.3', pa = 47°, 0.51-m. RC C/2015 K4 (PANSTARRS) 2015 06 21.93 18.1 N 157 C/2015 K4 (PANSTARRS) 2015 06 19.98 17.4 N B54 C/2015 K4 (PANSTARRS) 2015 06 18.37 16.9 T 703 C/2015 K4 (PANSTARRS) 2015 06 17.90 18.0 N K25 C/2015 K4 (PANSTARRS) 2015 06 15.27 17.6 T 703 C/2015 K4 (PANSTARRS) 2015 06 12.52 19.0 T F52 C/2015 K4 (PANSTARRS) 2015 06 07.39 17.7 T 703 C/2015 K4 (PANSTARRS) 2015 06 05.91 18.3 N K25 C/2015 GX (PANSTARRS) 2015 06 27.95 18.6 N A77 C/2015 GX (PANSTARRS) 2015 06 26.89 18.6 N A77 C/2015 GX (PANSTARRS) 2015 06 24.91 18.8 N K25 C/2015 GX (PANSTARRS) 2015 06 21.91 18.9 N 157 C/2015 GX (PANSTARRS) 2015 06 17.91 18.7 N K25 C/2015 GX (PANSTARRS) 2015 06 13.94 18.1 N C23 C/2015 GX (PANSTARRS) 2015 06 09.97 18.0 N C23 C/2015 GX (PANSTARRS) 2015 06 06.97 17.8 N J01 C/2015 GX (PANSTARRS) 2015 06 04.89 18.5 N K61 P/2015 K5 (PANSTARRS) 2015 06 17.26 20.2 T 703 P/2015 K5 (PANSTARRS) 2015 06 12.32 20.9 T I52 P/2015 K5 (PANSTARRS) 2015 06 09.05 19.9 T 958 C/2015 M1 (PANSTARRS) 2015 06 23.50 19.4 T F52 C/2015 M1 (PANSTARRS) 2015 06 22.56 19.8 T 474 C/2015 M1 (PANSTARRS) 2015 06 21.55 ..Z: m1 = 17.7, Dia. = 0.30', DC = .., 0.305-m. SCT, f6 (х0). C/2015 LC2 (PANSTARRS) 2015 06 24.41 19.2 N 474 C/2015 LC2 (PANSTARRS) 2015 06 24.05 19.2 N W96 C/2015 LC2 (PANSTARRS) 2015 06 23.40 19.2 T 474
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Альманах .. |
01.07.2015, 09:00 | #32 |
Модератор
Регистрация: 20.05.2007
Адрес: Новороссия
Сообщений: 19,745
|
Кометы наблюдаемые в июле 2015 года (после ~13.0m.) ..
Кометы в июле 2015 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 июле 2015 года .. 2P/Encke 2015 07 28.82 21.0 T D29 2P/Encke 2015 07 23.54 20.3 T F51 6P/d'Arrest 2015 07 18.76 15.3 T 349 7P/Pons-Winnecke 2015 07 29.31 C51 7P/Pons-Winnecke 2015 07 23.36 18.2 N W96 7P/Pons-Winnecke 2015 07 09.35 17.9 N W96 7P/Pons-Winnecke 2015 07 05.21 18.7 N G40 10P/Tempel 2 2015 07 30.05 I15 10P/Tempel 2 2015 07 25.88 16.9 N C23 10P/Tempel 2 2015 07 20.84 17.8 N 160 10P/Tempel 2 2015 07 17.86 17.8 N 160 10P/Tempel 2 2015 07 12.94 17.3 N I72 10P/Tempel 2 2015 07 10.90 17.5 N J01 10P/Tempel 2 2015 07 10.89 UT: m1 = 14.1, Dia. = 3.82', DC = .. 10P/Tempel 2 2015 07 08.93 17.2 N I72 10P/Tempel 2 2015 07 02.88 17.9 N 160 32P/Comas Sola 2015 07 12.29 19.9 T F51 32P/Comas Sola 2015 07 03.89 18.9 N G40 40P/Vaisala 1 2015 07 08.27 18.4 T G96 42P/Neujmin 3 2015 07 29.61 20.0 T F51 42P/Neujmin 3 2015 07 23.59 19.3 T F51 42P/Neujmin 3 2015 07 11.01 18.4 T 215 43P/Wolf-Harrington 2015 07 15.45 20.7 T F51 44P/Reinmuth 2 2015 07 20.06 17.2 N C23 44P/Reinmuth 2 2015 07 18.10 18.4 N 160 44P/Reinmuth 2 2015 07 17.11 17.9 N K25 44P/Reinmuth 2 2015 07 15.40 17.4 N W96 44P/Reinmuth 2 2015 07 12.08 18.4 N 160 50P/Arend 2015 07 28.27 19.0 N W96 50P/Arend 2015 07 18.18 G40 50P/Arend 2015 07 13.36 19.0 N W96 51P/Harrington 2015 07 28.34 18.7 N W96 51P/Harrington 2015 07 23.28 18.7 N W96 51P/Harrington 2015 07 16.33 18.3 N W96 51P/Harrington 2015 07 15.31 18.6 N W96 51P/Harrington 2015 07 13.40 18.7 N W96 53P/Van Biesbroeck 2015 07 20.43 UT: m1 = 17.3, Dia. = 0.2', DC = .. 53P/Van Biesbroeck 2015 07 20.43 17.4 N D90 53P/Van Biesbroeck 2015 07 12.85 17.5 N 160 53P/Van Biesbroeck 2015 07 11.85 18.3 N 160 53P/Van Biesbroeck 2015 07 05.44 UT: m1 = 16.8, Dia. = 0.2', DC = .. 53P/Van Biesbroeck 2015 07 02.84 18.0 N 160 56P/Slaughter-Burnham 2015 07 24.47 20.8 T F51 57P/du Toit-Neujmin-Delporte 2015 07 29.60 18.4 T F51 57P/du Toit-Neujmin-Delporte 2015 07 28.42 16.7 N W96 57P/du Toit-Neujmin-Delporte 2015 07 25.09 16.7 N A77 57P/du Toit-Neujmin-Delporte 2015 07 21.09 17.1 N K25 57P/du Toit-Neujmin-Delporte 2015 07 16.03 18.0 N C47 57P/du Toit-Neujmin-Delporte 2015 07 13.15 16.9 N Z81 57P/du Toit-Neujmin-Delporte 2015 07 13.07 17.6 N 958 57P/du Toit-Neujmin-Delporte 2015 07 12.00 UT: m1 = 14.6, Dia. = 1', DC = 4 57P/du Toit-Neujmin-Delporte 2015 07 11.30 17.6 T Y00 57P/du Toit-Neujmin-Delporte 2015 07 03.09 17.7 N 160 61P/Shajn-Schaldach 2015 07 26.05 17.7 N C23 61P/Shajn-Schaldach 2015 07 25.12 17.3 N A77 61P/Shajn-Schaldach 2015 07 21.11 17.7 N K25 61P/Shajn-Schaldach 2015 07 18.45 16.7 T G45 61P/Shajn-Schaldach 2015 07 17.11 17.5 N A77 61P/Shajn-Schaldach 2015 07 13.10 17.5 N 958 61P/Shajn-Schaldach 2015 07 11.06 18.4 N 160 70P/Kojima 2015 07 18.28 20.4 T F51 117P/Helin-Roman-Alu 1 2015 07 26.06 16.5 N C23 117P/Helin-Roman-Alu 1 2015 07 19.70 UT: m1 = 16.0, Dia. = 0.2', DC = .. 117P/Helin-Roman-Alu 1 2015 07 19.70 16.7 N D90 117P/Helin-Roman-Alu 1 2015 07 13.30 17.9 T Y00 117P/Helin-Roman-Alu 1 2015 07 06.39 16.6 N W96 117P/Helin-Roman-Alu 1 2015 07 04.73 UT: m1 = 16.2, Dia. = 0.2', DC = .. 134P/Kowal-Vavrova 2015 07 14.51 21.2 T F51 134P/Kowal-Vavrova 2015 07 10.39 691 136P/Mueller 3 2015 07 11.51 21.1 T F51 151P/Helin 2015 07 27.61 20.0 T F52 151P/Helin 2015 07 23.54 20.2 T F51 162P/Siding Spring 2015 07 26.08 16.1 N C23 174P/Echeclus 2015 07 29.46 UT: m1 = 17.1, Dia. = 0.2', DC = .. 174P/Echeclus 2015 07 19.61 UT: m1 = 16.9, Dia. = 0.2', DC = .. 190P/Mueller 2015 07 21.33 19.9 T G45 190P/Mueller 2015 07 18.32 20.1 T G45 190P/Mueller 2015 07 14.46 19.9 T F51 196P/Tichy 2015 07 21.46 20.5 T 291 205P/Giacobini 2015 07 24.60 20.7 T F51 205P/Giacobini 2015 07 21.39 18.6 N W96 220P/McNaught 2015 07 21.46 17.7 T G45 220P/McNaught 2015 07 20.46 18.7 T G45 220P/McNaught 2015 07 18.46 18.4 T G45 221P/LINEAR 2015 07 23.87 15.5 T 104 221P/LINEAR 2015 07 19.90 17.2 N J01 221P/LINEAR 2015 07 16.99 16.5 N 939 221P/LINEAR 2015 07 12.92 17.6 N 958 221P/LINEAR 2015 07 11.00 16.4 N 939 230P/LINEAR 2015 07 21.37 18.1 N W96 230P/LINEAR 2015 07 17.37 C51 299P/Catalina-PANSTARRS 2015 07 17.54 UT: m1 = 14.7, Dia. = 0.2', DC = .. 299P/Catalina-PANSTARRS 2015 07 17.54 17.0 N D90 299P/Catalina-PANSTARRS 2015 07 14.33 18.4 T F51 299P/Catalina-PANSTARRS 2015 07 13.33 18.1 T F51 299P/Catalina-PANSTARRS 2015 07 09.98 17.6 N G40 308P/Lagerkvist-Carsenty 2015 07 26.59 21.3 T F51 318P/McNaught-Hartley 2015 07 20.19 16.4 N W98 318P/McNaught-Hartley 2015 07 08.34 17.0 T W95 318P/McNaught-Hartley 2015 07 05.51 17.0 N E94 319P/Catalina-McNaught 2015 07 29.44 C51 319P/Catalina-McNaught 2015 07 21.11 17.8 N 160 319P/Catalina-McNaught 2015 07 20.42 17.4 N W96 319P/Catalina-McNaught 2015 07 15.32 17.5 T W95 319P/Catalina-McNaught 2015 07 13.07 18.3 N 160 319P/Catalina-McNaught 2015 07 12.06 17.8 N 160 319P/Catalina-McNaught 2015 07 04.21 17.4 N G40 324P/La Sagra 2015 07 17.53 21.0 N 474 C/2008 S3 (Boattini) 2015 07 17.01 20.7 T 461 C/2010 S1 (LINEAR) 2015 07 19.92 19.3 N 958 C/2010 U3 (Boattini) 2015 07 23.05 19.5 T 461 C/2011 J2 (LINEAR) 2015 07 26.04 17.1 N C23 C/2011 J2 (LINEAR) 2015 07 25.75 18.9 N N55 C/2011 J2 (LINEAR) 2015 07 18.01 18.4 N 160 C/2011 J2 (LINEAR) 2015 07 14.16 17.9 N Z81 C/2011 J2 (LINEAR) 2015 07 13.03 18.3 N 958 C/2011 J2 (LINEAR) 2015 07 12.01 17.4 N C23 C/2011 J2 (LINEAR) 2015 07 11.07 16.5 N C35 C/2011 J2 (LINEAR) 2015 07 03.13 17.9 N G40 C/2012 K1 (PANSTARRS) 2015 07 26.57 17.9 T F51 C/2012 K8 (Lemmon) 2015 07 19.94 18.5 N C23 C/2012 K8 (Lemmon) 2015 07 16.91 ..Z: m1 = 18.3, Dia. = 0.41', DC = .. C/2012 K8 (Lemmon) 2015 07 16.91 19.0 N B82 C/2012 K8 (Lemmon) 2015 07 01.94 18.3 N C23 C/2012 LP26 (Palomar) 2015 07 24.11 18.4 N G40 C/2012 LP26 (Palomar) 2015 07 17.97 19.0 N C95 C/2012 LP26 (Palomar) 2015 07 13.94 18.2 T K41 C/2012 U1 (PANSTARRS) 2015 07 10.94 19.1 T 215 C/2013 A1 (Siding Spring) 2015 07 25.91 17.3 N C23 C/2013 A1 (Siding Spring) 2015 07 21.86 18.0 N L04 C/2013 A1 (Siding Spring) 2015 07 17.92 17.6 N A77 C/2013 A1 (Siding Spring) 2015 07 17.88 ..Z: m1 = 15.3, Dia. = 1.84', DC = .. C/2013 A1 (Siding Spring) 2015 07 16.89 17.0 N 939 C/2013 A1 (Siding Spring) 2015 07 12.95 17.2 N I72 C/2013 A1 (Siding Spring) 2015 07 10.94 17.0 N 939 C/2013 A1 (Siding Spring) 2015 07 04.90 16.7 N 939 C/2013 A1 (Siding Spring) 2015 07 03.91 ..Z: m1 = 16.0, Dia. = 0.63', DC = .. C/2013 A1 (Siding Spring) 2015 07 02.91 ..Z: m1 = 16.1, Dia. = 0.54', DC = .. C/2013 G3 (PANSTARRS) 2015 07 10.02 18.5 N B96 C/2013 G3 (PANSTARRS) 2015 07 09.97 17.8 N C23 C/2013 P3 (Palomar) 2015 07 23.04 18.7 N 461 C/2013 V2 (Borisov) 2015 07 17.83 17.6 N 160 C/2013 V2 (Borisov) 2015 07 12.85 17.8 N 160 C/2013 V2 (Borisov) 2015 07 11.84 17.7 N 160 C/2013 V2 (Borisov) 2015 07 10.90 16.3 N C23 C/2013 V2 (Borisov) 2015 07 02.86 17.6 N 160 C/2014 A4 (SONEAR) 2015 07 27.36 17.0 T Y00 C/2014 A4 (SONEAR) 2015 07 25.36 16.9 T Y00 C/2014 A4 (SONEAR) 2015 07 19.82 UT: m1 = 15.9, Dia. = 0.2', DC = .. C/2014 A4 (SONEAR) 2015 07 19.82 16.3 N D90 C/2014 A4 (SONEAR) 2015 07 12.10 17.4 N 160 C/2014 A4 (SONEAR) 2015 07 10.40 16.9 N W96 C/2014 AA52 (Catalina) 2015 07 23.61 19.1 T F52 C/2014 L5 (Lemmon) 2015 07 22.00 20.0 T 461 C/2014 L5 (Lemmon) 2015 07 17.03 19.5 T 461 C/2014 M1 (PANSTARRS) 2015 07 07.59 Q62 P/2014 MG4 (Spacewatch-PANSTARRS) 2015 07 28.60 21.1 T F51 C/2014 N3 (NEOWISE) 2015 07 27.42 15.9 N W96 C/2014 N3 (NEOWISE) 2015 07 21.08 17.3 N 160 C/2014 N3 (NEOWISE) 2015 07 18.09 17.4 N 160 C/2014 N3 (NEOWISE) 2015 07 14.99 15.5 N L96 C/2014 N3 (NEOWISE) 2015 07 13.08 16.5 N 160 C/2014 N3 (NEOWISE) 2015 07 12.07 17.3 N 160 C/2014 N3 (NEOWISE) 2015 07 03.10 16.8 N 160 C/2014 OE4 (PANSTARRS) 2015 07 06.38 19.1 T F52 C/2014 R1 (Borisov) 2015 07 09.37 20.0 T F51 C/2014 S2 (PANSTARRS) 2015 07 28.01 15.6 N B51 C/2014 S2 (PANSTARRS) 2015 07 24.11 15.6 N A77 C/2014 S2 (PANSTARRS) 2015 07 17.98 15.5 N C36 C/2014 S2 (PANSTARRS) 2015 07 17.01 15.5 N C36 C/2014 S2 (PANSTARRS) 2015 07 13.08 17.1 N 160 C/2014 W2 (PANSTARRS) 2015 07 26.07 16.3 N C23 C/2014 W6 (Catalina) 2015 07 20.32 20.9 N 474 C/2014 XB8 (PANSTARRS) 2015 07 15.62 21.5 T 568 C/2015 A1 (PANSTARRS) 2015 07 20.63 20.0 N 474 C/2015 A1 (PANSTARRS) 2015 07 10.72 19.4 N 474 C/2015 C2 (SWAN) 2015 07 20.01 18.3 N C23 C/2015 C2 (SWAN) 2015 07 09.95 18.4 N C23 C/2015 C2 (SWAN) 2015 07 01.98 215 P/2015 F1 (PANSTARRS) 2015 07 15.93 17.5 T 215 P/2015 F1 (PANSTARRS) 2015 07 04.99 17.7 N G40 C/2015 F2 (Polonia) 2015 07 14.68 372 C/2015 F2 (Polonia) 2015 07 04.51 20.0 T F51 C/2015 GX (PANSTARRS) 2015 07 17.88 18.4 N 157 C/2015 GX (PANSTARRS) 2015 07 10.95 18.4 T 215 C/2015 GX (PANSTARRS) 2015 07 09.93 18.0 N C23 C/2015 GX (PANSTARRS) 2015 07 05.89 18.6 N A77 C/2015 H1 (Bressi) 2015 07 27.31 20.7 T F51 C/2015 H1 (Bressi) 2015 07 20.94 19.8 N A77 C/2015 H1 (Bressi) 2015 07 11.98 18.2 N C23 C/2015 H1 (Bressi) 2015 07 07.04 18.5 N C23 C/2015 H1 (Bressi) 2015 07 01.94 18.4 T 215 C/2015 H2 (PANSTARRS) 2015 07 19.32 18.6 N 474 C/2015 J1 (PANSTARRS) 2015 07 17.33 19.7 N 474 C/2015 J2 (PANSTARRS) 2015 07 10.91 19.0 T 215 P/2015 J3 (NEOWISE) 2015 07 24.51 20.4 T F51 P/2015 J3 (NEOWISE) 2015 07 21.40 19.5 T G45 P/2015 J3 (NEOWISE) 2015 07 19.59 20.2 T F52 P/2015 J3 (NEOWISE) 2015 07 15.99 19.0 T 215 P/2015 J3 (NEOWISE) 2015 07 14.57 20.3 T F51 P/2015 J3 (NEOWISE) 2015 07 12.54 20.6 T F51 P/2015 J3 (NEOWISE) 2015 07 10.65 19.5 N 474 C/2015 K1 (MASTER) 2015 07 21.02 17.4 N 160 C/2015 K1 (MASTER) 2015 07 18.74 16.7 T 349 C/2015 K1 (MASTER) 2015 07 18.73 349 C/2015 K1 (MASTER) 2015 07 14.70 372 C/2015 K1 (MASTER) 2015 07 13.05 17.0 N 160 C/2015 K1 (MASTER) 2015 07 12.05 17.5 N 160 C/2015 K1 (MASTER) 2015 07 11.05 17.9 N 160 C/2015 K1 (MASTER) 2015 07 09.42 17.6 N G32 C/2015 K4 (PANSTARRS) 2015 07 11.92 19.9 N 157 C/2015 K4 (PANSTARRS) 2015 07 03.42 20.8 T F51 P/2015 K5 (PANSTARRS) 2015 07 14.59 19.3 N 372 P/2015 K5 (PANSTARRS) 2015 07 10.96 19.4 T 215 P/2015 K5 (PANSTARRS) 2015 07 07.39 20.8 T F51 C/2015 M1 (PANSTARRS) 2015 07 20.40 20.1 N 474 C/2015 M1 (PANSTARRS) 2015 07 17.51 19.3 N 474 C/2015 M1 (PANSTARRS) 2015 07 10.52 18.8 N 474 P/2015 M2 (PANSTARRS) 2015 07 25.44 20.0 T F51 P/2015 M2 (PANSTARRS) 2015 07 21.35 18.8 T G45 P/2015 M2 (PANSTARRS) 2015 07 19.52 20.0 T F52 P/2015 M2 (PANSTARRS) 2015 07 14.47 20.1 T F51 C/2015 M3 (PANSTARRS) 2015 07 22.02 ..Z: m1 = 17.0, Dia. = 2.59', DC = .. C/2015 M3 (PANSTARRS) 2015 07 22.02 19.1 N B82 C/2015 M3 (PANSTARRS) 2015 07 17.90 19.4 N 157 C/2015 M3 (PANSTARRS) 2015 07 16.98 ..Z: m1 = 19.1, Dia. = 0.30', DC = .. C/2015 M3 (PANSTARRS) 2015 07 16.98 19.5 N B82 C/2015 M3 (PANSTARRS) 2015 07 13.25 19.7 T H36 C/2015 O1 (PANSTARRS) 2015 07 27.50 18.5 N Q62 C/2015 O1 (PANSTARRS) 2015 07 25.10 18.8 T Y00 C/2015 O1 (PANSTARRS) 2015 07 21.95 18.6 T K62
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Альманах .. |
02.08.2015, 16:47 | #33 |
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Кометы наблюдаемые в августе 2015 года (после ~13.0m.) ..
Кометы в августе 2015 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 августе 2015 года .. 2P/Encke 2015 08 21.31 20.3 T 691 2P/Encke 2015 08 17.61 20.2 T Q60 2P/Encke 2015 08 13.02 19.4 T 215 7P/Pons-Winnecke 2015 08 26.08 19.0 T 215 7P/Pons-Winnecke 2015 08 17.14 18.6 N J22 7P/Pons-Winnecke 2015 08 10.42 18.3 N W96 10P/Tempel 2 2015 08 28.87 UT: m1 = 14.1, Dia. = 0.2', DC = .. 10P/Tempel 2 2015 08 20.39 17.1 N Q68 10P/Tempel 2 2015 08 16.41 16.8 N Q68 10P/Tempel 2 2015 08 12.82 17.4 N 160 10P/Tempel 2 2015 08 11.84 17.2 N 160 10P/Tempel 2 2015 08 07.37 17.2 N Q68 10P/Tempel 2 2015 08 05.87 17.5 N C23 10P/Tempel 2 2015 08 01.36 16.9 N Q68 40P/Vaisala 1 2015 08 12.31 21.2 T F51 40P/Vaisala 1 2015 08 11.30 21.2 T F51 42P/Neujmin 3 2015 08 20.11 18.1 N A77 44P/Reinmuth 2 2015 08 27.96 C51 44P/Reinmuth 2 2015 08 27.01 17.2 N I81 44P/Reinmuth 2 2015 08 26.06 18.0 N K61 44P/Reinmuth 2 2015 08 24.05 17.6 N I81 44P/Reinmuth 2 2015 08 22.12 17.8 T 104 44P/Reinmuth 2 2015 08 17.12 17.8 N I81 44P/Reinmuth 2 2015 08 13.06 18.7 T 215 44P/Reinmuth 2 2015 08 04.39 18.1 N W96 50P/Arend 2015 08 23.01 17.1 N B96 50P/Arend 2015 08 22.06 UT: m1 = 17.1, Dia. = 0.2', DC = .. 50P/Arend 2015 08 21.49 19.3 T F51 50P/Arend 2015 08 20.77 18.1 T Q60 50P/Arend 2015 08 14.38 18.7 T G45 50P/Arend 2015 08 12.99 18.7 T 215 50P/Arend 2015 08 09.53 19.7 T F52 50P/Arend 2015 08 06.72 18.9 N Q68 50P/Arend 2015 08 06.40 19.3 T G45 50P/Arend 2015 08 05.40 19.1 T G45 51P/Harrington 2015 08 26.06 19.5 T 215 51P/Harrington 2015 08 23.24 20.4 N G30 51P/Harrington 2015 08 21.59 20.9 T F51 51P/Harrington 2015 08 19.18 20.0 N G40 51P/Harrington 2015 08 12.59 21.9 T F51 51P/Harrington 2015 08 10.27 19.9 N W96 51P/Harrington 2015 08 07.32 19.0 N W96 53P/Van Biesbroeck 2015 08 07.95 17.8 T Y00 56P/Slaughter-Burnham 2015 08 15.55 20.8 N E07 56P/Slaughter-Burnham 2015 08 09.42 20.6 T F51 57P/du Toit-Neujmin-Delporte 2015 08 25.95 17.3 N K61 57P/du Toit-Neujmin-Delporte 2015 08 23.23 17.4 N G30 57P/du Toit-Neujmin-Delporte 2015 08 22.11 UT: m1 = 14.9, Dia. = 0.4', DC = .. 57P/du Toit-Neujmin-Delporte 2015 08 19.76 17.1 N Q68 57P/du Toit-Neujmin-Delporte 2015 08 13.04 18.3 N 160 57P/du Toit-Neujmin-Delporte 2015 08 12.05 18.3 N 160 57P/du Toit-Neujmin-Delporte 2015 08 11.03 16.9 N C23 57P/du Toit-Neujmin-Delporte 2015 08 07.72 17.1 N Q68 57P/du Toit-Neujmin-Delporte 2015 08 06.32 16.7 N W96 61P/Shajn-Schaldach 2015 08 25.99 17.0 N K61 61P/Shajn-Schaldach 2015 08 25.99 16.8 N K61 61P/Shajn-Schaldach 2015 08 24.94 17.4 N C36 61P/Shajn-Schaldach 2015 08 21.10 16.9 N C10 61P/Shajn-Schaldach 2015 08 20.04 17.0 N C36 61P/Shajn-Schaldach 2015 08 15.37 17.3 N W96 61P/Shajn-Schaldach 2015 08 11.06 16.6 N C23 61P/Shajn-Schaldach 2015 08 07.75 17.5 N Q68 74P/Smirnova-Chernykh 2015 08 30.55 20.0 T F51 74P/Smirnova-Chernykh 2015 08 25.02 18.9 N C36 74P/Smirnova-Chernykh 2015 08 17.22 19.5 N J22 74P/Smirnova-Chernykh 2015 08 15.47 19.6 T G45 74P/Smirnova-Chernykh 2015 08 14.46 19.8 T G45 95P/Chiron 2015 08 22.04 UT: m1 = 17.6, Dia. = 0.2', DC = .. 117P/Helin-Roman-Alu 1 2015 08 29.96 17.7 N 160 117P/Helin-Roman-Alu 1 2015 08 27.27 16.3 N W96 117P/Helin-Roman-Alu 1 2015 08 26.12 G40 117P/Helin-Roman-Alu 1 2015 08 25.04 16.4 N 939 117P/Helin-Roman-Alu 1 2015 08 22.12 UT: m1 = 15.6, Dia. = 0.3', DC = .. 117P/Helin-Roman-Alu 1 2015 08 19.78 16.7 N Q68 117P/Helin-Roman-Alu 1 2015 08 13.06 17.6 N 160 117P/Helin-Roman-Alu 1 2015 08 13.00 17.3 T 215 117P/Helin-Roman-Alu 1 2015 08 11.05 16.9 N C23 117P/Helin-Roman-Alu 1 2015 08 10.36 16.7 N W96 117P/Helin-Roman-Alu 1 2015 08 07.74 16.9 N Q68 128P-B/Shoemaker-Holt 1 2015 08 20.91 18.3 T K41 136P/Mueller 3 2015 08 17.37 20.6 T F51 136P/Mueller 3 2015 08 11.35 21.0 T F51 141P-H/Machholz 2015 08 26.47 ..C: m1 = 13.9, Dia. = 2.5', DC = .., 0.106-m. R, f5 (x780). 151P/Helin 2015 08 22.10 18.8 N A77 151P/Helin 2015 08 18.39 18.3 N W96 157P/Tritton 2015 08 23.17 19.7 N G30 157P/Tritton 2015 08 20.96 20.1 N C10 157P/Tritton 2015 08 20.06 20.2 N A77 157P/Tritton 2015 08 09.46 21.4 T F51 162P/Siding Spring 2015 08 27.22 UT: m1 = 16.3, Dia. = 0.2', DC = .. 162P/Siding Spring 2015 08 27.11 17.0 N A77 162P/Siding Spring 2015 08 24.04 16.8 N C36 162P/Siding Spring 2015 08 17.08 16.4 N I81 174P/Echeclus 2015 08 20.09 UT: m1 = 17.0, Dia. = 0.2', DC = .. 174P/Echeclus 2015 08 18.40 UT: m1 = 16.8, Dia. = 0.4', DC = .. 174P/Echeclus 2015 08 17.08 UT: m1 = 16.7, Dia. = 0.2', DC = .. 174P/Echeclus 2015 08 15.14 UT: m1 = 16.7, Dia. = 0.2', DC = .. 174P/Echeclus 2015 08 14.41 UT: m1 = 17.1, Dia. = 0.4', DC = .. 174P/Echeclus 2015 08 09.43 UT: m1 = 17.0, Dia. = 0.2', DC = .. 174P/Echeclus 2015 08 08.57 UT: m1 = 16.8, Dia. = 0.2', DC = .. 190P/Mueller 2015 08 11.35 19.5 T F51 205P/Giacobini 2015 08 28.61 21.0 T F51 205P/Giacobini 2015 08 26.10 19.3 T 215 205P/Giacobini 2015 08 26.10 19.2 T 215 218P/LINEAR 2015 08 21.95 17.9 N J22 218P/LINEAR 2015 08 19.65 17.8 N Q68 218P/LINEAR 2015 08 18.32 16.6 T 703 218P/LINEAR 2015 08 10.97 18.2 N J36 218P/LINEAR 2015 08 07.51 17.2 N Q68 218P/LINEAR 2015 08 05.97 17.4 N C23 220P/McNaught 2015 08 29.58 19.5 T F51 220P/McNaught 2015 08 17.13 18.4 N J22 220P/McNaught 2015 08 17.06 19.4 T 104 220P/McNaught 2015 08 13.05 19.1 T 215 220P/McNaught 2015 08 07.75 18.3 N Q68 221P/LINEAR 2015 08 28.95 18.1 N G40 221P/LINEAR 2015 08 21.85 18.3 N A77 221P/LINEAR 2015 08 21.84 UT: m1 = 16.7, Dia. = 0.45', DC = .. 221P/LINEAR 2015 08 16.42 17.0 N Q68 221P/LINEAR 2015 08 16.31 18.5 T F51 221P/LINEAR 2015 08 07.48 17.0 N Q68 221P/LINEAR 2015 08 01.92 16.9 N C23 230P/LINEAR 2015 08 27.34 17.3 N W96 230P/LINEAR 2015 08 26.07 18.1 T 215 230P/LINEAR 2015 08 19.79 18.2 N Q68 230P/LINEAR 2015 08 13.09 18.7 N 160 230P/LINEAR 2015 08 12.31 18.5 N W96 230P/LINEAR 2015 08 07.75 18.5 N Q68 287P/Christensen 2015 08 13.08 18.6 T 215 299P/Catalina-PANSTARRS 2015 08 16.54 17.8 N Q68 299P/Catalina-PANSTARRS 2015 08 16.49 18.1 N E07 299P/Catalina-PANSTARRS 2015 08 08.47 16.5 N Q68 299P/Catalina-PANSTARRS 2015 08 07.48 16.9 N Q68 299P/Catalina-PANSTARRS 2015 08 04.43 17.6 N Q68 318P/McNaught-Hartley 2015 08 22.03 UT: m1 = 14.2, Dia. = 0.3', DC = .. 318P/McNaught-Hartley 2015 08 22.03 15.8 N J22 318P/McNaught-Hartley 2015 08 19.68 16.1 N Q68 318P/McNaught-Hartley 2015 08 17.33 16.0 N W96 318P/McNaught-Hartley 2015 08 08.61 16.2 N Q68 318P/McNaught-Hartley 2015 08 07.64 16.3 N Q68 319P/Catalina-McNaught 2015 08 27.38 18.1 N W96 319P/Catalina-McNaught 2015 08 19.40 18.6 N W96 319P/Catalina-McNaught 2015 08 13.11 17.9 T 215 319P/Catalina-McNaught 2015 08 07.78 17.8 N Q68 320P/McNaught 2015 08 15.90 G40 325P/Yang-Gao 2015 08 04.37 18.6 N Q68 326P/Hill 2015 08 26.07 19.7 T 215 327P/Van Ness 2015 08 18.88 16.4 N A71 P/2002 Q1 (Van Ness) 2015 08 18.88 16.4 N A71 P/2002 Q1 (Van Ness) 2015 08 12.90 19.5 T 215 P/2002 Q1 (Van Ness) 2015 08 06.42 19.8 T F51 P/2007 V2 (Hill) 2015 08 26.07 19.7 T 215 P/2007 V2 (Hill) 2015 08 21.13 19.6 N A77 P/2007 V2 (Hill) 2015 08 18.45 291 C/2009 F4 (McNaught) 2015 08 20.40 19.8 N W96 C/2010 U3 (Boattini) 2015 08 26.02 16.3 N I81 C/2010 U3 (Boattini) 2015 08 23.97 18.3 N C36 C/2010 U3 (Boattini) 2015 08 17.04 18.1 N I81 C/2011 J2 (LINEAR) 2015 08 26.93 18.7 N C47 C/2011 J2 (LINEAR) 2015 08 23.70 16.6 T D29 C/2011 J2 (LINEAR) 2015 08 23.11 UT: m1 = 15.3, Dia. = 1.19', DC = .. C/2011 J2 (LINEAR) 2015 08 23.11 18.0 N B82 C/2011 J2 (LINEAR) 2015 08 20.93 17.5 T K41 C/2011 J2 (LINEAR) 2015 08 19.97 17.4 N C36 C/2011 J2 (LINEAR) 2015 08 13.38 16.6 T G45 C/2011 J2 (LINEAR) 2015 08 12.97 17.7 N C23 C/2011 J2 (LINEAR) 2015 08 07.65 17.3 N Q68 C/2011 J2 (LINEAR) 2015 08 05.98 17.4 N C23 C/2011 J2 (LINEAR) 2015 08 04.93 17.7 N B51 C/2011 J2 (LINEAR) 2015 08 03.05 17.4 N C10 -------------------------------------------- C/2011 J2 (LINEAR) 2015 01 04.77 20.0 N B96 C/2012 F3 (PANSTARRS) 2015 08 24.92 16.7 N J01 C/2012 F3 (PANSTARRS) 2015 08 24.92 16.5 N J01 C/2012 F3 (PANSTARRS) 2015 08 22.87 15.7 N J36 C/2012 F3 (PANSTARRS) 2015 08 21.86 UT: m1 = 14.0, Dia. = 1.44', DC = .. C/2012 F3 (PANSTARRS) 2015 08 17.86 16.4 N A77 C/2012 F3 (PANSTARRS) 2015 08 14.89 UT: m1 = 14.4, Dia. = 0.4', DC = 3 C/2012 F3 (PANSTARRS) 2015 08 14.49 16.8 N E07 C/2012 F3 (PANSTARRS) 2015 08 10.16 16.1 N G30 C/2012 F3 (PANSTARRS) 2015 08 09.02 15.6 N I72 C/2012 F3 (PANSTARRS) 2015 08 08.46 UT: m1 = 13.8, Dia. = 0.3', DC = .. C/2012 F3 (PANSTARRS) 2015 08 07.50 15.5 N Q68 C/2012 F3 (PANSTARRS) 2015 08 04.89 15.6 N C86 C/2012 F3 (PANSTARRS) 2015 08 02.93 15.7 N C86 C/2012 K1 (PANSTARRS) 2015 08 22.10 UT: m1 = 14.3, Dia. = 0.2', DC = .. C/2012 K1 (PANSTARRS) 2015 08 22.10 16.2 N J22 C/2012 K1 (PANSTARRS) 2015 08 19.77 16.4 N Q68 C/2012 K1 (PANSTARRS) 2015 08 13.01 17.5 N 215 C/2012 K1 (PANSTARRS) 2015 08 11.31 16.2 N W96 C/2012 K1 (PANSTARRS) 2015 08 07.73 16.3 N Q68 C/2012 K1 (PANSTARRS) 2015 08 06.39 16.2 N W96 C/2012 K8 (Lemmon) 2015 08 12.89 18.9 T 215 C/2012 K8 (Lemmon) 2015 08 12.89 19.0 T 215 C/2012 K8 (Lemmon) 2015 08 04.93 18.2 N C23 C/2012 LP26 (Palomar) 2015 08 19.64 17.8 N Q68 C/2012 LP26 (Palomar) 2015 08 16.62 17.9 N Q68 C/2012 LP26 (Palomar) 2015 08 10.48 17.9 N Q68 C/2012 LP26 (Palomar) 2015 08 08.84 17.8 N A71 C/2012 LP26 (Palomar) 2015 08 07.50 17.5 N Q68 C/2013 A1 (Siding Spring) 2015 08 19.85 17.7 N C23 C/2013 A1 (Siding Spring) 2015 08 08.90 17.7 N C23 C/2013 A1 (Siding Spring) 2015 08 01.87 17.2 N C23 C/2013 C2 (Tenagra) 2015 08 08.99 18.6 N W96 C/2013 G3 (PANSTARRS) 2015 08 30.87 19.6 T A77 C/2013 G3 (PANSTARRS) 2015 08 19.96 17.8 N C23 C/2013 G8 (PANSTARRS) 2015 08 20.10 20.9 N C95 C/2013 P3 (Palomar) 2015 08 15.43 17.9 T G45 C/2013 P3 (Palomar) 2015 08 09.60 19.1 T F52 C/2013 P4 (PANSTARRS) 2015 08 12.47 19.3 T G45 C/2013 R1 (Lovejoy) 2015 08 05.54 UT: m1 = 10.3, Dia. = 4.2', DC = .. C/2013 R1 (Lovejoy) 2015 08 03.51 UT: m1 = 10.1, Dia. = 4.2', DC = .. C/2013 R1 (Lovejoy) 2015 08 02.52 UT: m1 = 10.2, Dia. = 3.8', DC = .. C/2013 V4 (Catalina) 2015 08 26.04 16.5 N I81 C/2013 V4 (Catalina) 2015 08 22.08 16.6 N C23 C/2013 V4 (Catalina) 2015 08 17.03 16.3 N I81 C/2013 V4 (Catalina) 2015 08 05.77 15.8 T 349 C/2014 A4 (SONEAR) 2015 08 31.06 16.3 N 213 C/2014 A4 (SONEAR) 2015 08 26.11 15.4 N I81 C/2014 A4 (SONEAR) 2015 08 26.11 15.5 N I81 C/2014 A4 (SONEAR) 2015 08 24.97 16.1 N C36 C/2014 A4 (SONEAR) 2015 08 19.79 16.4 N Q68 C/2014 A4 (SONEAR) 2015 08 13.44 16.5 N H47 C/2014 A4 (SONEAR) 2015 08 07.78 16.4 N Q68 C/2014 A4 (SONEAR) 2015 08 03.35 16.0 N W96 C/2014 AA52 (Catalina) 2015 08 25.01 18.9 N J01 C/2014 AA52 (Catalina) 2015 08 25.01 18.6 N J01 C/2014 AA52 (Catalina) 2015 08 22.97 17.7 N B96 C/2014 AA52 (Catalina) 2015 08 21.99 UT: m1 = 16.2, Dia. = 0.2', DC = .. C/2014 AA52 (Catalina) 2015 08 21.44 19.3 T F51 C/2014 AA52 (Catalina) 2015 08 20.94 17.9 T K41 C/2014 AA52 (Catalina) 2015 08 18.42 16.6 T 703 C/2014 AA52 (Catalina) 2015 08 12.96 18.6 T 215 C/2014 AA52 (Catalina) 2015 08 10.05 18.8 N J01 C/2014 AA52 (Catalina) 2015 08 08.70 18.2 T Q60 C/2014 AA52 (Catalina) 2015 08 05.37 17.8 T G45 P/2014 MG4 (Spacewatch-PANSTARRS) 2015 08 26.05 19.2 T 215 P/2014 MG4 (Spacewatch-PANSTARRS) 2015 08 21.55 21.0 T F51 P/2014 MG4 (Spacewatch-PANSTARRS) 2015 08 14.40 19.7 T G45 P/2014 MG4 (Spacewatch-PANSTARRS) 2015 08 05.40 19.1 T G45 C/2014 N3 (NEOWISE) 2015 08 26.99 14.9 N I81 C/2014 N3 (NEOWISE) 2015 08 26.97 17.0 N C47 C/2014 N3 (NEOWISE) 2015 08 25.02 15.7 N 939 C/2014 N3 (NEOWISE) 2015 08 17.09 16.2 N I81 C/2014 N3 (NEOWISE) 2015 08 15.04 UT: m1 = 15.0, Dia. = 0.3', DC = 4 C/2014 N3 (NEOWISE) 2015 08 14.89 15.8 N C36 C/2014 N3 (NEOWISE) 2015 08 11.07 16.2 N C23 C/2014 N3 (NEOWISE) 2015 08 09.95 16.2 N C36 C/2014 N3 (NEOWISE) 2015 08 08.95 16.2 N C36 C/2014 N3 (NEOWISE) 2015 08 06.01 16.6 N C23 C/2014 N3 (NEOWISE) 2015 08 05.97 15.6 N C36 C/2014 N3 (NEOWISE) 2015 08 03.41 15.9 N W96 C/2014 OE4 (PANSTARRS) 2015 08 20.86 18.9 N A77 C/2014 OE4 (PANSTARRS) 2015 08 06.87 18.6 N A71 C/2014 R1 (Borisov) 2015 08 06.32 21.0 T F51 C/2014 W2 (PANSTARRS) 2015 08 29.01 15.6 N C23 C/2014 W2 (PANSTARRS) 2015 08 27.15 UT: m1 = 14.4, Dia. = 0.2', DC = .. C/2014 W2 (PANSTARRS) 2015 08 27.04 17.0 N C47 C/2014 W2 (PANSTARRS) 2015 08 27.04 16.9 N C47 C/2014 W2 (PANSTARRS) 2015 08 24.03 15.4 N I81 C/2014 W2 (PANSTARRS) 2015 08 17.02 15.4 N I81 C/2014 W2 (PANSTARRS) 2015 08 15.01 UT: m1 = 15.3, Dia. = 0.25', DC = 2 C/2014 W2 (PANSTARRS) 2015 08 15.01 15.8 N C36 C/2014 W2 (PANSTARRS) 2015 08 10.03 16.0 N C36 C/2014 W2 (PANSTARRS) 2015 08 05.72 15.0 T 349 C/2015 A1 (PANSTARRS) 2015 08 25.65 20.5 N 474 P/2015 F1 (PANSTARRS) 2015 08 16.47 18.4 N E07 P/2015 F1 (PANSTARRS) 2015 08 14.36 20.2 N E07 C/2015 GX (PANSTARRS) 2015 08 12.89 18.0 N L04 C/2015 GX (PANSTARRS) 2015 08 10.87 18.4 N A71 C/2015 H2 (PANSTARRS) 2015 08 25.33 19.4 N 474 C/2015 J2 (PANSTARRS) 2015 08 25.35 20.0 N 474 C/2015 J2 (PANSTARRS) 2015 08 14.42 20.2 N E07 P/2015 J3 (NEOWISE) 2015 08 25.52 19.8 N 474 P/2015 J3 (NEOWISE) 2015 08 25.52 19.6 N 474 P/2015 J3 (NEOWISE) 2015 08 22.53 19.7 N 474 P/2015 J3 (NEOWISE) 2015 08 14.33 19.1 T G45 P/2015 J3 (NEOWISE) 2015 08 12.49 20.4 T F51 P/2015 J3 (NEOWISE) 2015 08 09.51 20.2 T F51 C/2015 K1 (MASTER) 2015 08 25.99 18.7 N C47 C/2015 K1 (MASTER) 2015 08 25.99 17.9 N C47 C/2015 K1 (MASTER) 2015 08 23.23 17.4 N G30 C/2015 K1 (MASTER) 2015 08 22.98 18.5 N C47 C/2015 K1 (MASTER) 2015 08 20.44 16.3 T 703 C/2015 K1 (MASTER) 2015 08 17.38 17.0 N W96 C/2015 K1 (MASTER) 2015 08 14.32 18.5 T Y00 C/2015 K1 (MASTER) 2015 08 11.04 18.3 N C47 C/2015 K1 (MASTER) 2015 08 07.73 16.8 N Q68 C/2015 LC2 (PANSTARRS) 2015 08 12.27 19.7 T F51 C/2015 LC2 (PANSTARRS) 2015 08 12.27 19.8 T F51 C/2015 M1 (PANSTARRS) 2015 08 21.44 21.1 N 474 C/2015 M1 (PANSTARRS) 2015 08 21.44 21.2 N 474 P/2015 M2 (PANSTARRS) 2015 08 25.44 19.4 N 474 P/2015 M2 (PANSTARRS) 2015 08 25.44 19.2 N 474 P/2015 M2 (PANSTARRS) 2015 08 22.49 19.2 N 474 P/2015 M2 (PANSTARRS) 2015 08 15.52 18.9 N E07 P/2015 M2 (PANSTARRS) 2015 08 11.36 19.8 T F51 C/2015 M3 (PANSTARRS) 2015 08 06.86 19.0 N 157 C/2015 O1 (PANSTARRS) 2015 08 22.45 18.3 N 474 C/2015 O1 (PANSTARRS) 2015 08 20.02 18.9 T Y00 C/2015 O1 (PANSTARRS) 2015 08 18.56 18.3 N Q62 C/2015 O1 (PANSTARRS) 2015 08 15.44 Q62 P/2015 P4 (PANSTARRS) 2015 08 26.04 19.7 T 215 P/2015 P4 (PANSTARRS) 2015 08 26.04 19.6 T 215 P/2015 P4 (PANSTARRS) 2015 08 21.49 20.9 T F51 P/2015 P4 (PANSTARRS) 2015 08 19.38 291 P/2015 Q1 (Scotti) 2015 08 27.91 19.2 N N55 P/2015 Q1 (Scotti) 2015 08 26.90 20.1 N N55 C/2015 Q1 (Scotti) 2015 08 26.90 19.9 N N55 C/2015 Q1 (Scotti) 2015 08 24.38 18.2 N W96 C/2015 Q1 (Scotti) 2015 08 20.47 291 C/2015 Q1 (Scotti) 2015 08 20.06 18.7 N A77 C/2015 Q1 (Scotti) 2015 08 19.47 18.3 T H06
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Альманах .. |
02.09.2015, 14:00 | #34 |
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Кометы наблюдаемые в сентябре 2015 года (после ~13.0m.) ..
Кометы в сентябре 2015 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 сентябре 2015 года .. 2P/Encke 2015 09 18.23 20.0 T 703 2P/Encke 2015 09 12.38 20.0 T F51 2P/Encke 2015 09 06.66 20.1 T D29 2P/Encke 2015 09 06.44 20.0 T 691 6P/d'Arrest 2015 09 19.60 20.2 T F51 6P/d'Arrest 2015 09 12.20 18.7 N G40 6P/d'Arrest 2015 09 09.11 19.1 T 215 7P/Pons-Winnecke 2015 09 21.05 18.7 N J22 7P/Pons-Winnecke 2015 09 14.31 19.1 N W96 7P/Pons-Winnecke 2015 09 14.21 UT: m1 = 16.7, Dia. = 0.2', DC = .., 0.5-m. L 7P/Pons-Winnecke 2015 09 07.12 UT: m1 = 15.1, Dia. = 0.2', DC = .., 0.5-m. L 42P/Neujmin 3 2015 09 23.40 20.0 T F51 42P/Neujmin 3 2015 09 18.40 18.9 T H15 42P/Neujmin 3 2015 09 08.75 18.2 T D29 42P/Neujmin 3 2015 09 06.31 18.7 T 691 43P/Wolf-Harrington 2015 09 12.92 UT: m1 = 19.6, Dia. = 0.2', DC = .., 0.5-m. L 43P/Wolf-Harrington 2015 09 12.92 19.7 N J22 ------------------------------------------- 43P/Wolf-Harrington 2015 07 15.45 20.7 T F51 44P/Reinmuth 2 2015 09 25.13 17.8 N I72 44P/Reinmuth 2 2015 09 25.13 17.9 N I72 44P/Reinmuth 2 2015 09 23.56 19.5 T F51 44P/Reinmuth 2 2015 09 23.12 UT: m1 = 17.4, Dia. = 0.2', DC = .., 0.5-m. L 44P/Reinmuth 2 2015 09 19.06 17.8 N C36 44P/Reinmuth 2 2015 09 16.23 UT: m1 = 16.7, Dia. = 0.2', DC = .., 0.5-m. L 44P/Reinmuth 2 2015 09 15.49 17.9 T G45 44P/Reinmuth 2 2015 09 11.05 18.1 N I81 44P/Reinmuth 2 2015 09 09.11 UT: m1 = 15.4, Dia. = 0.2', DC = .., 0.5-m. L 44P/Reinmuth 2 2015 09 06.16 17.2 N A77 50P/Arend 2015 09 20.99 17.4 N J22 50P/Arend 2015 09 20.97 ..Z: m1 = 16.6, Dia. = 0.54', DC = .., 0.305-m. SCT, f6.15 + CCD 50P/Arend 2015 09 20.97 17.4 N B82 50P/Arend 2015 09 20.60 17.3 T Q60 50P/Arend 2015 09 19.00 UT: m1 = 16.7, Dia. = 0.47', DC = .., 0.305-m. SCT, f6.15 + CCD 50P/Arend 2015 09 15.26 17.4 T G45 50P/Arend 2015 09 13.04 UT: m1 = 16.9, Dia. = 0.3', DC = .., 0.5-m. L 50P/Arend 2015 09 13.04 17.5 N J22 50P/Arend 2015 09 06.36 17.8 T 703 50P/Arend 2015 09 04.04 UT: m1 = 15.7, Dia. = 0.2', DC = .., 0.5-m. L 51P/Harrington 2015 09 20.99 19.5 T A71 51P/Harrington 2015 09 14.18 UT: m1 = 18.7, Dia. = 0.2', DC = .., 0.5-m. L 51P/Harrington 2015 09 14.18 19.3 N J22 51P/Harrington 2015 09 07.10 19.3 N J22 51P/Harrington 2015 09 07.10 UT: m1 = 16.7, Dia. = 0.2', DC = .., 0.5-m. L 56P/Slaughter-Burnham 2015 09 08.17 20.8 N W96 57P/du Toit-Neujmin-Delporte 2015 09 24.92 16.5 N 939 57P/du Toit-Neujmin-Delporte 2015 09 18.36 16.1 T G96 57P/du Toit-Neujmin-Delporte 2015 09 14.17 UT: m1 = 14.8, Dia. = 0.5', DC = .., 0.5-m. L 57P/du Toit-Neujmin-Delporte 2015 09 13.06 UT: m1 = 15.1, Dia. = 0.6', DC = 2, 0.603-m. L (x244). 57P/du Toit-Neujmin-Delporte 2015 09 13.05 16.3 N C35 57P/du Toit-Neujmin-Delporte 2015 09 10.15 ..Z: m1 = 14.8, Dia. = 1.59', DC = .., 0.305-m. SCT, f6 (х0). 57P/du Toit-Neujmin-Delporte 2015 09 08.38 16.8 N H47 57P/du Toit-Neujmin-Delporte 2015 09 07.06 UT: m1 = 14.5, Dia. = 0.4', DC = .., 0.5-m. L 57P/du Toit-Neujmin-Delporte 2015 09 04.97 17.9 T L96 61P/Shajn-Schaldach 2015 09 25.11 16.6 N I72 61P/Shajn-Schaldach 2015 09 24.98 16.5 N 939 61P/Shajn-Schaldach 2015 09 19.44 16.7 N H47 61P/Shajn-Schaldach 2015 09 15.39 16.4 N H45 61P/Shajn-Schaldach 2015 09 14.19 UT: m1 = 15.0, Dia. = 0.4', DC = .., 0.5-m. L 61P/Shajn-Schaldach 2015 09 12.97 UT: m1 = 15.3, Dia. = 0.6', DC = 2, 0.603-m. L (x305). 61P/Shajn-Schaldach 2015 09 07.09 UT: m1 = 15.3, Dia. = 0.3', DC = .., 0.5-m. L 61P/Shajn-Schaldach 2015 09 07.08 16.8 N A24 61P/Shajn-Schaldach 2015 09 05.91 16.6 N C36 61P/Shajn-Schaldach 2015 09 04.33 17.3 N W96 74P/Smirnova-Chernykh 2015 09 24.35 19.2 N W96 74P/Smirnova-Chernykh 2015 09 23.15 UT: m1 = 18.9, Dia. = 0.2', DC = .., 0.5-m. L 74P/Smirnova-Chernykh 2015 09 16.20 UT: m1 = 18.8, Dia. = 0.2', DC = .., 0.5-m. L 74P/Smirnova-Chernykh 2015 09 16.20 19.1 N J22 74P/Smirnova-Chernykh 2015 09 13.09 19.1 N I81 74P/Smirnova-Chernykh 2015 09 08.23 UT: m1 = 18.1, Dia. = 0.2', DC = .., 0.5-m. L 81P/Wild 2 2015 09 29.35 17.7 N W96 81P/Wild 2 2015 09 24.31 18.6 N W96 81P/Wild 2 2015 09 17.20 UT: m1 = 17.8, Dia. = 0.2', DC = .., 0.5-m. L 81P/Wild 2 2015 09 17.20 18.0 N J22 81P/Wild 2 2015 09 10.21 18.4 N J22 81P/Wild 2 2015 09 10.21 UT: m1 = 18.0, Dia. = 0.2', DC = .., 0.5-m. L 92P/Sanguin 2015 09 19.60 20.2 T F51 95P/Chiron 2015 09 16.99 UT: m1 = 17.5, Dia. = 0.2', DC = .., 0.5-m. L 95P/Chiron 2015 09 06.99 UT: m1 = 17.7, Dia. = 0.2', DC = .., 0.5-m. L 117P/Helin-Roman-Alu 1 2015 09 25.10 16.3 N I72 117P/Helin-Roman-Alu 1 2015 09 24.94 16.2 N 939 117P/Helin-Roman-Alu 1 2015 09 19.95 15.8 N B18 117P/Helin-Roman-Alu 1 2015 09 16.08 UT: m1 = 15.4, Dia. = 0.3', DC = .., 0.5-m. L 117P/Helin-Roman-Alu 1 2015 09 13.03 16.8 N C47 117P/Helin-Roman-Alu 1 2015 09 12.98 UT: m1 = 15.2, Dia. = 0.4', DC = 4, 0.603-m. L (x305). 117P/Helin-Roman-Alu 1 2015 09 08.42 16.4 N H47 117P/Helin-Roman-Alu 1 2015 09 07.07 UT: m1 = 15.4, Dia. = 0.2', DC = .., 0.5-m. L 118P/Shoemaker-Levy 4 2015 09 25.47 18.6 T F51 118P/Shoemaker-Levy 4 2015 09 24.36 17.7 T 703 118P/Shoemaker-Levy 4 2015 09 18.28 17.8 T 703 118P/Shoemaker-Levy 4 2015 09 15.35 18.4 T G45 127P/Holt-Olmstead 2015 09 05.08 20.1 N W96 134P/Kowal-Vavrova 2015 09 08.41 21.7 T F51 136P/Mueller 3 2015 09 05.30 21.1 T F51 141P-H/Machholz 2015 09 13.48 ..C: m1 = 14.8, Dia. = 3', DC = .., 0.106-m. R, f5 (x780). 141P-H/Machholz 2015 09 01.47 ..C: m1 = 14.7, Dia. = 3', DC = .., 0.106-m. R, f5 (x900). 151P/Helin 2015 09 25.33 17.7 N W96 151P/Helin 2015 09 18.95 17.4 N C36 151P/Helin 2015 09 13.51 16.9 T 367 151P/Helin 2015 09 06.35 17.4 T 703 157P/Tritton 2015 09 16.93 UT: m1 = 19.3, Dia. = 0.2', DC = .., 0.5-m. L 157P/Tritton 2015 09 16.93 19.9 N J22 157P/Tritton 2015 09 06.98 20.4 N J22 157P/Tritton 2015 09 06.98 UT: m1 = 20.1, Dia. = 0.2', DC = .., 0.5-m. L 162P/Siding Spring 2015 09 27.23 UT: m1 = 17.3, Dia. = 0.2', DC = .., 0.5-m. L 162P/Siding Spring 2015 09 27.22 17.6 N J22 162P/Siding Spring 2015 09 21.14 16.9 N C23 162P/Siding Spring 2015 09 15.00 17.4 N C36 162P/Siding Spring 2015 09 14.24 UT: m1 = 16.7, Dia. = 0.2', DC = .., 0.5-m. L 162P/Siding Spring 2015 09 07.09 16.8 N I81 162P/Siding Spring 2015 09 02.12 17.4 N C10 174P/Echeclus 2015 09 22.98 UT: m1 = 16.1, Dia. = 0.2', DC = .., 0.5-m. L 174P/Echeclus 2015 09 21.01 UT: m1 = 16.5, Dia. = 0.2', DC = .., 0.5-m. L 174P/Echeclus 2015 09 19.01 UT: m1 = 16.3, Dia. = 0.2', DC = .., 0.5-m. L 174P/Echeclus 2015 09 18.31 UT: m1 = 16.8, Dia. = 0.3', DC = .., 0.61-m. C, f10 + CCD 174P/Echeclus 2015 09 16.98 UT: m1 = 16.1, Dia. = 0.2', DC = .., 0.5-m. L 174P/Echeclus 2015 09 12.99 UT: m1 = [15.8, Dia. = ..', DC = .., 0.603-m. L (x305). 174P/Echeclus 2015 09 12.05 UT: m1 = 16.4, Dia. = 0.2', DC = 3, 0.5-m. L 174P/Echeclus 2015 09 10.33 UT: m1 = 16.6, Dia. = 0.2', DC = 3, 0.61-m. CL 174P/Echeclus 2015 09 09.04 UT: m1 = 16.3, Dia. = 0.2', DC = .., 0.5-m. L 174P/Echeclus 2015 09 07.04 UT: m1 = 16.5, Dia. = 0.2', DC = .., 0.5-m. L 174P/Echeclus 2015 09 05.08 UT: m1 = 16.5, Dia. = 0.2', DC = .., 0.5-m. L 190P/Mueller 2015 09 06.28 20.5 T F51 205P/Giacobini 2015 09 30.14 UT: m1 = 15.2, Dia. = 0.9', DC = .., хвост = 0.02°, pa = 267°, 0.2-m. L, f4 (x240). 205P/Giacobini 2015 09 27.14 15.8 N C10 205P/Giacobini 2015 09 25.37 16.6 N W96 205P/Giacobini 2015 09 25.18 UT: m1 = 15.0, Dia. = 0.8', DC = .., хвост = 0.02°, pa = 266°, 0.15-m. R, f7 (x780). 205P/Giacobini 2015 09 23.16 UT: m1 = 13.9, Dia. = 0.3', DC = .., хвост = 0.5', pa = 264°, 0.5-m. L 205P/Giacobini 2015 09 22.06 UT: m1 = 14.8, Dia. = 0.4', DC = 4 205P/Giacobini 2015 09 21.75 UT: m1 = 13.7, Dia. = 0.4', DC = 4, 0.40-m. L, f4.5 (x257). 205P/Giacobini 2015 09 20.49 UT: m1 = 14.1, Dia. = 0.7', DC = .., хвост = 37', pa = 269° 205P/Giacobini 2015 09 20.38 15.7 N W96 205P/Giacobini 2015 09 19.08 UT: m1 = 14.7, Dia. = 1.3', DC = .., хвост = 0.03°, pa = 265°, 0.2-m. L, f4 (x100). 205P/Giacobini 2015 09 16.22 UT: m1 = 13.9, Dia. = 0.5', DC = .., 0.5-m. L 205P/Giacobini 2015 09 14.21 15.6 N G40 205P/Giacobini 2015 09 13.08 UT: m1 = 14.9, Dia. = 0.2', DC = 6, 0.603-m. L (x305). 205P/Giacobini 2015 09 09.12 UT: m1 = 15.7, Dia. = 0.2', DC = .., 0.5-m. L ------------------------------------------------------ 205P/Giacobini 2015 08 28.61 21.0 T F51 218P/LINEAR 2015 09 15.95 UT: m1 = 18.5, Dia. = 0.2', DC = .., 0.5-m. L 218P/LINEAR 2015 09 15.95 19.6 N J22 218P/LINEAR 2015 09 08.41 21.2 T F51 220P/McNaught 2015 09 23.11 18.6 N J22 220P/McNaught 2015 09 16.17 UT: m1 = 17.9, Dia. = 0.2', DC = .., 0.5-m. L 220P/McNaught 2015 09 16.16 18.6 N J22 220P/McNaught 2015 09 14.22 18.7 T Z22 220P/McNaught 2015 09 13.04 UT: m1 = [15.8, Dia. = ..', DC = .., 0.603-m. L (x305). 220P/McNaught 2015 09 08.21 UT: m1 = 17.4, Dia. = 0.2', DC = .., 0.5-m. L 221P/LINEAR 2015 09 23.82 17.2 N C23 221P/LINEAR 2015 09 23.82 18.4 N A77 221P/LINEAR 2015 09 12.34 C51 230P/LINEAR 2015 09 26.39 16.8 N H47 230P/LINEAR 2015 09 25.46 16.9 N H47 230P/LINEAR 2015 09 23.15 UT: m1 = 16.8, Dia. = 0.2', DC = .., 0.5-m. L 230P/LINEAR 2015 09 19.13 16.9 N G38 230P/LINEAR 2015 09 16.18 UT: m1 = 16.6, Dia. = 0.2', DC = .., 0.5-m. L 230P/LINEAR 2015 09 11.10 17.0 N C23 230P/LINEAR 2015 09 08.20 UT: m1 = 17.1, Dia. = 0.2', DC = .., 0.5-m. L 230P/LINEAR 2015 09 04.38 17.7 N W96 252P/LINEAR 2015 09 15.61 23.6 T 568 287P/Christensen 2015 09 15.41 18.9 T G45 287P/Christensen 2015 09 15.41 18.4 T G45 287P/Christensen 2015 09 08.58 20.2 T F51 299P/Catalina-PANSTARRS 2015 09 12.44 18.5 N Q68 308P/Lagerkvist-Carsenty 2015 09 19.55 20.9 T F51 317P/WISE 2015 09 14.40 21.3 T Q62 318P/McNaught-Hartley 2015 09 25.29 16.6 N W96 318P/McNaught-Hartley 2015 09 16.95 UT: m1 = 13.8, Dia. = 0.5', DC = .., 0.5-m. L 318P/McNaught-Hartley 2015 09 16.95 15.9 N J22 318P/McNaught-Hartley 2015 09 12.69 16.5 N E94 318P/McNaught-Hartley 2015 09 09.55 17.6 N E07 318P/McNaught-Hartley 2015 09 05.16 16.3 N W96 318P/McNaught-Hartley 2015 09 04.03 UT: m1 = 13.4, Dia. = 0.3', DC = .., 0.5-m. L 318P/McNaught-Hartley 2015 09 03.26 16.0 N W96 319P/Catalina-McNaught 2015 09 23.13 18.8 N J22 319P/Catalina-McNaught 2015 09 23.13 UT: m1 = 18.2, Dia. = 0.2', DC = .., 0.5-m. L 319P/Catalina-McNaught 2015 09 22.25 18.8 N W96 319P/Catalina-McNaught 2015 09 16.16 UT: m1 = 15.4, Dia. = 0.2', DC = .., 0.5-m. L 319P/Catalina-McNaught 2015 09 16.15 18.6 N J22 319P/Catalina-McNaught 2015 09 14.37 18.9 N W96 319P/Catalina-McNaught 2015 09 08.19 UT: m1 = 15.7, Dia. = 0.2', DC = .., 0.5-m. L 320P/McNaught 2015 09 09.84 19.6 T 215 320P/McNaught 2015 09 09.84 19.2 T 215 320P/McNaught 2015 09 04.91 G40 325P/Yang-Gao 2015 09 06.01 18.4 N W96 326P/Hill 2015 09 24.39 18.5 T 703 326P/Hill 2015 09 18.37 18.8 T 703 326P/Hill 2015 09 12.51 21.1 T F51 326P/Hill 2015 09 07.80 19.8 T D29 327P/Van Ness 2015 09 29.66 C51 327P/Van Ness 2015 09 17.85 19.0 N K25 327P/Van Ness 2015 09 11.87 19.8 N K25 327P/Van Ness 2015 09 07.85 19.1 N K25 327P/Van Ness 2015 09 03.89 G40 P/2010 H2 (Vales) 2015 09 25.14 18.7 N I72 C/2010 U3 (Boattini) 2015 09 22.03 18.5 N J22 C/2010 U3 (Boattini) 2015 09 13.01 19.3 T 461 C/2010 U3 (Boattini) 2015 09 09.11 18.6 T 215 C/2010 U3 (Boattini) 2015 09 08.24 UT: m1 = 16.4, Dia. = 0.2', DC = .., 0.5-m. L C/2010 U3 (Boattini) 2015 09 02.00 19.0 N C10 C/2011 J2 (LINEAR) 2015 09 24.87 17.4 N K61 C/2011 J2 (LINEAR) 2015 09 19.84 17.5 N B18 C/2011 J2 (LINEAR) 2015 09 13.06 16.6 N C35 C/2011 J2 (LINEAR) 2015 09 07.99 17.3 N G40 C/2011 J2 (LINEAR) 2015 09 06.92 UT: m1 = 15.5, Dia. = 0.15', DC = 4, 0.603-m. L (х305). C/2011 J2 (LINEAR) 2015 09 05.70 18.1 N E94 C/2012 F3 (PANSTARRS) 2015 09 23.52 15.9 N Q68 C/2012 F3 (PANSTARRS) 2015 09 20.82 16.4 N K25 C/2012 F3 (PANSTARRS) 2015 09 14.88 ..Z: m1 = 14.3, Dia. = 1.19', DC = .., 0.305-m. T, f6 (х0). C/2012 F3 (PANSTARRS) 2015 09 14.87 16.0 N B82 C/2012 F3 (PANSTARRS) 2015 09 06.83 UT: m1 = 14.7, Dia. = 0.15', DC = 4, 0.603-m. L (х305). C/2012 F3 (PANSTARRS) 2015 09 05.11 16.9 N 750 C/2012 K1 (PANSTARRS) 2015 09 24.07 17.6 T Y00 C/2012 K1 (PANSTARRS) 2015 09 21.02 UT: m1 = 13.1, Dia. = 0.3', DC = .., 0.5-m. L C/2012 K1 (PANSTARRS) 2015 09 18.54 16.9 T Q60 C/2012 K1 (PANSTARRS) 2015 09 14.71 17.1 T Q60 C/2012 K1 (PANSTARRS) 2015 09 14.31 ..C: m1 = 14.7, Dia. = 2.5', DC = 3, 0.106-m. R, f5 (х440). C/2012 K1 (PANSTARRS) 2015 09 12.12 UT: m1 = 13.8, Dia. = 0.4', DC = 3, 0.5-m. L C/2012 K1 (PANSTARRS) 2015 09 05.72 17.0 N E94 C/2012 K1 (PANSTARRS) 2015 09 04.05 UT: m1 = 13.8, Dia. = 0.4', DC = .., 0.5-m. L C/2012 K8 (Lemmon) 2015 09 09.84 18.3 N C23 C/2012 LP26 (Palomar) 2015 09 29.47 17.9 T 900 C/2012 LP26 (Palomar) 2015 09 14.58 18.5 N Q68 C/2012 LP26 (Palomar) 2015 09 12.86 17.9 T 461 C/2012 LP26 (Palomar) 2015 09 05.97 18.3 N G40 C/2012 X1 (LINEAR) 2015 09 13.61 19.9 T Q60 C/2013 A1 (Siding Spring) 2015 09 23.79 17.7 N C23 C/2013 A1 (Siding Spring) 2015 09 19.79 UT: m1 = 17.3, Dia. = 0.29', DC = .., 0.305-m. SCT, f6.15 (x0). C/2013 A1 (Siding Spring) 2015 09 19.79 17.8 N B82 C/2013 A1 (Siding Spring) 2015 09 11.82 17.7 N B82 C/2013 A1 (Siding Spring) 2015 09 11.81 UT: m1 = 17.2, Dia. = 0.33', DC = .., 0.305-m. SCT C/2013 G3 (PANSTARRS) 2015 09 11.83 17.8 N C23 C/2013 G3 (PANSTARRS) 2015 09 06.96 18.3 N G40 C/2013 P3 (Palomar) 2015 09 24.60 17.7 T Q60 C/2013 P3 (Palomar) 2015 09 18.75 17.5 T Q60 C/2013 P3 (Palomar) 2015 09 13.99 18.2 T 461 C/2013 P3 (Palomar) 2015 09 08.53 19.2 T F51 C/2013 V4 (Catalina) 2015 09 27.22 16.2 N J22 C/2013 V4 (Catalina) 2015 09 27.22 UT: m1 = 15.0, Dia. = 0.3', DC = .., 0.5-m. L C/2013 V4 (Catalina) 2015 09 24.83 17.0 N K61 C/2013 V4 (Catalina) 2015 09 18.97 16.2 N I72 C/2013 V4 (Catalina) 2015 09 17.11 UT: m1 = 15.0, Dia. = 0.4', DC = .., 0.5-m. L C/2013 V4 (Catalina) 2015 09 16.21 UT: m1 = 15.0, Dia. = 0.3', DC = .., 0.5-m. L C/2013 V4 (Catalina) 2015 09 13.07 UT: m1 = 14.9, Dia. = 0.7', DC = 2, 0.603-m. L (x305). C/2013 V4 (Catalina) 2015 09 13.05 16.1 N I81 C/2013 V4 (Catalina) 2015 09 09.10 UT: m1 = 15.2, Dia. = 0.4', DC = .., 0.5-m. L C/2013 V4 (Catalina) 2015 09 07.07 16.3 N I81 C/2013 V4 (Catalina) 2015 09 02.08 16.4 N C10 C/2014 A4 (SONEAR) 2015 09 25.40 16.3 N H47 C/2014 A4 (SONEAR) 2015 09 20.04 UT: m1 = 14.0, Dia. = ..', DC = 1.5, 0.42-m. L (х139.4). C/2014 A4 (SONEAR) 2015 09 19.98 15.9 N I99 C/2014 A4 (SONEAR) 2015 09 13.01 15.4 N C35 C/2014 A4 (SONEAR) 2015 09 13.00 UT: m1 = 15.6, Dia. = 0.3', DC = 5, 0.603-m. L (x305). C/2014 A4 (SONEAR) 2015 09 09.14 17.0 N A77 C/2014 A4 (SONEAR) 2015 09 07.13 UT: m1 = 15.2, Dia. = 0.4', DC = .., 0.5-m. L C/2014 AA52 (Catalina) 2015 09 20.55 18.8 T 900 C/2014 AA52 (Catalina) 2015 09 16.94 18.4 N J22 C/2014 AA52 (Catalina) 2015 09 09.96 17.3 N B96 C/2014 AA52 (Catalina) 2015 09 06.89 UT: m1 = [15.8, Dia. = ..', DC = .., 0.603-m. L (x305). C/2014 AA52 (Catalina) 2015 09 06.41 20.1 T F51 C/2014 AA52 (Catalina) 2015 09 06.17 17.3 T 703 C/2014 AA52 (Catalina) 2015 09 03.94 UT: m1 = 16.5, Dia. = 0.2', DC = .., 0.5-m. L C/2014 L5 (Lemmon) 2015 09 14.19 20.0 T H06 C/2014 L5 (Lemmon) 2015 09 14.19 H06 C/2014 M1 (PANSTARRS) 2015 09 12.38 19.7 T Q62 C/2014 M1 (PANSTARRS) 2015 09 12.38 Q62 C/2014 M2 (Christensen) 2015 09 10.94 18.4 N B96 P/2014 MG4 (Spacewatch-PANSTARRS) 2015 09 23.36 20.3 T F51 P/2014 MG4 (Spacewatch-PANSTARRS) 2015 09 17.30 19.2 T 703 P/2014 MG4 (Spacewatch-PANSTARRS) 2015 09 15.29 19.2 T G45 P/2014 MG4 (Spacewatch-PANSTARRS) 2015 09 11.34 19.1 T G45 P/2014 MG4 (Spacewatch-PANSTARRS) 2015 09 08.70 18.9 T D29 P/2014 MG4 (Spacewatch-PANSTARRS) 2015 09 06.04 19.9 N I93 C/2014 N3 (NEOWISE) 2015 09 24.89 15.8 N 939 C/2014 N3 (NEOWISE) 2015 09 18.81 16.1 N C36 C/2014 N3 (NEOWISE) 2015 09 15.19 16.3 N 850 C/2014 N3 (NEOWISE) 2015 09 08.17 UT: m1 = 14.3, Dia. = 0.6', DC = .., 0.5-m. L C/2014 N3 (NEOWISE) 2015 09 07.08 16.8 N A24 C/2014 N3 (NEOWISE) 2015 09 06.14 15.7 N A77 C/2014 N3 (NEOWISE) 2015 09 03.14 16.1 N Z81 C/2014 OE4 (PANSTARRS) 2015 09 10.82 18.1 T 215 C/2014 OE4 (PANSTARRS) 2015 09 10.82 18.3 T 215 C/2014 Q6 (PANSTARRS) 2015 09 10.92 21.4 N C95 C/2014 R3 (PANSTARRS) 2015 09 13.77 18.1 N 461 C/2014 S1 (PANSTARRS) 2015 09 13.56 21.3 N 474 C/2014 W2 (PANSTARRS) 2015 09 25.16 14.8 N I72 C/2014 W2 (PANSTARRS) 2015 09 25.08 14.7 N 939 C/2014 W2 (PANSTARRS) 2015 09 23.12 UT: m1 = 13.6, Dia. = 0.3', DC = .., 0.5-m. L C/2014 W2 (PANSTARRS) 2015 09 19.15 UT: m1 = 13.9, Dia. = 0.3', DC = 4, 0.44-m. L, f5 (x156). C/2014 W2 (PANSTARRS) 2015 09 17.99 15.3 N C23 C/2014 W2 (PANSTARRS) 2015 09 16.25 UT: m1 = 13.8, Dia. = 0.5', DC = .., 0.5-m. L C/2014 W2 (PANSTARRS) 2015 09 13.00 16.2 T 215 C/2014 W2 (PANSTARRS) 2015 09 09.13 UT: m1 = 14.4, Dia. = 0.5', DC = .., 0.5-m. L C/2014 W2 (PANSTARRS) 2015 09 06.93 UT: m1 = 14.4, Dia. = 0.6', DC = 3, 0.603-m. L (x305). C/2015 A1 (PANSTARRS) 2015 09 13.47 21.0 N 474 C/2015 GX (PANSTARRS) 2015 09 15.48 16.9 T H06 C/2015 GX (PANSTARRS) 2015 09 15.48 H06 C/2015 G2 (MASTER) 2015 09 27.10 16.4 N B96 C/2015 G2 (MASTER) 2015 09 23.23 UT: m1 = 14.6, Dia. = 0.3', DC = .., хвост = 1.5', pa = 143°, 0.5-m. L C/2015 G2 (MASTER) 2015 09 21.80 367 C/2015 G2 (MASTER) 2015 09 21.15 15.9 N A77 C/2015 G2 (MASTER) 2015 09 14.25 UT: m1 = 12.9, Dia. = 0.2', DC = .., 0.5-m. L C/2015 G2 (MASTER) 2015 09 13.48 ..C: m1 = 13.8, Dia. = 2.5', DC = .., хвост = 0.07°, pa = 142°, 0.106-m. R, f5 (x780). C/2015 G2 (MASTER) 2015 09 13.12 UT: m1 = 13.8, Dia. = 0.4', DC = 2, 0.603-m. L (x244). C/2015 G2 (MASTER) 2015 09 10.15 16.5 N B96 C/2015 G2 (MASTER) 2015 09 09.12 16.1 N 215 P/2015 J3 (NEOWISE) 2015 09 07.49 20.8 N 474 C/2015 K1 (MASTER) 2015 09 23.89 17.1 N C23 C/2015 K1 (MASTER) 2015 09 23.89 16.8 N C23 C/2015 K1 (MASTER) 2015 09 18.38 16.5 T G96 C/2015 K1 (MASTER) 2015 09 15.34 16.1 T G45 C/2015 K1 (MASTER) 2015 09 12.95 UT: m1 = 15.4, Dia. = 0.5', DC = 3, 0.603-m. L (x305). C/2015 K1 (MASTER) 2015 09 11.49 18.6 T F51 C/2015 K1 (MASTER) 2015 09 08.74 16.1 T D29 C/2015 K1 (MASTER) 2015 09 06.38 16.1 T 703 C/2015 K1 (MASTER) 2015 09 03.88 16.5 T C41 C/2015 LC2 (PANSTARRS) 2015 09 23.38 17.9 T Q62 C/2015 LC2 (PANSTARRS) 2015 09 23.38 Q62 P/2015 M2 (PANSTARRS) 2015 09 06.32 20.2 T F51 C/2015 M3 (PANSTARRS) 2015 09 14.18 19.9 T H06 C/2015 M3 (PANSTARRS) 2015 09 08.83 19.8 N A71 C/2015 O1 (PANSTARRS) 2015 09 16.93 19.0 T Y00 C/2015 O1 (PANSTARRS) 2015 09 03.93 UT: m1 = 16.4, Dia. = 0.2', DC = .., 0.5-m. L C/2015 O1 (PANSTARRS) 2015 09 03.93 18.3 N J22 C/2015 O1 (PANSTARRS) 2015 09 03.87 18.6 N K25 P/2015 P4 (PANSTARRS) 2015 09 21.63 19.5 N 372 P/2015 P4 (PANSTARRS) 2015 09 18.43 19.9 T Q60 P/2015 P4 (PANSTARRS) 2015 09 14.63 19.7 T Q60 P/2015 P4 (PANSTARRS) 2015 09 07.56 19.6 N 474 P/2015 Q1 (Scotti) 2015 09 24.47 16.9 T 291 P/2015 Q1 (Scotti) 2015 09 23.17 UT: m1 = 17.3, Dia. = 0.2', DC = .., 0.5-m. L P/2015 Q1 (Scotti) 2015 09 19.11 17.2 N G38 P/2015 Q1 (Scotti) 2015 09 12.70 C51 P/2015 Q1 (Scotti) 2015 09 09.13 UT: m1 = 17.7, Dia. = 0.2', DC = .., 0.5-m. L P/2015 Q2 (Pimentel) 2015 09 24.22 17.9 N W96 P/2015 Q2 (Pimentel) 2015 09 12.38 18.4 N W88 P/2015 Q2 (Pimentel) 2015 09 06.62 18.1 N 474 P/2015 Q2 (Pimentel) 2015 09 01.56 17.9 T Q62 P/2015 R1 (PANSTARRS) 2015 09 25.57 19.2 T F51 C/2015 R1 (PANSTARRS) 2015 09 15.44 19.0 T G45 C/2015 R1 (PANSTARRS) 2015 09 12.98 18.4 T 215 C/2015 R1 (PANSTARRS) 2015 09 10.17 18.8 T G40 P/2015 R2 (PANSTARRS) 2015 09 18.59 19.9 N 372 P/2015 R2 (PANSTARRS) 2015 09 15.99 19.8 T J22 P/2015 R2 (PANSTARRS) 2015 09 13.01 20.2 T J22 C/2015 R3 (PANSTARRS) 2015 09 16.14 21.5 T J22 C/2015 R3 (PANSTARRS) 2015 09 15.38 20.2 T W96
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Альманах .. |
03.10.2015, 11:08 | #35 |
Модератор
Регистрация: 20.05.2007
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Кометы наблюдаемые в октябре 2015 года (после ~13.0m.) ..
Кометы в октябре 2015 года .: Приведённый перечень комет блеск которых превышает уровень в ~13.0m., в той или иной мере доступных для наблюдения в разные телескопы, на разных широтах, в октябре 2015 года .. 2P/Encke 2015 10 09.59 19.8 T D29 6P/d'Arrest 2015 10 14.56 20.4 T F51 6P/d'Arrest 2015 10 09.56 20.5 T F51 7P/Pons-Winnecke 2015 10 20.00 UT: m1 = 17.9, Dia. = 0.2', DC = .., хвост = 1.7', pa = 248°, 0.50-m. L, f3 (x150). 7P/Pons-Winnecke 2015 10 17.32 19.1 T G45 7P/Pons-Winnecke 2015 10 13.33 18.6 T 703 7P/Pons-Winnecke 2015 10 08.15 UT: m1 = 16.9, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). 7P/Pons-Winnecke 2015 10 03.50 19.4 T F51 42P/Neujmin 3 2015 10 09.19 18.8 T 703 43P/Wolf-Harrington 2015 10 10.88 19.7 N J22 43P/Wolf-Harrington 2015 10 10.88 UT: m1 = 19.4, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). 44P/Reinmuth 2 2015 10 20.78 17.1 T D29 44P/Reinmuth 2 2015 10 20.78 17.0 T D29 44P/Reinmuth 2 2015 10 17.17 UT: m1 = 16.7, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x110). 44P/Reinmuth 2 2015 10 16.98 17.4 N I81 44P/Reinmuth 2 2015 10 12.95 17.4 N C36 44P/Reinmuth 2 2015 10 10.05 17.6 N 213 44P/Reinmuth 2 2015 10 08.23 UT: m1 = 16.6, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x110). 44P/Reinmuth 2 2015 10 05.12 17.4 N I81 50P/Arend 2015 10 31.85 UT: m1 = 15.8, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). 50P/Arend 2015 10 19.83 UT: m1 = 14.8, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). 50P/Arend 2015 10 19.83 17.6 N J22 50P/Arend 2015 10 17.53 17.5 T D29 50P/Arend 2015 10 10.65 UT: m1 = 17.3, Dia. = ..', DC = .., 0.51-m. Y, f4 (x47). 50P/Arend 2015 10 10.16 17.3 T 703 50P/Arend 2015 10 05.93 UT: m1 = 16.3, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). 50P/Arend 2015 10 03.84 18.4 N A71 50P/Arend 2015 10 02.65 17.9 T D29 51P/Harrington 2015 10 20.02 UT: m1 = 17.6, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). 51P/Harrington 2015 10 20.02 18.8 N J22 51P/Harrington 2015 10 15.55 20.4 T F51 51P/Harrington 2015 10 12.46 20.2 T F51 51P/Harrington 2015 10 08.16 UT: m1 = 16.9, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). 57P/du Toit-Neujmin-Delporte 2015 10 30.93 UT: m1 = 15.7, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). 57P/du Toit-Neujmin-Delporte 2015 10 28.30 19.4 T F51 57P/du Toit-Neujmin-Delporte 2015 10 19.96 UT: m1 = 14.5, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x150). 57P/du Toit-Neujmin-Delporte 2015 10 19.96 17.4 N J22 57P/du Toit-Neujmin-Delporte 2015 10 15.42 16.4 T Q60 57P/du Toit-Neujmin-Delporte 2015 10 12.41 18.6 T F51 57P/du Toit-Neujmin-Delporte 2015 10 11.25 16.3 T G45 57P/du Toit-Neujmin-Delporte 2015 10 10.65 UT: m1 = 15.3, Dia. = 0.8', DC = .., хвост = 1.0', pa = 247°, 0.51-m. Y, f4 (x47). 57P/du Toit-Neujmin-Delporte 2015 10 08.40 18.6 T F51 57P/du Toit-Neujmin-Delporte 2015 10 06.99 18.3 T Y00 57P/du Toit-Neujmin-Delporte 2015 10 02.57 16.8 N Q68 61P/Shajn-Schaldach 2015 10 26.03 16.1 N C10 61P/Shajn-Schaldach 2015 10 24.34 15.5 T G96 61P/Shajn-Schaldach 2015 10 23.34 16.7 N W96 61P/Shajn-Schaldach 2015 10 20.03 UT: m1 = 14.1, Dia. = 0.8', DC = .., 0.50-m. L, f3 (x120). 61P/Shajn-Schaldach 2015 10 16.95 16.7 N A77 61P/Shajn-Schaldach 2015 10 12.46 18.0 T F51 61P/Shajn-Schaldach 2015 10 10.10 17.3 N J01 61P/Shajn-Schaldach 2015 10 09.13 UT: m1 = 14.6, Dia. = 0.3', DC = .., хвост = 1.3', pa = 259°, 0.50-m. L, f3 (x120). 61P/Shajn-Schaldach 2015 10 08.72 15.0 T 349 61P/Shajn-Schaldach 2015 10 06.73 UT: m1 = 15.2, Dia. = 0.6', DC = .., хвост = 2.8', pa = 257°, 0.51-m. Y, f4 (x47). 61P/Shajn-Schaldach 2015 10 03.95 17.8 N A71 61P/Shajn-Schaldach 2015 10 02.60 16.7 N Q68 74P/Smirnova-Chernykh 2015 10 22.39 18.5 T G45 74P/Smirnova-Chernykh 2015 10 22.39 18.6 T G45 74P/Smirnova-Chernykh 2015 10 20.07 UT: m1 = 18.1, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). 74P/Smirnova-Chernykh 2015 10 18.62 18.3 N Q21 74P/Smirnova-Chernykh 2015 10 16.80 18.9 T D29 74P/Smirnova-Chernykh 2015 10 11.84 18.7 T D29 74P/Smirnova-Chernykh 2015 10 08.46 20.1 T F51 81P/Wild 2 2015 10 25.13 16.9 N I81 81P/Wild 2 2015 10 20.22 UT: m1 = 16.8, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). 81P/Wild 2 2015 10 20.22 17.0 N J22 81P/Wild 2 2015 10 17.00 16.8 N I81 81P/Wild 2 2015 10 13.24 UT: m1 = 16.8, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). 81P/Wild 2 2015 10 12.13 17.3 N C10 81P/Wild 2 2015 10 08.70 ..C: m1 = 17.9, Dia. = 0.4', DC = .., 0.51-m. L, f4 (x540). 81P/Wild 2 2015 10 02.49 18.0 T G45 92P/Sanguin 2015 10 25.54 20.5 T F51 92P/Sanguin 2015 10 14.57 20.4 T F51 92P/Sanguin 2015 10 09.55 20.7 T F51 95P/Chiron 2015 10 30.97 UT: m1 = 17.8, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). 117P/Helin-Roman-Alu 1 2015 10 31.97 UT: m1 = 15.2, Dia. = 0.4', DC = .., 0.50-m. L, f3 (x150). 117P/Helin-Roman-Alu 1 2015 10 23.49 17.3 T F51 117P/Helin-Roman-Alu 1 2015 10 18.99 16.1 N J22 117P/Helin-Roman-Alu 1 2015 10 18.99 UT: m1 = 15.0, Dia. = 0.3', DC = .., хвост = 2.1', pa = 247°, 0.50-m. L, f3 (x150). 117P/Helin-Roman-Alu 1 2015 10 15.88 UT: m1 = 15.1, Dia. = &0.5', DC = .., хвост = 1.4', pa = 230°, 0.15-m. R, f7 (x61). 117P/Helin-Roman-Alu 1 2015 10 14.07 16.0 N I72 117P/Helin-Roman-Alu 1 2015 10 09.91 16.0 N C23 117P/Helin-Roman-Alu 1 2015 10 09.11 16.1 N I72 117P/Helin-Roman-Alu 1 2015 10 07.10 UT: m1 = 15.0, Dia. = 0.4', DC = .., 0.50-m. L, f3 (x150). 117P/Helin-Roman-Alu 1 2015 10 05.74 15.4 T D29 118P/Shoemaker-Levy 4 2015 10 22.34 18.6 T F51 118P/Shoemaker-Levy 4 2015 10 17.24 17.1 T G45 118P/Shoemaker-Levy 4 2015 10 15.50 17.4 T Q60 118P/Shoemaker-Levy 4 2015 10 09.95 17.7 T J43 118P/Shoemaker-Levy 4 2015 10 08.63 17.4 T Q60 118P/Shoemaker-Levy 4 2015 10 04.81 17.8 T 215 118P/Shoemaker-Levy 4 2015 10 04.58 UT: m1 = 16.7, Dia. = 0.25', DC = .., 0.51-m. Y, f4 (x47). 136P/Mueller 2015 10 01.13 21.0 T G96 141P/Machholz 2 2015 10 15.77 UT: m1 = 16.5, Dia. = &0.3', DC = .., 0.51-m. Y, f4 (x47). 141P/Machholz 2 2015 10 13.49 ..C: m1 = 13.1, Dia. = 8', DC = .., 0.106-m. R, f5 (x720). 141P/Machholz 2 2015 10 13.49 UT: m1 = [15.0, Dia. = ..', DC = .., 0.106-m. R, f5 (x58). 141P/Machholz 2 2015 10 11.19 17.6 N C10 143P/Kowal-Mrkos 2015 10 24.44 20.6 T G96 151P/Helin 2015 10 16.90 17.9 N K25 151P/Helin 2015 10 11.18 17.6 N W88 151P/Helin 2015 10 10.65 UT: m1 = 16.9, Dia. = 0.2', DC = .., 0.51-m. Y, f4 (x47). 151P/Helin 2015 10 09.33 18.2 N W96 151P/Helin 2015 10 06.04 17.4 T Z22 151P/Helin 2015 10 02.35 17.6 N W96 157P/Tritton 2015 10 16.82 K25 157P/Tritton 2015 10 04.79 215 162P/Siding Spring 2015 10 22.47 17.1 N H47 162P/Siding Spring 2015 10 21.24 UT: m1 = 16.5, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x40). 162P/Siding Spring 2015 10 17.07 17.5 N I81 162P/Siding Spring 2015 10 12.17 17.4 N C10 162P/Siding Spring 2015 10 10.17 17.0 N A77 162P/Siding Spring 2015 10 02.08 17.2 N B96 174P/Echeclus 2015 10 30.91 UT: m1 = 17.3, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). 174P/Echeclus 2015 10 20.23 UT: m1 = 17.0, Dia. = 0.2', DC = .., 0.61-m. C, f10 (x100). 174P/Echeclus 2015 10 19.98 UT: m1 = 17.0, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). 174P/Echeclus 2015 10 08.91 UT: m1 = 16.0, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). 174P/Echeclus 2015 10 07.25 UT: m1 = 16.9, Dia. = 0.2', DC = .., 0.61-m. C, f10 + CCD 174P/Echeclus 2015 10 07.03 UT: m1 = 16.9, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). 190P/Mueller 2015 10 25.24 20.6 T F51 190P/Mueller 2015 10 14.10 20.4 T G96 190P/Mueller 2015 10 08.25 20.4 T F51 190P/Mueller 2015 10 01.12 20.6 T G96 196P/Tichy 2015 10 23.45 G96 202P/Scotti 2015 10 23.23 18.7 T G96 202P/Scotti 2015 10 23.23 18.8 T G96 202P/Scotti 2015 10 16.43 18.9 T 703 202P/Scotti 2015 10 10.91 19.4 N J04 202P/Scotti 2015 10 03.41 19.5 T G96 204P/LINEAR-NEAT 2015 10 26.55 19.8 T F51 204P/LINEAR-NEAT 2015 10 26.24 UT: m1 = 17.1, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x90). 204P/LINEAR-NEAT 2015 10 17.50 19.5 T G45 204P/LINEAR-NEAT 2015 10 14.50 19.1 T G45 204P/LINEAR-NEAT 2015 10 11.47 19.3 T G45 205P/Giacobini 2015 10 22.45 19.4 T F51 205P/Giacobini 2015 10 20.09 UT: m1 = 14.4, Dia. = 0.3', DC = .., хвост = 1.1', pa = 278°, 0.50-m. L, f3 (x110). 205P/Giacobini 2015 10 19.76 UT: m1 = 16.1, Dia. = 0.3', DC = .., хвост = 0.9', pa = 247°, 0.51-m. Y, f4 (x47). 205P/Giacobini 2015 10 18.66 17.4 N Q21 205P/Giacobini 2015 10 17.09 16.8 N I81 205P/Giacobini 2015 10 13.47 UT: m1 = 15.7, Dia. = 0.4', DC = .., хвост = &1.5', pa = 270°, 0.106-m. R, f5 (x58). 205P/Giacobini 2015 10 13.25 UT: m1 = 13.7, Dia. = 0.2', DC = .., хвост = 0.6', pa = 273°, 0.50-m. L, f3 (x110). 205P/Giacobini 2015 10 10.12 17.8 N J01 205P/Giacobini 2015 10 08.77 15.3 T 349 205P/Giacobini 2015 10 02.66 16.6 N Q68 211P/Hill 2015 10 11.52 18.6 T U69 211P/Hill 2015 10 11.52 U69 220P/McNaught 2015 10 21.73 19.2 T D29 220P/McNaught 2015 10 21.52 19.6 T F51 220P/McNaught 2015 10 20.05 UT: m1 = 18.5, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). 220P/McNaught 2015 10 14.83 18.8 T D29 220P/McNaught 2015 10 09.61 19.6 T F51 220P/McNaught 2015 10 08.19 UT: m1 = 18.2, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x110). 230P/LINEAR 2015 10 21.30 15.9 N W96 230P/LINEAR 2015 10 20.10 UT: m1 = 15.3, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x70). 230P/LINEAR 2015 10 17.42 16.4 T G45 230P/LINEAR 2015 10 17.15 16.0 N I81 230P/LINEAR 2015 10 13.25 UT: m1 = 15.6, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x70). 230P/LINEAR 2015 10 12.43 16.6 T 703 230P/LINEAR 2015 10 12.104 ..S: m1 = 14.1, Dia. = 0.3', DC = 3, 0.305-m. SCT, f10 (х179). 230P/LINEAR 2015 10 12.101 ..S: m1 = 14.0, Dia. = 0.6', DC = 2/, 0.305-m. SCT, f10 (х179). 230P/LINEAR 2015 10 08.45 16.5 N H47 230P/LINEAR 2015 10 06.26 UT: m1 = 15.6, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x70). 230P/LINEAR 2015 10 02.11 16.4 N C23 246P/NEAT 2015 10 25.63 18.1 N Q21 246P/NEAT 2015 10 18.47 20.5 T F51 246P/NEAT 2015 10 15.55 20.5 T F51 246P/NEAT 2015 10 12.47 20.4 T F51 246P/NEAT 2015 10 11.37 18.8 T G45 246P/NEAT 2015 10 09.60 20.9 T F51 246P/NEAT 2015 10 08.62 UT: m1 = [18.2, Dia. = ..', DC = .., 0.51-m. Y, f4 (x47). 252P/LINEAR 2015 10 24.50 22.8 T G37 287P/Christensen 2015 10 17.31 18.5 T G45 287P/Christensen 2015 10 13.49 20.3 T F51 287P/Christensen 2015 10 12.49 20.0 T F51 287P/Christensen 2015 10 03.33 18.6 T G96 299P/Catalina-PANSTARRS 2015 10 01.87 18.1 N J22 299P/Catalina-PANSTARRS 2015 10 01.87 UT: m1 = 17.8, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). 308P/Lagerkvist-Carsenty 2015 10 16.48 19.6 T G96 315P/LONEOS 2015 10 23.41 19.3 T 703 315P/LONEOS 2015 10 18.48 19.6 T F51 315P/LONEOS 2015 10 16.26 20.5 T H15 315P/LONEOS 2015 10 11.40 19.6 T G45 315P/LONEOS 2015 10 09.79 19.8 T D29 319P/Catalina-McNaught 2015 10 22.53 19.8 T F51 319P/Catalina-McNaught 2015 10 21.48 19.6 T F51 319P/Catalina-McNaught 2015 10 17.37 19.2 T G45 319P/Catalina-McNaught 2015 10 17.18 UT: m1 = 17.2, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). 319P/Catalina-McNaught 2015 10 14.35 18.8 N W96 319P/Catalina-McNaught 2015 10 12.39 19.0 T 703 319P/Catalina-McNaught 2015 10 08.17 UT: m1 = 18.4, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). 319P/Catalina-McNaught 2015 10 04.60 UT: m1 = 18.0, Dia. = &0.3', DC = &, хвост = 0.9’, pa = 267°, 0.51-m. Y, f4 (x47). 320P/McNaught 2015 10 10.12 19.7 T 703 320P/McNaught 2015 10 03.82 18.9 N A71 325P/Yang-Gao 2015 10 04.43 UT: m1 = 17.5, Dia. = &0.2', DC = .., 0.51-m. Y, f4 (x47). 326P/Hill 2015 10 23.42 20.5 T F51 326P/Hill 2015 10 19.40 20.4 T F51 326P/Hill 2015 10 17.27 19.6 T G45 326P/Hill 2015 10 13.31 18.4 T 703 326P/Hill 2015 10 11.30 18.4 T G45 326P/Hill 2015 10 08.35 18.5 T 703 326P/Hill 2015 10 05.74 19.4 T D29 327P/Van Ness 2015 10 31.82 UT: m1 = 17.7, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x75). 327P/Van Ness 2015 10 02.77 19.8 N A71 328P/LONEOS-Tucker 2015 10 16.09 17.9 T G45 329P/LINEAR-Catalina 2015 10 25.50 18.8 T F51 329P/LINEAR-Catalina 2015 10 17.42 17.8 T G45 330P/Catalina 2015 10 24.06 20.0 T 461 P/1998 QP54 (LONEOS-Tucker) 2015 10 16.09 18.3 T G45 P/1998 QP54 (LONEOS-Tucker) 2015 10 03.78 17.9 N A71 ------------------------------------------------------------------- P/1998 QP54 (LONEOS-Tucker) 1999 02 14.14 19.6 T 693 P/1999 V1 (Catalina) н/д ----------------------------------------------------------------------------- P/1999 V1 (Catalina) 2000 04 24.50 360 P/2003 WC7 (LINEAR-Catalina) 2015 10 12.61 19.5 T 568 ------------------------------------------------------------------- P/2003 WC7 (LINEAR-Catalina) 2004 04 11.46 360 C/2009 F4 (McNaught) 2015 10 08.62 UT: m1 = [17.7, Dia. = ..', DC = .., 0.51-m. Y, f4 (x47). C/2010 U3 (Boattini) 2015 10 22.90 19.2 N 461 C/2010 U3 (Boattini) 2015 10 09.04 18.6 N 970 C/2010 U3 (Boattini) 2015 10 08.21 UT: m1 = 17.6, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). C/2011 J2 (LINEAR) 2015 10 17.57 16.9 T D29 C/2011 J2 (LINEAR) 2015 10 10.19 17.1 T G45 C/2011 J2 (LINEAR) 2015 10 09.59 16.7 T D29 C/2011 J2 (LINEAR) 2015 10 06.47 16.9 T Q60 C/2011 J2 (LINEAR) 2015 10 05.47 D95 C/2011 J2 (LINEAR) 2015 10 04.58 UT: m1 = 16.5, Dia. = &0.4', DC = .., 0.51-m. Y, f4 (x47). C/2011 J2 (LINEAR) 2015 10 02.51 17.5 N Q68 C/2011 KP36 (Spacewatch) 2015 10 23.73 16.0 N C47 C/2011 KP36 (Spacewatch) 2015 10 23.73 16.7 N C47 C/2011 KP36 (Spacewatch) 2015 10 20.15 17.1 N H47 C/2011 KP36 (Spacewatch) 2015 10 17.49 14.6 T D29 C/2011 KP36 (Spacewatch) 2015 10 15.78 UT: m1 = 14.2, Dia. = &0.9', DC = .., 0.15-m. R, f7 (x61). C/2011 KP36 (Spacewatch) 2015 10 13.84 UT: m1 = 13.4, Dia. = 0.9', DC = .., 0.50-m. L, f3 (x150). C/2011 KP36 (Spacewatch) 2015 10 12.42 UT: m1 = [12.5, Dia. = &0.2', DC = 1, 0.065-m. R, f6 (x90). C/2011 KP36 (Spacewatch) 2015 10 10.84 16.4 N C10 C/2011 KP36 (Spacewatch) 2015 10 08.92 15.9 N J38 C/2011 KP36 (Spacewatch) 2015 10 05.85 UT: m1 = 13.3, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x150). C/2011 KP36 (Spacewatch) 2015 10 03.81 16.2 N C36 C/2012 F3 (PANSTARRS) 2015 10 19.03 16.9 N 750 C/2012 F3 (PANSTARRS) 2015 10 12.76 17.0 N C23 C/2012 F3 (PANSTARRS) 2015 10 06.48 367 C/2012 F3 (PANSTARRS) 2015 10 02.52 15.2 T D81 C/2012 F3 (PANSTARRS) 2015 10 01.84 UT: m1 = 15.0, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x150). C/2012 K1 (PANSTARRS) 2015 10 30.90 UT: m1 = 15.0, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x80). C/2012 K1 (PANSTARRS) 2015 10 25.45 18.0 N Q21 C/2012 K1 (PANSTARRS) 2015 10 18.91 UT: m1 = 14.8, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x80). C/2012 K1 (PANSTARRS) 2015 10 18.90 16.9 N J22 C/2012 K1 (PANSTARRS) 2015 10 07.02 UT: m1 = 14.2, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x80). C/2012 K1 (PANSTARRS) 2015 10 06.53 367 C/2012 K1 (PANSTARRS) 2015 10 03.54 UT: m1 = 15.3, Dia. = 0.6', DC = .., 0.51-m. Y, f4 (x47). C/2012 K1 (PANSTARRS) 2015 10 02.58 16.9 N Q68 C/2012 K8 (Lemmon) 2015 10 11.78 18.6 N C23 C/2012 K8 (Lemmon) 2015 10 03.78 18.9 N B82 C/2012 K8 (Lemmon) 2015 10 03.78 UT: m1 = 18.3, Dia. = 0.32', DC = .., 0.305-m. SCT, f6.15 + CCD C/2012 X1 (LINEAR) 2015 10 12.08 UT: m1 = 16.3, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x180). C/2012 X1 (LINEAR) 2015 10 12.08 19.3 N J22 C/2013 A1 (Siding Spring) 2015 10 08.20 18.1 N I81 C/2013 A1 (Siding Spring) 2015 10 08.20 18.2 N I81 C/2013 G3 (PANSTARRS) 2015 10 19.99 19.3 N I81 C/2013 G3 (PANSTARRS) 2015 10 16.79 20.2 T A77 C/2013 G3 (PANSTARRS) 2015 10 02.78 17.7 N C23 C/2013 G9 (Tenagra) 2015 10 20.75 17.4 T Q62 C/2013 G9 (Tenagra) 2015 10 20.75 Q62 C/2013 P3 (Palomar) 2015 10 14.59 17.9 T 900 C/2013 P3 (Palomar) 2015 10 14.59 900 C/2013 P3 (Palomar) 2015 10 08.44 17.8 T Q60 C/2013 P3 (Palomar) 2015 10 02.41 17.6 T Q60 C/2013 P4 (PANSTARRS) 2015 10 09.45 21.4 T F51 C/2013 V4 (Catalina) 2015 10 25.20 16.6 N I81 C/2013 V4 (Catalina) 2015 10 23.65 15.5 T 900 C/2013 V4 (Catalina) 2015 10 23.65 900 C/2013 V4 (Catalina) 2015 10 22.12 16.8 N 107 C/2013 V4 (Catalina) 2015 10 17.20 15.7 N J22 C/2013 V4 (Catalina) 2015 10 17.20 UT: m1 = 14.6, Dia. = 0.3', DC = .., хвост = 0.7', pa = 219°, 0.50-m. L, f3 (x150). C/2013 V4 (Catalina) 2015 10 16.92 16.1 N I81 C/2013 V4 (Catalina) 2015 10 13.48 UT: m1 = 14.3, Dia. = 0.7', DC = .., хвост = 1.2’, pa = 219°, 0.106-m. R, f5 (x58). C/2013 V4 (Catalina) 2015 10 09.06 16.6 N 970 C/2013 V4 (Catalina) 2015 10 07.25 UT: m1 = 14.6, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x150). C/2013 V4 (Catalina) 2015 10 05.06 16.2 N I81 C/2014 A4 (SONEAR) 2015 10 31.98 UT: m1 = 14.9, Dia. = 0.3', DC = .., хвост = 5.0’, pa = 123°, 0.50-m. L, f3 (x60). C/2014 A4 (SONEAR) 2015 10 25.54 15.6 N Q21 C/2014 A4 (SONEAR) 2015 10 23.27 16.0 N W96 C/2014 A4 (SONEAR) 2015 10 20.94 16.0 N C36 C/2014 A4 (SONEAR) 2015 10 19.01 UT: m1 = 14.5, Dia. = 0.4', DC = .., хвост = 8', pa = 128°, 0.50-m. L, f3 (x100). C/2014 A4 (SONEAR) 2015 10 17.87 16.9 N C47 C/2014 A4 (SONEAR) 2015 10 15.88 UT: m1 = 14.5, Dia. = 0.6', DC = .., хвост = 2.1’, pa = 132°, 0.15-m. R, f7 (x61). C/2014 A4 (SONEAR) 2015 10 12.86 16.1 N C36 C/2014 A4 (SONEAR) 2015 10 10.29 14.9 T 703 C/2014 A4 (SONEAR) 2015 10 09.08 UT: m1 = 14.9, Dia. = 0.7', DC = .., хвост = 7.5', pa = 132°, 0.50-m. L, f3 (x100). C/2014 A4 (SONEAR) 2015 10 08.70 14.6 T 349 C/2014 A4 (SONEAR) 2015 10 07.91 16.5 N C36 C/2014 A4 (SONEAR) 2015 10 05.09 15.7 N I81 C/2014 B1 (Schwartz) 2015 10 21.33 17.5 N W96 P/2014 MG4 (Spacewatch-PANSTARRS) 2015 10 10.20 19.4 T G45 P/2014 MG4 (Spacewatch-PANSTARRS) 2015 10 09.41 21.0 T F51 C/2014 N3 (NEOWISE) 2015 10 27.88 16.9 N 461 C/2014 N3 (NEOWISE) 2015 10 22.96 16.8 N J01 C/2014 N3 (NEOWISE) 2015 10 21.65 15.0 T D29 C/2014 N3 (NEOWISE) 2015 10 19.31 15.4 N H45 C/2014 N3 (NEOWISE) 2015 10 19.00 UT: m1 = 14.0, Dia. = 0.5', DC = .., хвост = 3', pa = 185°, 0.50-m. L, f3 (x150). C/2014 N3 (NEOWISE) 2015 10 16.90 15.7 N I81 C/2014 N3 (NEOWISE) 2015 10 12.75 16.2 N C36 C/2014 N3 (NEOWISE) 2015 10 09.95 16.8 N B70 C/2014 N3 (NEOWISE) 2015 10 09.10 UT: m1 = 14.2, Dia. = 0.5', DC = .., 0.50-m. L, f3 (x150). C/2014 N3 (NEOWISE) 2015 10 07.88 UT: m1 = 14.1, Dia. = 0.6', DC = .., хвост = 2.1’, pa = 182°, 0.15-m. R, f7 (x61). C/2014 N3 (NEOWISE) 2015 10 07.88 16.5 N C36 C/2014 N3 (NEOWISE) 2015 10 05.08 16.3 N I81 C/2014 R3 (PANSTARRS) 2015 10 03.88 18.1 N B82 C/2014 R3 (PANSTARRS) 2015 10 03.87 UT: m1 = 18.0, Dia. = 0.14', DC = .., 0.305-m. SCT, f6.15 + CCD C/2014 XB8 (PANSTARRS) 2015 10 15.38 21.5 T 568 C/2015 A1 (PANSTARRS) 2015 10 14.46 21.7 N 474 C/2015 B2 (PANSTARRS) 2015 10 21.36 18.0 N W96 C/2015 D4 (Borisov) 2015 10 15.24 24.3 T 568 C/2015 D4 (Borisov) 2015 10 15.24 24.1 T 568 C/2015 GX (PANSTARRS) 2015 10 24.82 17.8 N A71 C/2015 GX (PANSTARRS) 2015 10 11.05 16.7 N C23 C/2015 GX (PANSTARRS) 2015 10 11.05 16.8 N C23 C/2015 GX (PANSTARRS) 2015 10 10.04 C51 C/2015 G2 (MASTER) 2015 10 26.52 C51 C/2015 G2 (MASTER) 2015 10 26.39 C51 C/2015 G2 (MASTER) 2015 10 20.12 UT: m1 = 13.6, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x120). C/2015 G2 (MASTER) 2015 10 20.12 16.8 N J22 C/2015 G2 (MASTER) 2015 10 17.05 16.7 N I81 C/2015 G2 (MASTER) 2015 10 13.49 UT: m1 = 15.7, Dia. = &0.5', DC = .., хвост = 0.9’, pa = 283°, 0.106-m. R, f5 (x58). C/2015 G2 (MASTER) 2015 10 13.26 UT: m1 = 14.8, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x45). C/2015 G2 (MASTER) 2015 10 13.21 UT: m1 = 14.2, Dia. = 1.2', DC = 2, 0.54-m. L, f2 (x20). C/2015 G2 (MASTER) 2015 10 11.77 UT: m1 = 14.5, Dia. = 0.4', DC = 2, 0.40-m. L, f4.5 (x257). C/2015 G2 (MASTER) 2015 10 09.81 367 C/2015 G2 (MASTER) 2015 10 03.76 14.9 T 349 C/2015 G2 (MASTER) 2015 10 02.09 15.5 N B96 C/2015 K1 (MASTER) 2015 10 17.22 16.5 T G45 C/2015 K1 (MASTER) 2015 10 16.92 17.0 T C41 C/2015 K1 (MASTER) 2015 10 12.90 17.3 N C36 C/2015 K1 (MASTER) 2015 10 08.31 16.7 T G96 C/2015 K1 (MASTER) 2015 10 07.02 18.1 T Y00 C/2015 K1 (MASTER) 2015 10 03.54 UT: m1 = 16.2, Dia. = 0.3', DC = .., 0.51-m. Y, f4 (x47). C/2015 K1 (MASTER) 2015 10 02.58 16.9 N Q68 P/2015 M2 (PANSTARRS) 2015 10 24.24 20.3 T F51 C/2015 M3 (PANSTARRS) 2015 10 15.25 19.8 T 568 C/2015 O1 (PANSTARRS) 2015 10 31.83 UT: m1 = 18.1, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). C/2015 O1 (PANSTARRS) 2015 10 15.25 19.4 T 568 C/2015 O1 (PANSTARRS) 2015 10 15.25 19.3 T 568 C/2015 O1 (PANSTARRS) 2015 10 14.88 UT: m1 = 18.3, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). C/2015 O1 (PANSTARRS) 2015 10 04.59 UT: m1 = [17.7, Dia. = ..', DC = .., 0.51-m. Y, f4 (x47). C/2015 P3 (SWAN) 2015 10 02.39 19.7 T Q62 C/2015 P3 (SWAN) 2015 10 02.39 Q62 P/2015 P4 (PANSTARRS) 2015 10 09.36 20.4 T F51 P/2015 Q1 (Scotti) 2015 10 25.13 UT: m1 = 16.0, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x55). P/2015 Q1 (Scotti) 2015 10 17.47 17.7 T G45 P/2015 Q1 (Scotti) 2015 10 17.47 16.9 T G45 P/2015 Q1 (Scotti) 2015 10 17.19 UT: m1 = 16.4, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x55). P/2015 Q1 (Scotti) 2015 10 15.17 16.6 N I57 P/2015 Q1 (Scotti) 2015 10 09.56 18.4 T F51 P/2015 Q1 (Scotti) 2015 10 08.25 UT: m1 = 16.3, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x55). P/2015 Q1 (Scotti) 2015 10 07.97 17.3 N C36 P/2015 Q1 (Scotti) 2015 10 01.10 16.4 N C10 P/2015 Q2 (Pimentel) 2015 10 08.42 20.1 N 474 P/2015 Q2 (Pimentel) 2015 10 08.42 20.2 N 474 P/2015 R1 (PANSTARRS) 2015 10 24.33 18.1 T G96 P/2015 R1 (PANSTARRS) 2015 10 24.33 17.9 T G96 P/2015 R1 (PANSTARRS) 2015 10 20.04 UT: m1 = 16.9, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). P/2015 R1 (PANSTARRS) 2015 10 17.34 17.9 T G45 P/2015 R1 (PANSTARRS) 2015 10 15.55 18.8 T F51 P/2015 R1 (PANSTARRS) 2015 10 12.46 18.9 T F51 P/2015 R1 (PANSTARRS) 2015 10 11.35 18.2 T G45 P/2015 R1 (PANSTARRS) 2015 10 10.40 17.2 T 703 P/2015 R1 (PANSTARRS) 2015 10 08.20 UT: m1 = 17.5, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). P/2015 R1 (PANSTARRS) 2015 10 03.43 18.0 T 703 C/2015 R3 (PANSTARRS) 2015 10 07.61 20.8 T Q62 C/2015 T2 (PANSTARRS) 2015 10 12.59 21.1 T 568 C/2015 T2 (PANSTARRS) 2015 10 12.59 21.0 T 568 P/2015 T3 (PANSTARRS) 2015 10 16.16 20.3 T W96 C/2015 T4 (PANSTARRS) 2015 10 25.55 18.7 T F51 C/2015 T4 (PANSTARRS) 2015 10 22.72 18.4 T 372 C/2015 T4 (PANSTARRS) 2015 10 20.20 UT: m1 = 17.4, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x80). C/2015 T4 (PANSTARRS) 2015 10 17.47 18.5 T G45 C/2015 T4 (PANSTARRS) 2015 10 16.34 18.6 T W96 P/2015 TO19 (Lemmon-PANSTARRS) 2015 10 14.85 20.1 T 958 C/2015 TQ209 (LINEAR) 2015 10 24.09 18.5 T 461 C/2015 TQ209 (LINEAR) 2015 10 23.65 18.3 T Q62
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Альманах .. |
02.11.2015, 02:17 | #36 |
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Кометы наблюдаемые в ноябре 2015 года (после ~13.0m.) ..
Кометы в ноябре 2015 года .: Приведённый перечень комет блеск которых превышает уровень в ~13.0m., в той или иной мере доступных для наблюдения в разные телескопы, на разных широтах, в ноябре 2015 года .. 2P/Encke 2015 11 03.25 20.8 T F51 6P/d'Arrest 2015 11 23.51 20.1 T F51 7P/Pons-Winnecke 2015 11 10.27 20.0 T G45 7P/Pons-Winnecke 2015 11 10.27 19.5 T G45 7P/Pons-Winnecke 2015 11 01.27 19.1 T G45 9P/Tempel 1 2015 11 20.28 18.8 N J22 9P/Tempel 1 2015 11 11.17 19.5 T 215 19P/Borrelly 2015 11 27.17 17.0 N C23 19P/Borrelly 2015 11 12.15 UT: m1 = 13.6, Dia. = 1.4', DC = 3, 0.603-m. L (x244). 19P/Borrelly 2015 11 02.19 16.3 N I81 19P/Borrelly 2015 11 01.20 16.0 N I81 29P/Schwassmann-Wachmann 1 2015 11 07.02 17.0 N W96 29P/Schwassmann-Wachmann 1 2015 11 06.42 UT: m1 = [14.5, Dia. = ..', DC = .., 0.254-m. L, f4.7 (x166). 29P/Schwassmann-Wachmann 1 2015 11 05.02 16.7 N W96 44P/Reinmuth 2 2015 11 28.95 203 44P/Reinmuth 2 2015 11 22.87 17.1 N C23 44P/Reinmuth 2 2015 11 20.44 17.0 T G96 44P/Reinmuth 2 2015 11 14.09 ..C: m1 = 15.8, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x110). 44P/Reinmuth 2 2015 11 13.40 17.2 T G45 44P/Reinmuth 2 2015 11 07.98 17.9 N 970 44P/Reinmuth 2 2015 11 04.87 17.0 N C35 44P/Reinmuth 2 2015 11 04.05 ..C: m1 = 17.0, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x110). 44P/Reinmuth 2 2015 11 02.12 17.6 N I81 50P/Arend 2015 11 28.21 C51 50P/Arend 2015 11 26.47 17.2 T D29 50P/Arend 2015 11 16.83 17.8 N I72 50P/Arend 2015 11 15.09 17.7 T G45 50P/Arend 2015 11 12.10 17.5 T G45 50P/Arend 2015 11 09.17 703 50P/Arend 2015 11 07.88 ..C: m1 = 16.0, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). 50P/Arend 2015 11 04.12 17.1 T G45 50P/Arend 2015 11 03.25 19.1 T F51 50P/Arend 2015 11 01.85 17.7 N C10 51P-A/Harrington 2015 11 07.41 20.6 T F51 51P/Harrington 2015 11 13.77 K41 51P/Harrington 2015 11 07.41 20.6 T F51 51P/Harrington 2015 11 06.46 20.6 T F51 51P/Harrington 2015 11 02.63 19.0 T D29 57P/du Toit-Neujmin-Delporte 2015 11 29.12 18.2 T G45 57P/du Toit-Neujmin-Delporte 2015 11 17.23 19.7 T F51 57P/du Toit-Neujmin-Delporte 2015 11 16.86 ..C: m1 = 15.1, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). 57P/du Toit-Neujmin-Delporte 2015 11 08.86 18.4 N 130 57P/du Toit-Neujmin-Delporte 2015 11 07.92 ..C: m1 = 15.9, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). 57P/du Toit-Neujmin-Delporte 2015 11 03.49 19.1 N Q21 57P/du Toit-Neujmin-Delporte 2015 11 02.86 18.1 N 160 61P/Shajn-Schaldach 2015 11 28.94 17.1 N 203 61P/Shajn-Schaldach 2015 11 20.16 16.0 T H15 61P/Shajn-Schaldach 2015 11 15.45 16.9 T T05 61P/Shajn-Schaldach 2015 11 14.27 15.0 T G45 61P/Shajn-Schaldach 2015 11 13.01 ..C: m1 = 14.0, Dia. = 0.6', DC = .., 0.50-m. L, f3 (x120). 61P/Shajn-Schaldach 2015 11 11.96 UT: m1 = 14.5, Dia. = 0.6', DC = 1, 0.508-m. L (x307). 61P/Shajn-Schaldach 2015 11 11.09 16.1 N I81 61P/Shajn-Schaldach 2015 11 08.00 17.1 N J01 61P/Shajn-Schaldach 2015 11 06.93 16.1 N 939 61P/Shajn-Schaldach 2015 11 03.10 17.8 N C47 61P/Shajn-Schaldach 2015 11 02.27 14.7 T G45 61P/Shajn-Schaldach 2015 11 02.09 ..C: m1 = 14.3, Dia. = 0.5', DC = .., хвост = 1.4', pa = 271°, 0.50-m. L, f3 (x120). 61P/Shajn-Schaldach 2015 11 01.94 16.1 N I81 65P/Gunn 2015 11 17.21 16.9 N A77 74P/Smirnova-Chernykh 2015 11 30.30 18.1 T G45 74P/Smirnova-Chernykh 2015 11 22.38 17.7 T G45 74P/Smirnova-Chernykh 2015 11 19.96 17.8 N J22 74P/Smirnova-Chernykh 2015 11 19.96 ..C: m1 = 15.6, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). 74P/Smirnova-Chernykh 2015 11 18.95 G40 74P/Smirnova-Chernykh 2015 11 18.27 17.4 T 703 74P/Smirnova-Chernykh 2015 11 16.74 18.0 T C94 74P/Smirnova-Chernykh 2015 11 13.05 ..C: m1 = 17.5, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). 74P/Smirnova-Chernykh 2015 11 12.39 18.2 T 691 74P/Smirnova-Chernykh 2015 11 10.30 17.5 T 703 74P/Smirnova-Chernykh 2015 11 03.01 ..C: m1 = 17.9, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). 74P/Smirnova-Chernykh 2015 11 02.78 18.0 T D29 74P/Smirnova-Chernykh 2015 11 01.88 17.3 N I81 77P/Longmore 2015 11 13.51 H06 81P/Wild 2 2015 11 21.19 17.1 N V08 81P/Wild 2 2015 11 20.08 ..C: m1 = 15.0, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x150). 81P/Wild 2 2015 11 20.07 15.8 N J22 81P/Wild 2 2015 11 19.41 16.3 N H47 81P/Wild 2 2015 11 17.04 15.9 N J38 81P/Wild 2 2015 11 13.16 ..C: m1 = 15.1, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). 81P/Wild 2 2015 11 12.41 16.3 N H45 81P/Wild 2 2015 11 09.44 16.3 N H45 81P/Wild 2 2015 11 06.99 17.4 N J38 81P/Wild 2 2015 11 05.10 ..C: m1 = 15.9, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x150). 81P/Wild 2 2015 11 03.09 16.3 N I81 81P/Wild 2 2015 11 02.36 16.3 N W96 88P/Howell 2015 11 28.60 900 88P/Howell 2015 11 27.86 16.1 N 939 88P/Howell 2015 11 19.26 15.9 T G96 88P/Howell 2015 11 16.93 ..C: m1 = 11.9, Dia. = 0.6', DC = .., 0.50-m. L, f3 (x110). 88P/Howell 2015 11 15.45 16.5 T T05 88P/Howell 2015 11 12.91 15.8 N C10 88P/Howell 2015 11 11.93 UT: m1 = 14.0, Dia. = 0.8', DC = 3, 0.603-m. L (x305). 88P/Howell 2015 11 09.96 ..C: m1 = 12.2, Dia. = 0.8', DC = .., 0.50-m. L, f3 (x110). 88P/Howell 2015 11 08.93 16.6 N J01 88P/Howell 2015 11 06.95 15.5 N 939 88P/Howell 2015 11 03.96 16.4 N C47 88P/Howell 2015 11 02.88 UT: m1 = 13.3, Dia. = 1', DC = 1, 0.54-m. L, f5 (x180). 88P/Howell 2015 11 02.77 UT: m1 = 12.5, Dia. = ..', DC = 1, 0.32-m. L, f5 (x120). 88P/Howell 2015 11 02.05 ..C: m1 = 12.2, Dia. = 1', DC = .., 0.50-m. L, f3 (x110). 88P/Howell 2015 11 01.70 14.0 T D29 92P/Sanguin 2015 11 23.52 19.9 T F51 92P/Sanguin 2015 11 16.55 20.8 T F51 92P/Sanguin 2015 11 08.95 20.2 T 215 94P/Russell 4 2015 11 30.35 19.2 T G45 94P/Russell 4 2015 11 22.36 19.9 T G96 94P/Russell 4 2015 11 22.36 20.1 T G96 94P/Russell 4 2015 11 20.01 19.6 N I81 94P/Russell 4 2015 11 18.35 20.0 T G45 94P/Russell 4 2015 11 13.43 20.4 T G45 94P/Russell 4 2015 11 10.40 20.6 T G96 94P/Russell 4 2015 11 02.48 20.3 T G96 95P/Chiron 2015 11 16.83 ..C: m1 = 15.1, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). 95P/Chiron 2015 11 07.89 ..C: m1 = 17.8, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). 117P/Helin-Roman-Alu 1 2015 11 30.97 16.5 T J38 117P/Helin-Roman-Alu 1 2015 11 19.94 16.4 N J38 117P/Helin-Roman-Alu 1 2015 11 17.01 16.4 N J38 117P/Helin-Roman-Alu 1 2015 11 16.91 ..C: m1 = 14.7, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). 117P/Helin-Roman-Alu 1 2015 11 15.19 16.8 T G45 117P/Helin-Roman-Alu 1 2015 11 11.94 UT: m1 = 14.8, Dia. = 0.9', DC = 1, 0.508-m. L (x307). 117P/Helin-Roman-Alu 1 2015 11 09.90 ..C: m1 = 15.2, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x150). 117P/Helin-Roman-Alu 1 2015 11 08.98 15.8 T Z22 117P/Helin-Roman-Alu 1 2015 11 06.87 16.2 N 939 117P/Helin-Roman-Alu 1 2015 11 04.35 17.9 T F51 117P/Helin-Roman-Alu 1 2015 11 03.54 15.5 T 349 117P/Helin-Roman-Alu 1 2015 11 01.96 16.2 N I81 118P/Shoemaker-Levy 4 2015 11 27.43 17.1 T D88 118P/Shoemaker-Levy 4 2015 11 16.94 17.7 N G40 118P/Shoemaker-Levy 4 2015 11 08.20 17.2 T G45 118P/Shoemaker-Levy 4 2015 11 05.89 16.8 N 130 118P/Shoemaker-Levy 4 2015 11 04.34 18.2 T F51 118P/Shoemaker-Levy 4 2015 11 02.20 17.3 T G45 118P/Shoemaker-Levy 4 2015 11 01.11 18.1 T H15 141P/Machholz 2 2015 11 02.50 ..C: m1 = 14.6, Dia. = 5', DC = .., 0.106-m. R, f5 (x440). 150P/LONEOS 2015 11 30.40 703 150P/LONEOS 2015 11 22.40 18.8 T G45 150P/LONEOS 2015 11 21.23 18.2 T 703 150P/LONEOS 2015 11 13.43 19.2 T G45 150P/LONEOS 2015 11 09.45 19.0 T G45 151P/Helin 2015 11 28.25 19.2 T F51 151P/Helin 2015 11 08.23 19.1 T F51 151P/Helin 2015 11 01.79 18.3 N K25 158P/Kowal-LINEAR 2015 11 11.16 19.4 T 215 158P/Kowal-LINEAR 2015 11 11.16 20.0 T 215 162P/Siding Spring 2015 11 29.89 18.3 T D29 162P/Siding Spring 2015 11 27.16 17.3 N C23 162P/Siding Spring 2015 11 19.49 17.7 N H47 162P/Siding Spring 2015 11 17.20 ..C: m1 = 16.4, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x60). 162P/Siding Spring 2015 11 11.12 16.9 N I81 162P/Siding Spring 2015 11 09.22 17.6 N 970 162P/Siding Spring 2015 11 08.26 ..C: m1 = 17.0, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x40). 162P/Siding Spring 2015 11 06.20 17.5 T G40 162P/Siding Spring 2015 11 01.19 17.5 N I81 174P/Echeclus 2015 11 16.85 ..C: m1 = 15.7, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). 174P/Echeclus 2015 11 12.94 ..C: m1 = 17.1, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). 174P/Echeclus 2015 11 09.88 ..C: m1 = 17.3, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). 174P/Echeclus 2015 11 07.93 ..C: m1 = 17.3, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). 174P/Echeclus 2015 11 04.90 ..C: m1 = 17.3, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). 174P/Echeclus 2015 11 03.85 ..Z: m1 = 17.3, Dia. = 0.13', DC = .., 0.305-m. SCT, f6.15 (x0). 174P/Echeclus 2015 11 02.85 ..C: m1 = 16.7, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). 180P/NEAT 2015 11 15.55 U69 202P/Scotti 2015 11 29.89 19.5 N 958 202P/Scotti 2015 11 19.28 18.8 T G45 202P/Scotti 2015 11 13.34 18.6 T 703 202P/Scotti 2015 11 06.20 18.3 T 703 204P/LINEAR-NEAT 2015 11 21.45 17.7 T 703 204P/LINEAR-NEAT 2015 11 21.45 17.2 T G45 204P/LINEAR-NEAT 2015 11 18.45 17.6 T G45 204P/LINEAR-NEAT 2015 11 17.31 19.3 N W96 204P/LINEAR-NEAT 2015 11 17.23 ..C: m1 = 16.1, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x90). 204P/LINEAR-NEAT 2015 11 13.87 18.1 T D29 204P/LINEAR-NEAT 2015 11 10.27 ..C: m1 = 16.4, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x90). 204P/LINEAR-NEAT 2015 11 07.61 18.9 T F51 205P/Giacobini 2015 11 30.46 17.8 T T05 205P/Giacobini 2015 11 23.36 17.0 T G45 205P/Giacobini 2015 11 18.48 20.1 T F51 205P/Giacobini 2015 11 11.36 18.8 N 850 205P/Giacobini 2015 11 09.28 17.3 N W96 205P/Giacobini 2015 11 06.47 18.1 T 691 205P/Giacobini 2015 11 04.06 ..C: m1 = 14.7, Dia. = 0.2', DC = .., хвост = 0.6', pa = 285°, 0.50-m. L, f3 (x110). 205P/Giacobini 2015 11 03.08 ..C: m1 = 16.0, Dia. = 1.4', DC = .., хвост = 0.06°, pa = 285°, 0.20-m. L, f4 (x40). 205P/Giacobini 2015 11 03.05 17.6 N I81 205P/Giacobini 2015 11 02.15 17.6 N I81 211P/Hill 2015 11 21.45 17.6 T G45 211P/Hill 2015 11 18.45 18.8 T G45 211P/Hill 2015 11 17.24 ..C: m1 = 15.6, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x120). 211P/Hill 2015 11 11.39 18.2 T 703 211P/Hill 2015 11 09.31 18.4 N W96 220P/McNaught 2015 11 20.30 19.5 T G45 220P/McNaught 2015 11 17.37 19.7 T F51 220P/McNaught 2015 11 14.30 18.3 T G45 220P/McNaught 2015 11 13.42 18.9 T 703 220P/McNaught 2015 11 07.29 18.1 T 703 220P/McNaught 2015 11 06.41 19.4 T F51 220P/McNaught 2015 11 03.45 19.3 T F51 220P/McNaught 2015 11 01.56 19.4 T F51 230P/LINEAR 2015 11 30.49 UT: m1 = 14.0, Dia. = 0.3', DC = 6/7, 0.254-m. L, f4.7 (x166). 230P/LINEAR 2015 11 30.48 14.3 T T05 230P/LINEAR 2015 11 28.27 15.1 N W88 230P/LINEAR 2015 11 23.40 14.8 T G45 230P/LINEAR 2015 11 20.70 UT: m1 = [15.4, Dia. = ..', DC = .., 0.40-m. L, f4.5 (x257). 230P/LINEAR 2015 11 20.34 14.8 N 850 230P/LINEAR 2015 11 20.07 ..C: m1 = 13.6, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x70). 230P/LINEAR 2015 11 17.28 14.9 N W96 230P/LINEAR 2015 11 16.55 15.6 T F51 230P/LINEAR 2015 11 13.44 15.2 N 850 230P/LINEAR 2015 11 13.17 ..C: m1 = 14.0, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x70). 230P/LINEAR 2015 11 12.02 UT: m1 = 15.9, Dia. = 0.1', DC = 8, 0.603-m. L (x305). 230P/LINEAR 2015 11 10.26 15.2 N W96 230P/LINEAR 2015 11 04.12 ..C: m1 = 14.7, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x70). 230P/LINEAR 2015 11 03.43 15.3 T 703 230P/LINEAR 2015 11 01.09 15.6 N I81 246P/NEAT 2015 11 07.44 20.1 T F51 246P/NEAT 2015 11 06.46 20.3 T F51 252P/LINEAR 2015 11 08.06 J04 252P/LINEAR 2015 11 06.58 21.9 T 568 287P/Christensen 2015 11 10.24 18.3 T G45 287P/Christensen 2015 11 01.37 20.3 T F51 308P/Lagerkvist-Carsenty 2015 11 21.38 18.6 T G96 308P/Lagerkvist-Carsenty 2015 11 16.01 18.7 N B54 308P/Lagerkvist-Carsenty 2015 11 13.40 19.1 T G45 308P/Lagerkvist-Carsenty 2015 11 03.58 19.4 T F51 314P/Montani 2015 11 22.45 19.1 T G45 315P/LONEOS 2015 11 29.95 19.2 N 958 315P/LONEOS 2015 11 18.20 17.9 N V08 315P/LONEOS 2015 11 12.29 18.5 T 703 315P/LONEOS 2015 11 08.90 18.8 T 215 315P/LONEOS 2015 11 03.45 18.9 T F51 315P/LONEOS 2015 11 02.32 18.5 T G45 315P/LONEOS 2015 11 01.56 18.9 T F51 318P/McNaught-Hartley 2015 11 30.31 17.6 T T05 318P/McNaught-Hartley 2015 11 23.22 C51 318P/McNaught-Hartley 2015 11 19.03 C51 318P/McNaught-Hartley 2015 11 14.12 15.3 T G45 318P/McNaught-Hartley 2015 11 11.82 UT: m1 = 15.2, Dia. = 0.4', DC = 4, 0.603-m. L (x305). 318P/McNaught-Hartley 2015 11 11.73 17.6 T 215 318P/McNaught-Hartley 2015 11 08.86 ..C: m1 = 13.1, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x90). 318P/McNaught-Hartley 2015 11 06.48 D88 318P/McNaught-Hartley 2015 11 04.09 16.9 N I66 318P/McNaught-Hartley 2015 11 01.15 16.9 N W88 318P/McNaught-Hartley 2015 11 01.00 16.9 N W96 319P/Catalina-McNaught 2015 11 20.30 19.8 T G45 319P/Catalina-McNaught 2015 11 14.30 20.6 T G45 319P/Catalina-McNaught 2015 11 09.34 18.9 T 703 326P/Hill 2015 11 08.29 21.0 T F51 326P/Hill 2015 11 02.22 19.5 T G45 326P/Hill 2015 11 01.33 20.9 T F51 327P/Van Ness 2015 11 27.82 17.8 T Z22 327P/Van Ness 2015 11 21.08 17.3 T 703 327P/Van Ness 2015 11 21.08 17.4 T 703 328P/LONEOS-Tucker 2015 11 23.07 17.9 T G45 328P/LONEOS-Tucker 2015 11 10.07 18.1 T G45 328P/LONEOS-Tucker 2015 11 03.16 C51 329P/LINEAR-Catalina 2015 11 30.07 16.8 N 958 329P/LINEAR-Catalina 2015 11 22.98 16.5 N C23 330P/Catalina 2015 11 30.34 18.3 T 703 330P/Catalina 2015 11 23.36 18.7 T G96 330P/Catalina 2015 11 13.40 19.5 T G45 330P/Catalina 2015 11 08.92 19.3 T 215 330P/Catalina 2015 11 06.45 19.2 T G96 C/2010 U3 (Boattini) 2015 11 18.92 18.4 N I72 C/2010 U3 (Boattini) 2015 11 18.92 18.5 N I72 C/2010 U3 (Boattini) 2015 11 16.94 ..C: m1 = 17.6, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). C/2010 U3 (Boattini) 2015 11 15.84 18.2 N A77 C/2010 U3 (Boattini) 2015 11 11.07 18.0 N I81 C/2010 U3 (Boattini) 2015 11 09.40 17.9 T G45 C/2010 U3 (Boattini) 2015 11 05.02 ..C: m1 = 17.5, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). C/2010 U3 (Boattini) 2015 11 02.10 18.4 N I81 C/2011 J2 (LINEAR) 2015 11 15.10 17.6 T G45 C/2011 J2 (LINEAR) 2015 11 12.10 17.3 T G45 C/2011 J2 (LINEAR) 2015 11 09.16 17.3 T 703 C/2011 J2 (LINEAR) 2015 11 03.25 19.7 T F51 -- C/2011 J2 (LINEAR) 2015 10 30.81 18.1 N 160 C/2012 F3 (PANSTARRS) 2015 11 12.76 16.5 N A77 C/2012 F3 (PANSTARRS) 2015 11 07.79 16.0 N 139 C/2012 K1 (PANSTARRS) 2015 11 16.82 17.2 N J22 C/2012 K1 (PANSTARRS) 2015 11 16.82 ..C: m1 = 14.2, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). C/2012 K1 (PANSTARRS) 2015 11 14.13 16.6 T G45 C/2012 K1 (PANSTARRS) 2015 11 08.48 ..C: m1 = 15.9, Dia. = 0.4', DC = .., 0.51-m. L, f7 (x150). C/2012 K1 (PANSTARRS) 2015 11 07.87 ..C: m1 = 15.4, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x80). C/2012 K1 (PANSTARRS) 2015 11 07.86 17.3 N J22 C/2012 K1 (PANSTARRS) 2015 11 04.07 17.6 N I66 C/2012 K1 (PANSTARRS) 2015 11 01.13 16.5 T G45 C/2012 LP26 (Palomar) 2015 11 10.71 19.0 T 461 C/2013 A1 (Siding Spring) 2015 11 02.21 17.7 N I81 C/2013 G3 (PANSTARRS) 2015 11 01.82 18.3 N C23 C/2013 P3 (Palomar) 2015 11 05.83 18.7 T 461 C/2013 P4 (PANSTARRS) 2015 11 14.19 19.1 T G96 C/2013 P4 (PANSTARRS) 2015 11 06.52 20.4 T F51 C/2013 P4 (PANSTARRS) 2015 11 02.53 20.8 T F51 C/2014 A4 (SONEAR) 2015 11 30.93 16.3 T J38 C/2014 A4 (SONEAR) 2015 11 28.86 16.8 N 160 C/2014 A4 (SONEAR) 2015 11 26.56 15.9 T D29 C/2014 A4 (SONEAR) 2015 11 19.97 16.1 N J38 C/2014 A4 (SONEAR) 2015 11 18.24 17.5 T F51 C/2014 A4 (SONEAR) 2015 11 17.08 16.1 N I15 C/2014 A4 (SONEAR) 2015 11 16.93 15.6 T 104 C/2014 A4 (SONEAR) 2015 11 16.92 ..C: m1 = 15.1, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x60). C/2014 A4 (SONEAR) 2015 11 12.27 16.0 N W96 C/2014 A4 (SONEAR) 2015 11 11.89 UT: m1 = 16.2, Dia. = 0.2', DC = 7, 0.603-m. L (x305). C/2014 A4 (SONEAR) 2015 11 09.92 ..C: m1 = 15.1, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x60). C/2014 A4 (SONEAR) 2015 11 09.80 14.8 N A77 C/2014 A4 (SONEAR) 2015 11 06.96 16.0 N J38 C/2014 A4 (SONEAR) 2015 11 04.98 16.1 N K38 C/2014 A4 (SONEAR) 2015 11 03.69 UT: m1 = 15.5, Dia. = ..', DC = .., DSLR C/2014 A4 (SONEAR) 2015 11 01.92 15.8 N C10 C/2014 B1 (Schwartz) 2015 11 07.13 17.2 T 461 C/2014 N3 (NEOWISE) 2015 11 30.95 16.1 T J38 C/2014 N3 (NEOWISE) 2015 11 24.81 16.1 N J97 C/2014 N3 (NEOWISE) 2015 11 20.05 16.9 N I81 C/2014 N3 (NEOWISE) 2015 11 17.00 15.9 N J38 C/2014 N3 (NEOWISE) 2015 11 16.90 ..C: m1 = 14.2, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x120). C/2014 N3 (NEOWISE) 2015 11 15.80 17.5 N B49 C/2014 N3 (NEOWISE) 2015 11 12.85 15.9 N C10 C/2014 N3 (NEOWISE) 2015 11 11.91 UT: m1 = 15.1, Dia. = 0.4', DC = 3, 0.603-m. L (x305). C/2014 N3 (NEOWISE) 2015 11 09.89 ..C: m1 = 14.5, Dia. = 0.5', DC = .., 0.50-m. L, f3 (x120). C/2014 N3 (NEOWISE) 2015 11 09.78 15.5 N C35 C/2014 N3 (NEOWISE) 2015 11 06.97 15.9 N 939 C/2014 N3 (NEOWISE) 2015 11 04.86 16.2 N K21 C/2014 N3 (NEOWISE) 2015 11 02.11 16.1 N B82 C/2014 N3 (NEOWISE) 2015 11 02.06 ..C: m1 = 14.4, Dia. = 0.4', DC = .., 0.50-m. L, f3 (x120). C/2014 N3 (NEOWISE) 2015 11 02.03 UT: m1 = 13.9, Dia. = 1.84', DC = .., 0.305-m. SCT, f6.15 (x0). C/2014 R3 (PANSTARRS) 2015 11 05.71 18.1 T 461 P/2014 W4 (PANSTARRS) 2015 11 07.04 19.5 T 461 P/2014 W4 (PANSTARRS) 2015 11 07.04 19.3 T 461 C/2014 Y1 (PANSTARRS) 2015 11 30.52 H06 C/2015 B2 (PANSTARRS) 2015 11 30.29 18.1 N W88 C/2015 B2 (PANSTARRS) 2015 11 03.37 17.0 N W96 C/2015 D3 (PANSTARRS) 2015 11 12.15 461 C/2015 F4 (Jacques) 2015 11 27.78 16.2 N 939 C/2015 F4 (Jacques) 2015 11 21.95 17.3 N 970 C/2015 F4 (Jacques) 2015 11 20.12 ..C: m1 = 14.6, Dia. = 0.3', DC = .., 0.61-m. C, f10 (x45). C/2015 F4 (Jacques) 2015 11 14.86 16.2 N I72 C/2015 F4 (Jacques) 2015 11 11.84 UT: m1 = 14.2, Dia. = 0.9', DC = 1, 0.603-m. L (x244). C/2015 F4 (Jacques) 2015 11 11.78 16.1 N C36 C/2015 F4 (Jacques) 2015 11 09.77 14.7 N C35 C/2015 F4 (Jacques) 2015 11 09.14 C51 C/2015 F4 (Jacques) 2015 11 08.85 ..C: m1 = 13.9, Dia. = 0.5', DC = .., 0.50-m. L, f3 (x100). C/2015 F4 (Jacques) 2015 11 08.45 UT: m1 = 10.6, Dia. = 3.4', DC = 2, 0.30-m. L C/2015 F4 (Jacques) 2015 11 06.84 15.8 N 939 C/2015 F4 (Jacques) 2015 11 03.82 ..C: m1 = 13.6, Dia. = 1', DC = .., 0.60-m. P, f3 (x90). C/2015 F4 (Jacques) 2015 11 03.73 UT: m1 = [12.5, Dia. = ..', DC = .., 0.20-m. L (x222.2). C/2015 F4 (Jacques) 2015 11 02.92 16.1 N I81 C/2015 F4 (Jacques) 2015 11 01.80 ..C: m1 = 13.5, Dia. = 2.5', DC = .., хвост = 0.06°, pa = 149°, 0.20-m. L, f4 (x780). C/2015 F4 (Jacques) 2015 11 01.75 UT: m1 = 12.7, Dia. = 4.43', DC = .., 0.305-m. SCT, f6.15 (x0). C/2015 F4 (Jacques) 2015 11 01.74 15.9 N B82 C/2015 GX (PANSTARRS) 2015 11 28.08 16.2 N 107 C/2015 GX (PANSTARRS) 2015 11 23.00 15.8 N 107 C/2015 GX (PANSTARRS) 2015 11 21.00 16.6 N J22 C/2015 GX (PANSTARRS) 2015 11 21.00 ..C: m1 = 15.0, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x60). C/2015 GX (PANSTARRS) 2015 11 18.44 17.0 T T05 C/2015 GX (PANSTARRS) 2015 11 17.98 17.0 N G40 C/2015 GX (PANSTARRS) 2015 11 15.84 16.7 N 157 C/2015 GX (PANSTARRS) 2015 11 12.11 UT: m1 = 16.0, Dia. = 0.25', DC = 3, 0.603-m. L (x305). C/2015 GX (PANSTARRS) 2015 11 08.98 16.5 N I81 C/2015 GX (PANSTARRS) 2015 11 05.98 17.9 N C47 C/2015 GX (PANSTARRS) 2015 11 03.70 16.0 T 349 C/2015 GX (PANSTARRS) 2015 11 02.11 ..C: m1 = 15.0, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x60). C/2015 GX (PANSTARRS) 2015 11 01.87 16.7 N 157 C/2015 G2 (MASTER) 2015 11 22.17 17.2 N K02 C/2015 G2 (MASTER) 2015 11 22.04 17.3 N 970 C/2015 G2 (MASTER) 2015 11 20.35 16.0 T 703 C/2015 G2 (MASTER) 2015 11 17.14 ..C: m1 = 15.2, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x60). C/2015 G2 (MASTER) 2015 11 14.49 16.1 T 703 C/2015 G2 (MASTER) 2015 11 12.46 16.9 N H45 C/2015 G2 (MASTER) 2015 11 12.06 UT: m1 = 15.6, Dia. = 0.3', DC = 3, 0.603-m. L (x305). C/2015 G2 (MASTER) 2015 11 10.17 ..C: m1 = 14.0, Dia. = 0.4', DC = .., 0.50-m. L, f3 (x120). C/2015 G2 (MASTER) 2015 11 08.45 15.8 T 703 C/2015 G2 (MASTER) 2015 11 06.01 18.2 N C47 C/2015 K1 (MASTER) 2015 11 15.47 17.2 N Q21 C/2015 K1 (MASTER) 2015 11 14.97 16.9 N B54 C/2015 K1 (MASTER) 2015 11 08.28 19.2 T F51 C/2015 K1 (MASTER) 2015 11 06.29 19.4 T F51 C/2015 K1 (MASTER) 2015 11 02.87 18.6 N 160 C/2015 K1 (MASTER) 2015 11 01.32 19.5 T F51 P/2015 P4 (PANSTARRS) 2015 11 29.10 19.3 T G45 P/2015 P4 (PANSTARRS) 2015 11 09.43 20.0 N 474 P/2015 P4 (PANSTARRS) 2015 11 09.43 19.6 N 474 P/2015 Q1 (Scotti) 2015 11 22.44 17.2 N H47 P/2015 Q1 (Scotti) 2015 11 21.35 15.5 T 703 P/2015 Q1 (Scotti) 2015 11 19.44 16.5 N H47 P/2015 Q1 (Scotti) 2015 11 17.10 ..C: m1 = 14.5, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x55). P/2015 Q1 (Scotti) 2015 11 15.10 16.0 N J01 P/2015 Q1 (Scotti) 2015 11 12.08 UT: m1 = 16.0, Dia. = 0.2', DC = 3, 0.603-m. L (x408). P/2015 Q1 (Scotti) 2015 11 10.30 17.0 N W96 P/2015 Q1 (Scotti) 2015 11 06.48 291 P/2015 Q1 (Scotti) 2015 11 05.11 ..C: m1 = 16.1, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x55). P/2015 Q1 (Scotti) 2015 11 01.45 16.2 T G45 P/2015 Q2 (Pimentel) 2015 11 09.41 20.1 N 474 P/2015 R1 (PANSTARRS) 2015 11 18.24 18.1 T G45 P/2015 R1 (PANSTARRS) 2015 11 13.02 18.3 N J22 P/2015 R1 (PANSTARRS) 2015 11 13.02 ..C: m1 = 17.6, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x110). P/2015 R1 (PANSTARRS) 2015 11 12.28 17.9 T 703 P/2015 R1 (PANSTARRS) 2015 11 07.85 17.6 N 157 P/2015 R1 (PANSTARRS) 2015 11 06.96 18.9 N K25 P/2015 R1 (PANSTARRS) 2015 11 02.69 17.8 T D29 P/2015 R1 (PANSTARRS) 2015 11 02.28 18.2 T G45 P/2015 R1 (PANSTARRS) 2015 11 02.10 ..C: m1 = 17.6, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x110). C/2015 R3 (PANSTARRS) 2015 11 16.45 21.2 N 474 C/2015 R3 (PANSTARRS) 2015 11 16.45 21.4 N 474 C/2015 T2 (PANSTARRS) 2015 11 19.33 20.7 T H01 C/2015 T2 (PANSTARRS) 2015 11 11.95 20.9 T 215 C/2015 T2 (PANSTARRS) 2015 11 07.39 21.0 T F51 C/2015 T2 (PANSTARRS) 2015 11 06.99 20.1 T 461 C/2015 T2 (PANSTARRS) 2015 11 01.32 21.2 T 691 C/2015 T4 (PANSTARRS) 2015 11 30.49 17.2 T T05 C/2015 T4 (PANSTARRS) 2015 11 20.67 372 C/2015 T4 (PANSTARRS) 2015 11 19.40 17.4 N H45 C/2015 T4 (PANSTARRS) 2015 11 18.91 17.1 N K61 C/2015 T4 (PANSTARRS) 2015 11 17.09 ..C: m1 = 15.2, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x80). C/2015 T4 (PANSTARRS) 2015 11 14.40 17.5 T G45 C/2015 T4 (PANSTARRS) 2015 11 12.01 18.0 N 461 C/2015 T4 (PANSTARRS) 2015 11 08.93 17.6 T 215 C/2015 T4 (PANSTARRS) 2015 11 04.16 ..C: m1 = 17.3, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x80). C/2015 T5 (Sheppard-Tholen) 2015 11 17.30 22.1 T 568 C/2015 T5 (Sheppard-Tholen) 2015 11 08.27 21.5 T 291 P/2015 TO19 (Lemmon-PANSTARRS) 2015 11 11.74 19.9 T 215 C/2015 TQ209 (LINEAR) 2015 11 18.84 18.6 N A71 C/2015 TQ209 (LINEAR) 2015 11 18.78 17.9 N K61 C/2015 TQ209 (LINEAR) 2015 11 15.48 18.6 T T05 C/2015 TQ209 (LINEAR) 2015 11 14.66 18.3 T D29 C/2015 TQ209 (LINEAR) 2015 11 12.20 18.3 T 703 C/2015 TQ209 (LINEAR) 2015 11 07.95 18.3 N 970 C/2015 TQ209 (LINEAR) 2015 11 06.90 18.3 N K25 C/2015 TQ209 (LINEAR) 2015 11 03.31 18.2 T G96 C/2015 TQ209 (LINEAR) 2015 11 02.36 18.5 T G45 C/2015 TQ209 (LINEAR) 2015 11 01.88 18.3 N K25 C/2015 V1 (PANSTARRS) 2015 11 30.60 19.9 T F51 C/2015 V1 (PANSTARRS) 2015 11 22.45 19.7 T 703 C/2015 V1 (PANSTARRS) 2015 11 22.45 20.0 T 703 C/2015 V1 (PANSTARRS) 2015 11 16.00 18.2 N 157 C/2015 V1 (PANSTARRS) 2015 11 09.41 19.8 T 703 C/2015 V1 (PANSTARRS) 2015 11 06.93 19.4 T 461 C/2015 V1 (PANSTARRS) 2015 11 06.05 19.4 T 461 C/2015 V1 (PANSTARRS) 2015 11 05.18 19.7 T I93 C/2015 V2 (Johnson) 2015 11 27.23 16.4 N C23 C/2015 V2 (Johnson) 2015 11 22.49 16.9 T 703 C/2015 V2 (Johnson) 2015 11 20.08 16.5 N I81 C/2015 V2 (Johnson) 2015 11 18.84 17.1 N K61 C/2015 V2 (Johnson) 2015 11 17.13 ..C: m1 = 15.5, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x120). C/2015 V2 (Johnson) 2015 11 16.11 17.7 N I89 C/2015 V2 (Johnson) 2015 11 15.59 16.9 T 349 C/2015 V2 (Johnson) 2015 11 11.97 17.0 T 461 C/2015 V2 (Johnson) 2015 11 12.10 UT: m1 = 15.8, Dia. = 0.25', DC = 3, 0.603-m. L (x244). C/2015 V2 (Johnson) 2015 11 09.45 16.4 T 703 C/2015 V2 (Johnson) 2015 11 07.03 16.9 N J38 C/2015 V2 (Johnson) 2015 11 06.15 ..C: m1 = 16.4, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x120). C/2015 V2 (Johnson) 2015 11 06.06 17.0 T 461 C/2015 V2 (Johnson) 2015 11 05.18 17.7 T I93 C/2015 V3 (PANSTARRS) 2015 11 28.42 Q62 C/2015 V3 (PANSTARRS) 2015 11 18.80 18.2 N K61 C/2015 V3 (PANSTARRS) 2015 11 17.23 19.4 T F51 C/2015 V3 (PANSTARRS) 2015 11 16.51 17.8 T Q62 C/2015 V3 (PANSTARRS) 2015 11 13.09 18.7 T 703 C/2015 V3 (PANSTARRS) 2015 11 06.45 20.0 T Q62 C/2015 V4 (PANSTARRS) 2015 11 13.31 20.0 T W96 C/2015 W1 (Gibbs) 2015 11 24.39 19.5 N 850 C/2015 W1 (Gibbs) 2015 11 23.41 19.3 N 850 C/2015 W1 (Gibbs) 2015 11 22.13 19.0 N 970 C/2015 W1 (Gibbs) 2015 11 21.51 19.0 T G96 P/2015 W2 (Catalina) 2015 11 30.37 18.6 T 703 P/2015 W2 (Catalina) 2015 11 29.95 19.4 T Z99
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Альманах .. |
01.12.2015, 11:35 | #37 |
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Кометы наблюдаемые в декабре 2015 года (после ~13.0m.) ..
Кометы в декабре 2015 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 2015 года .. 6P/d'Arrest 2015 12 08.42 20.8 T F51 7P/Pons-Winnecke 2015 12 07.34 21.4 T F51 7P/Pons-Winnecke 2015 12 06.29 21.1 T F51 9P/Tempel 1 2015 12 29.73 18.5 N Q21 9P/Tempel 1 2015 12 23.62 19.1 T F51 9P/Tempel 1 2015 12 18.61 19.4 T F51 9P/Tempel 1 2015 12 17.21 18.6 N A77 9P/Tempel 1 2015 12 10.14 19.1 N I81 9P/Tempel 1 2015 12 08.17 19.5 N C10 17P/Holmes 2015 12 09.13 ..C: m1 = 18.6, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x600). 17P/Holmes 2015 12 09.12 20.5 N J22 19P/Borrelly 2015 12 30.28 18.0 N G40 19P/Borrelly 2015 12 22.79 D95 19P/Borrelly 2015 12 19.78 14.7 T 349 19P/Borrelly 2015 12 20.18 ..C: m1 = 14.8, Dia. = 0.7', DC = 7, 0.54-m. L, f2 (x20). 19P/Borrelly 2015 12 11.17 17.0 N I81 19P/Borrelly 2015 12 08.21 17.0 N C10 19P/Borrelly 2015 12 05.22 17.1 N C10 44P/Reinmuth 2 2015 12 31.79 18.2 N B96 44P/Reinmuth 2 2015 12 27.94 19.1 N C47 44P/Reinmuth 2 2015 12 19.18 16.9 T 703 44P/Reinmuth 2 2015 12 18.30 17.1 T G45 44P/Reinmuth 2 2015 12 16.86 ..C: m1 = 16.5, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x110). 44P/Reinmuth 2 2015 12 09.99 18.4 N 958 44P/Reinmuth 2 2015 12 09.96 ..C: m1 = 15.9, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x110). 44P/Reinmuth 2 2015 12 09.31 17.7 T G96 44P/Reinmuth 2 2015 12 03.30 17.1 N H45 44P/Reinmuth 2 2015 12 03.11 ..C: m1 = 16.5, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x110). 44P/Reinmuth 2 2015 12 01.02 17.1 T J38 50P/Arend 2015 12 29.69 17.7 N C36 50P/Arend 2015 12 27.80 17.4 N A77 50P/Arend 2015 12 12.78 18.1 N K25 50P/Arend 2015 12 09.85 ..C: m1 = 15.7, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). 50P/Arend 2015 12 07.08 17.5 N H45 50P/Arend 2015 12 05.83 17.9 N I72 50P/Arend 2015 12 04.13 17.1 T 703 50P/Arend 2015 12 03.10 17.3 T G45 57P/du Toit-Neujmin-Delporte 2015 12 31.25 21.3 T F51 57P/du Toit-Neujmin-Delporte 2015 12 24.26 20.8 T F51 57P/du Toit-Neujmin-Delporte 2015 12 09.29 20.8 T F51 57P/du Toit-Neujmin-Delporte 2015 12 03.83 ..C: m1 = 16.9, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). 57P/du Toit-Neujmin-Delporte 2015 12 03.83 18.9 N J22 57P/du Toit-Neujmin-Delporte 2015 12 03.15 18.6 T G45 61P/Shajn-Schaldach 2015 12 29.41 18.3 N Q21 61P/Shajn-Schaldach 2015 12 26.83 19.5 N C47 61P/Shajn-Schaldach 2015 12 15.77 17.2 N C36 61P/Shajn-Schaldach 2015 12 11.86 17.2 N J38 61P/Shajn-Schaldach 2015 12 11.01 ..C: m1 = 14.7, Dia. = 0.5', DC = .., 0.50-m. L, f3 (x120). 61P/Shajn-Schaldach 2015 12 07.87 17.1 N C10 61P/Shajn-Schaldach 2015 12 05.85 17.0 N 233 61P/Shajn-Schaldach 2015 12 03.88 ..C: m1 = 14.6, Dia. = 0.4', DC = .., 0.50-m. L, f3 (x120). 61P/Shajn-Schaldach 2015 12 01.79 17.4 N 958 61P/Shajn-Schaldach 2015 12 01.00 16.8 T J38 65P/Gunn 2015 12 29.75 17.6 N Q21 65P/Gunn 2015 12 11.20 15.2 N I81 65P/Gunn 2015 12 11.20 14.8 N I81 74P/Smirnova-Chernykh 2015 12 29.53 17.9 N Q68 74P/Smirnova-Chernykh 2015 12 29.46 18.3 N Q21 74P/Smirnova-Chernykh 2015 12 16.88 18.1 N J22 74P/Smirnova-Chernykh 2015 12 16.20 18.1 T G96 74P/Smirnova-Chernykh 2015 12 14.11 17.7 T Z22 74P/Smirnova-Chernykh 2015 12 09.91 ..C: m1 = 17.7, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). 74P/Smirnova-Chernykh 2015 12 04.06 18.8 T Z22 74P/Smirnova-Chernykh 2015 12 03.30 17.9 T G45 74P/Smirnova-Chernykh 2015 12 03.00 ..C: m1 = 17.4, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). 77P/Longmore 2015 12 30.37 16.9 N W96 77P/Longmore 2015 12 28.28 16.7 T Z22 77P/Longmore 2015 12 21.25 16.8 T Z22 77P/Longmore 2015 12 11.18 17.2 N I81 77P/Longmore 2015 12 01.82 17.0 T D95 81P/Wild 2 2015 12 31.93 14.9 N C10 81P/Wild 2 2015 12 30.94 14.1 T 104 81P/Wild 2 2015 12 30.49 ..S: m1 = 13.6, Dia. = 0.6', DC = 1/, 0.254-m. L, f4.7 (x83). 81P/Wild 2 2015 12 29.93 14.8 N C43 81P/Wild 2 2015 12 29.47 ..S: m1 = 13.2, Dia. = 0.5', DC = 1, 0.254-m. L, f4.7 (x166). 81P/Wild 2 2015 12 28.79 14.9 N C36 81P/Wild 2 2015 12 28.82 15.0 N -- 81P/Wild 2 2015 12 22.55 13.9 T 900 81P/Wild 2 2015 12 19.96 14.8 N J22 81P/Wild 2 2015 12 19.96 ..C: m1 = 13.4, Dia. = 0.5', DC = .., 0.50-m. L, f3 (x150). 81P/Wild 2 2015 12 17.33 14.1 T G45 81P/Wild 2 2015 12 16.34 ..C: m1 = 13.6, Dia. = 0.6', DC = .., хвост = 36.0', pa = 277°, 0.61-m. С, f10 (x70). 81P/Wild 2 2015 12 14.94 14.7 N -- 81P/Wild 2 2015 12 13.76 14.6 T D29 81P/Wild 2 2015 12 11.02 UT: m1 = 14.0, Dia. = 0.2', DC = 2, 0.42-m. L (x139.4). 81P/Wild 2 2015 12 10.01 ..C: m1 = 14.0, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x150). 81P/Wild 2 2015 12 08.53 17.0 T F51 81P/Wild 2 2015 12 08.04 UT: m1 = [15, Dia. = ..', DC = .., 0.42-m. L (x139.4). 81P/Wild 2 2015 12 03.09 15.2 N I81 81P/Wild 2 2015 12 03.08 ..C: m1 = 14.4, Dia. = 0.4', DC = .., 0.50-m. L, f3 (x150). 88P/Howell 2015 12 31.54 16.3 T D29 88P/Howell 2015 12 31.30 19.2 T F51 88P/Howell 2015 12 30.44 17.0 T 372 88P/Howell 2015 12 16.57 17.5 N 900 88P/Howell 2015 12 16.57 17.7 N 900 88P/Howell 2015 12 15.74 16.3 N C36 88P/Howell 2015 12 11.92 17.1 N G40 88P/Howell 2015 12 10.93 ..C: m1 = 13.4, Dia. = 0.6', DC = .., 0.50-m. L, f3 (x120). 88P/Howell 2015 12 08.81 ..C: m1 = 13.6, Dia. = 0.8', DC = 2, 0.13-m. L, f5 (x10). 88P/Howell 2015 12 08.72 16.4 N C36 88P/Howell 2015 12 03.87 ..C: m1 = 13.0, Dia. = 0.7', DC = .., 0.50-m. L, f3 (x120). 88P/Howell 2015 12 03.87 16.5 N J22 92P/Sanguin 2015 12 14.46 20.7 T F51 92P/Sanguin 2015 12 13.51 20.7 T F51 92P/Sanguin 2015 12 06.43 20.4 T F51 94P/Russell 4 2015 12 28.72 19.2 T 215 94P/Russell 4 2015 12 19.15 18.9 T G96 94P/Russell 4 2015 12 19.15 18.8 T G96 94P/Russell 4 2015 12 17.27 20.2 T G45 94P/Russell 4 2015 12 10.26 19.2 T I41 94P/Russell 4 2015 12 07.50 19.3 T F51 94P/Russell 4 2015 12 06.50 19.6 T F51 94P/Russell 4 2015 12 03.35 19.5 T G45 95P/Chiron 2015 12 11.83 ..C: m1 = 17.9, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). 95P/Chiron 2015 12 03.82 ..C: m1 = 18.0, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). 100P/Hartley 1 2015 12 29.85 19.7 N Q21 116P/Wild 4 2015 12 29.83 15.6 N Q21 116P/Wild 4 2015 12 24.34 16.0 N W88 116P/Wild 4 2015 12 20.49 16.4 N H47 116P/Wild 4 2015 12 20.49 16.3 N H47 116P/Wild 4 2015 12 18.36 15.9 N W96 116P/Wild 4 2015 12 18.29 ..C: m1 = 13.9, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x60). 116P/Wild 4 2015 12 10.24 ..C: m1 = 13.6, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x60). 116P/Wild 4 2015 12 10.24 15.4 N J22 117P/Helin-Roman-Alu 1 2015 12 31.07 16.5 T G45 117P/Helin-Roman-Alu 1 2015 12 29.72 16.6 N C36 117P/Helin-Roman-Alu 1 2015 12 25.48 16.7 T D29 117P/Helin-Roman-Alu 1 2015 12 16.56 16.0 T 900 117P/Helin-Roman-Alu 1 2015 12 14.87 17.5 N 958 117P/Helin-Roman-Alu 1 2015 12 13.87 ..C: m1 = 15.3, Dia. = 0.4', DC = .., 0.50-m. L, f3 (x150). 117P/Helin-Roman-Alu 1 2015 12 09.89 16.7 N J38 117P/Helin-Roman-Alu 1 2015 12 05.94 16.6 N J38 117P/Helin-Roman-Alu 1 2015 12 03.85 ..C: m1 = 15.3, Dia. = 0.3', DC = .., хвост = 2.0', pa = 240°, 0.50-m. L, f3 (x150). 117P/Helin-Roman-Alu 1 2015 12 02.95 16.5 T J38 118P/Shoemaker-Levy 4 2015 12 30.84 17.5 N A77 118P/Shoemaker-Levy 4 2015 12 26.31 17.5 T T05 118P/Shoemaker-Levy 4 2015 12 16.31 2273 C51 118P/Shoemaker-Levy 4 2015 12 16.31 C51 118P/Shoemaker-Levy 4 2015 12 01.28 18.8 T F51 143P/Kowal-Mrkos 2015 12 18.17 21.3 T G96 143P/Kowal-Mrkos 2015 12 18.17 20.8 T G96 143P/Kowal-Mrkos 2015 12 09.48 20.7 T F51 143P/Kowal-Mrkos 2015 12 07.50 20.5 T F51 143P/Kowal-Mrkos 2015 12 06.49 20.5 T F51 143P/Kowal-Mrkos 2015 12 04.28 20.3 T G96 150P/LONEOS 2015 12 29.86 18.2 N C10 150P/LONEOS 2015 12 20.08 17.4 T G96 150P/LONEOS 2015 12 20.08 18.3 T G96 150P/LONEOS 2015 12 18.33 18.7 T G45 150P/LONEOS 2015 12 12.00 18.6 N K25 150P/LONEOS 2015 12 08.41 18.3 T T05 151P/Helin 2015 12 12.88 18.6 N G40 151P/Helin 2015 12 09.25 20.2 T F51 151P/Helin 2015 12 02.10 18.5 T G45 157P/Tritton 2015 12 12.82 ..C: m1 = 19.7, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x200). 158P/Kowal-LINEAR 2015 12 16.44 19.3 T G96 158P/Kowal-LINEAR 2015 12 16.44 19.4 T G96 158P/Kowal-LINEAR 2015 12 09.16 ..C: m1 = 19.6, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x180). 158P/Kowal-LINEAR 2015 12 09.16 19.8 N J22 162P/Siding Spring 2015 12 31.87 17.8 T D29 162P/Siding Spring 2015 12 31.55 17.2 T T05 162P/Siding Spring 2015 12 30.56 17.6 T T05 162P/Siding Spring 2015 12 27.09 17.5 N C47 162P/Siding Spring 2015 12 18.26 17.6 N J22 162P/Siding Spring 2015 12 18.26 ..C: m1 = 17.5, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x110). 162P/Siding Spring 2015 12 13.09 17.2 N I81 162P/Siding Spring 2015 12 09.18 ..C: m1 = 17.0, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x80). 162P/Siding Spring 2015 12 09.11 17.2 N I81 162P/Siding Spring 2015 12 05.19 17.7 N C10 174P/Echeclus 2015 12 16.15 ..C: m1 = 16.9, Dia. = 0.2', DC = .., хвоста нет, 0.61-m. С, f10 (x120). 174P/Echeclus 2015 12 11.84 ..C: m1 = 17.6, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). 174P/Echeclus 2015 12 09.84 ..C: m1 = 17.6, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). 180P/NEAT 2015 12 29.81 18.2 N Q21 183P/Korlevic-Juric 2015 12 28.04 19.6 N B82 194P/LINEAR 2015 12 30.95 G40 202P/Scotti 2015 12 31.30 20.9 T F51 202P/Scotti 2015 12 03.24 20.5 T F51 204P/LINEAR-NEAT 2015 12 30.01 17.5 N C10 204P/LINEAR-NEAT 2015 12 20.09 17.6 N J22 204P/LINEAR-NEAT 2015 12 20.09 ..C: m1 = 15.9, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). 204P/LINEAR-NEAT 2015 12 18.76 16.8 T 349 204P/LINEAR-NEAT 2015 12 18.48 16.8 T G45 204P/LINEAR-NEAT 2015 12 17.48 16.9 T G45 204P/LINEAR-NEAT 2015 12 13.08 17.7 N I81 204P/LINEAR-NEAT 2015 12 10.25 ..C: m1 = 15.3, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x90). 204P/LINEAR-NEAT 2015 12 09.08 17.9 N I81 204P/LINEAR-NEAT 2015 12 06.33 17.3 T 703 204P/LINEAR-NEAT 2015 12 03.52 17.5 T G96 204P/LINEAR-NEAT 2015 12 03.47 17.4 T G45 205P/Giacobini 2015 12 09.53 20.0 N E07 205P/Giacobini 2015 12 02.45 18.0 T T05 205P/Giacobini 2015 12 02.30 17.2 T G45 211P/Hill 2015 12 30.05 17.3 N C10 211P/Hill 2015 12 19.44 17.8 T G96 211P/Hill 2015 12 19.44 18.0 T G96 211P/Hill 2015 12 16.80 17.6 T D29 211P/Hill 2015 12 13.06 17.0 N I81 211P/Hill 2015 12 09.19 ..C: m1 = 15.9, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). 211P/Hill 2015 12 09.10 17.5 N I81 211P/Hill 2015 12 03.47 18.1 T G45 220P/McNaught 2015 12 08.34 20.6 T F51 230P/LINEAR 2015 12 31.919 ..S: m1 = 13.6, Dia. = 0.6', DC = 3, 0.305-m. SCT (x179). 230P/LINEAR 2015 12 31.915 ..M: m1 = 13.7, Dia. = 0.4', DC = 6, 0.305-m. SCT (x179). 230P/LINEAR 2015 12 31.43 15.2 T F51 230P/LINEAR 2015 12 30.80 15.7 N 160 230P/LINEAR 2015 12 30.46 ..M: m1 = 13.5, Dia. = 0.9', DC = 5/, 0.254-m. L, f4.7 (x83). 230P/LINEAR 2015 12 29.91 14.5 N C10 230P/LINEAR 2015 12 29.88 ..Z: m1 = 13.5, Dia. = 1', DC = .., 0.30-m. A, f5 (x30). 230P/LINEAR 2015 12 29.88 14.5 N C10 230P/LINEAR 2015 12 29.46 ..M: m1 = 13.6, Dia. = 0.4', DC = 6, 0.254-m. L, f4.7 (x166). 230P/LINEAR 2015 12 28.89 14.4 N C36 230P/LINEAR 2015 12 27.00 15.1 N C47 230P/LINEAR 2015 12 21.89 14.4 N A77 230P/LINEAR 2015 12 21.80 14.6 N A77 230P/LINEAR 2015 12 21.16 UT: m1 = 13.0, Dia. = 0.6', DC = 6, 0.203-m. SCT, f10 (x160). 230P/LINEAR 2015 12 19.89 14.4 N 160 230P/LINEAR 2015 12 16.96 ..C: m1 = 13.3, Dia. = 0.4', DC = .., 0.50-m. L, f3 (x70). 230P/LINEAR 2015 12 16.33 14.2 N G68 230P/LINEAR 2015 12 16.31 ..C: m1 = 13.3, Dia. = 0.6', DC = .., хвост = 22.0', pa = 324°, 0.61-m. C, f10 (x50). 230P/LINEAR 2015 12 16.22 14.3 N W96 230P/LINEAR 2015 12 15.15 14.3 N W96 230P/LINEAR 2015 12 15.14 14.2 N W96 230P/LINEAR 2015 12 12.05 14.3 N I81 230P/LINEAR 2015 12 09.99 ..C: m1 = 13.4, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x70). 230P/LINEAR 2015 12 09.60 14.8 N E07 230P/LINEAR 2015 12 07.31 ..C: m1 = 13.8, Dia. = 0.5', DC = .., хвост = 36.0', pa = 323°, 0.51-m. C, f7 (x50). 230P/LINEAR 2015 12 04.10 14.1 T Z22 230P/LINEAR 2015 12 03.47 14.4 T T05 230P/LINEAR 2015 12 03.10 ..C: m1 = 13.5, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x70). 230P/LINEAR 2015 12 02.33 14.4 T G45 246P/NEAT 2015 12 29.54 19.5 T D29 246P/NEAT 2015 12 08.34 20.6 T F51 246P/NEAT 2015 12 03.22 18.5 T H15 249P/LINEAR 2015 12 26.72 16.3 T 215 249P/LINEAR 2015 12 26.39 14.0 T 349 249P/LINEAR 2015 12 08.68 13.9 N A71 249P/LINEAR 2015 12 08.68 14.5 N A71 252P/LINEAR 2015 12 14.04 19.6 N J22 252P/LINEAR 2015 12 14.04 ..C: m1 = 19.0, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x90). 252P/LINEAR 2015 12 07.51 20.6 T G37 269P/Jedicke 2015 12 18.53 17.9 T G45 269P/Jedicke 2015 12 18.53 17.8 T G45 269P/Jedicke 2015 12 14.54 17.9 T G45 269P/Jedicke 2015 12 06.52 703 287P/Christensen 2015 12 07.34 21.2 T F51 308P/Lagerkvist-Carsenty 2015 12 18.30 19.7 T G45 308P/Lagerkvist-Carsenty 2015 12 13.46 19.9 T F51 308P/Lagerkvist-Carsenty 2015 12 09.34 G96 308P/Lagerkvist-Carsenty 2015 12 06.49 20.1 T F51 308P/Lagerkvist-Carsenty 2015 12 04.24 18.6 T G96 310P/Hill 2015 12 31.50 20.6 T F51 314P/Montani 2015 12 30.96 18.3 T 104 314P/Montani 2015 12 17.31 18.8 T G45 314P/Montani 2015 12 17.31 18.5 T G45 314P/Montani 2015 12 13.75 18.4 T D29 314P/Montani 2015 12 08.53 20.0 T F51 315P/LONEOS 2015 12 14.57 19.2 T D29 315P/LONEOS 2015 12 12.89 19.3 N K25 315P/LONEOS 2015 12 08.34 19.1 T F51 315P/LONEOS 2015 12 03.29 18.8 T H15 315P/LONEOS 2015 12 03.27 19.2 T G45 318P/McNaught-Hartley 2015 12 29.42 17.1 T 900 318P/McNaught-Hartley 2015 12 11.89 16.4 T Z22 318P/McNaught-Hartley 2015 12 11.86 ..C: m1 = 15.3, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x90). 318P/McNaught-Hartley 2015 12 02.29 17.4 T T05 318P/McNaught-Hartley 2015 12 02.07 16.3 T G45 319P/Catalina-McNaught 2015 12 06.33 20.6 T F51 326P/Hill 2015 12 31.25 22.1 T F51 327P/Van Ness 2015 12 28.72 18.7 N A71 327P/Van Ness 2015 12 22.86 17.6 N J22 327P/Van Ness 2015 12 14.22 18.1 T T05 327P/Van Ness 2015 12 06.07 16.9 T 703 328P/LONEOS-Tucker 2015 12 28.74 19.4 N A71 328P/LONEOS-Tucker 2015 12 19.74 17.8 N 130 328P/LONEOS-Tucker 2015 12 01.24 18.1 T T05 329P/LINEAR-Catalina 2015 12 31.00 16.5 N G40 329P/LINEAR-Catalina 2015 12 30.97 16.2 T 104 329P/LINEAR-Catalina 2015 12 29.76 16.3 N C36 329P/LINEAR-Catalina 2015 12 28.53 16.1 T Q60 329P/LINEAR-Catalina 2015 12 27.02 17.7 N C47 329P/LINEAR-Catalina 2015 12 21.83 15.8 N A77 329P/LINEAR-Catalina 2015 12 21.83 15.4 N A77 329P/LINEAR-Catalina 2015 12 19.09 16.4 N W96 329P/LINEAR-Catalina 2015 12 17.27 15.1 T G45 329P/LINEAR-Catalina 2015 12 14.90 ..C: m1 = 14.2, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x60). 329P/LINEAR-Catalina 2015 12 11.97 16.7 N K15 329P/LINEAR-Catalina 2015 12 07.97 15.9 N C10 329P/LINEAR-Catalina 2015 12 05.32 16.3 N H45 329P/LINEAR-Catalina 2015 12 04.26 691 329P/LINEAR-Catalina 2015 12 04.08 ..C: m1 = 14.3, Dia. = 0.4', DC = .., 0.50-m. L, f3 (x120). 330P/Catalina 2015 12 18.30 19.2 T G45 330P/Catalina 2015 12 18.30 19.4 T G45 330P/Catalina 2015 12 16.91 ..C: m1 = 17.2, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x180). 330P/Catalina 2015 12 11.97 18.2 N K25 330P/Catalina 2015 12 03.12 18.8 N J22 330P/Catalina 2015 12 03.12 ..C: m1 = 16.8, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x180). 331P/Gibbs 2015 12 04.32 21.6 T F51 C/2006 S3 (LONEOS) 2015 12 26.18 18.5 T 215 C/2006 S3 (LONEOS) 2015 12 19.76 17.2 T D81 P/2010 H2 (Vales) 2015 12 07.97 ..S: m1 = [15.2, Dia. = ..', DC = .., 0.235-m. SCT, f10 (x294). C/2010 U3 (Boattini) 2015 12 31.89 18.3 N B96 C/2010 U3 (Boattini) 2015 12 30.72 19.1 N 461 C/2010 U3 (Boattini) 2015 12 18.16 18.0 N I81 C/2010 U3 (Boattini) 2015 12 14.93 19.5 N 958 C/2010 U3 (Boattini) 2015 12 12.85 18.6 N K25 C/2010 U3 (Boattini) 2015 12 09.92 ..C: m1 = 17.7, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). C/2010 U3 (Boattini) 2015 12 05.88 18.0 N I72 C/2010 U3 (Boattini) 2015 12 03.10 17.7 N I81 C/2010 U3 (Boattini) 2015 12 03.01 ..C: m1 = 16.7, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). C/2011 J2 (LINEAR) 2015 12 04.77 17.8 N C23 C/2011 J2 (LINEAR) 2015 12 01.24 20.0 T F51 -- C/2011 J2 (LINEAR) 2015 08 26.93 17.8 N 160 C/2011 KP36 (Spacewatch) 2015 12 23.77 16.2 N C23 C/2011 KP36 (Spacewatch) 2015 12 19.43 15.1 T 349 C/2011 KP36 (Spacewatch) 2015 12 09.02 16.7 N H47 C/2011 KP36 (Spacewatch) 2015 12 06.78 17.0 N 958 C/2011 KP36 (Spacewatch) 2015 12 02.23 16.3 T T05 P/2011 S1 (Gibbs) 2015 12 16.31 19.8 T G96 P/2011 S1 (Gibbs) 2015 12 16.31 19.3 T G96 P/2011 S1 (Gibbs) 2015 12 09.54 21.4 T F51 C/2012 F3 (PANSTARRS) 2015 12 05.78 16.6 N I72 C/2012 F3 (PANSTARRS) 2015 12 05.78 16.8 N I72 C/2012 F3 (PANSTARRS) 2015 12 01.75 16.2 N K19 P/2012 F5 (Gibbs) 2015 12 04.32 21.6 T F51 C/2012 K1 (PANSTARRS) 2015 12 26.71 18.4 T 215 C/2012 K1 (PANSTARRS) 2015 12 02.55 16.9 T Q65 C/2012 X1 (LINEAR) 2015 12 09.48 21.6 N E07 C/2013 A1 (Siding Spring) 2015 12 30.74 17.6 T 900 C/2013 A1 (Siding Spring) 2015 12 11.13 17.7 N I81 C/2013 C2 (Tenagra) 2015 12 18.28 18.5 N J22 C/2013 C2 (Tenagra) 2015 12 18.28 ..C: m1 = 17.2, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x240). C/2013 G9 (Tenagra) 2015 12 12.63 18.2 T T05 C/2013 V4 (Catalina) 2015 12 30.95 16.5 N I81 C/2013 V4 (Catalina) 2015 12 27.92 18.1 N C47 C/2013 V4 (Catalina) 2015 12 19.87 16.4 N J22 C/2013 V4 (Catalina) 2015 12 19.87 ..C: m1 = 14.9, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x120). C/2013 V4 (Catalina) 2015 12 13.86 16.3 N Z93 C/2013 V4 (Catalina) 2015 12 13.15 16.2 N I81 C/2013 V4 (Catalina) 2015 12 09.93 ..C: m1 = 14.2, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x120). C/2013 V4 (Catalina) 2015 12 05.86 16.3 N I72 C/2013 V4 (Catalina) 2015 12 03.03 ..C: m1 = 14.8, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x120). C/2013 V4 (Catalina) 2015 12 02.98 16.0 N I81 C/2013 W2 (PANSTARRS) 2015 12 16.49 19.6 T G96 C/2014 A4 (SONEAR) 2015 12 30.72 17.2 N 160 C/2014 A4 (SONEAR) 2015 12 29.66 17.3 N C36 C/2014 A4 (SONEAR) 2015 12 27.78 17.4 N C47 C/2014 A4 (SONEAR) 2015 12 20.92 16.4 N J38 C/2014 A4 (SONEAR) 2015 12 20.92 16.3 N J38 C/2014 A4 (SONEAR) 2015 12 15.80 17.1 N 958 C/2014 A4 (SONEAR) 2015 12 12.81 16.7 N K25 C/2014 A4 (SONEAR) 2015 12 09.86 ..C: m1 = 14.6, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x60). C/2014 A4 (SONEAR) 2015 12 08.66 16.4 N C36 C/2014 A4 (SONEAR) 2015 12 05.92 16.3 N J38 C/2014 A4 (SONEAR) 2015 12 03.87 16.3 N 160 C/2014 B1 (Schwartz) 2015 12 22.66 15.9 T 900 C/2014 B1 (Schwartz) 2015 12 19.56 16.9 T D88 C/2014 B1 (Schwartz) 2015 12 11.61 17.9 N 474 C/2014 B1 (Schwartz) 2015 12 07.69 16.4 T 900 C/2014 F2 (Tenagra) 2015 12 10.46 19.9 T 703 C/2014 F2 (Tenagra) 2015 12 10.46 18.9 T 703 C/2014 F2 (Tenagra) 2015 12 03.43 18.6 T 703 C/2014 N3 (NEOWISE) 2015 12 30.85 16.1 N C35 C/2014 N3 (NEOWISE) 2015 12 28.72 16.7 N A77 C/2014 N3 (NEOWISE) 2015 12 27.82 ..Z: m1 = 15.3, Dia. = 0.69', DC = .., 0.305-m. SCT, f6 (x0). C/2014 N3 (NEOWISE) 2015 12 26.81 17.9 N C47 C/2014 N3 (NEOWISE) 2015 12 20.82 17.4 N A24 C/2014 N3 (NEOWISE) 2015 12 18.18 17.0 N I81 C/2014 N3 (NEOWISE) 2015 12 16.82 ..C: m1 = 14.4, Dia. = 0.4', DC = .., 0.50-m. L, f3 (x120). C/2014 N3 (NEOWISE) 2015 12 16.22 16.5 N 850 C/2014 N3 (NEOWISE) 2015 12 13.17 15.5 N I81 C/2014 N3 (NEOWISE) 2015 12 09.87 ..C: m1 = 14.6, Dia. = 0.5', DC = .., 0.50-m. L, f3 (x120). C/2014 N3 (NEOWISE) 2015 12 09.14 16.0 N I81 C/2014 N3 (NEOWISE) 2015 12 05.87 16.2 N I72 C/2014 N3 (NEOWISE) 2015 12 03.84 18.0 N C47 C/2014 Q2 (Lovejoy) 2015 12 15.67 UT: m1 = 13.5, Dia. = 0.2', DC = .., 0.42-m. L (x139.4). C/2014 Q2 (Lovejoy) 2015 12 09.71 15.8 N C23 C/2014 Q2 (Lovejoy) 2015 12 09.71 16.0 N C23 C/2014 Q2 (Lovejoy) 2015 12 04.70 16.4 N C23 C/2014 Q2 (Lovejoy) 2015 12 02.76 15.9 N I81 P/2014 W4 (PANSTARRS) 2015 12 18.40 19.0 T G45 P/2014 W4 (PANSTARRS) 2015 12 18.40 19.7 T G45 P/2014 W4 (PANSTARRS) 2015 12 03.58 20.1 T F51 C/2014 W11 (PANSTARRS) 2015 12 29.33 15.3 N W96 C/2014 W11 (PANSTARRS) 2015 12 29.30 15.3 N W96 C/2014 W11 (PANSTARRS) 2015 12 25.34 16.1 N W88 C/2014 W11 (PANSTARRS) 2015 12 20.33 15.5 N W96 C/2014 W11 (PANSTARRS) 2015 12 18.29 ..C: m1 = 14.4, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x70). C/2014 W11 (PANSTARRS) 2015 12 10.25 ..C: m1 = 14.1, Dia. = 0.3', DC = .., хвост = 2.0', pa = 290°, 0.50-m. L, f3 (x70). C/2014 W11 (PANSTARRS) 2015 12 10.25 15.3 N J22 C/2014 Y1 (PANSTARRS) 2015 12 22.85 D95 C/2015 B2 (PANSTARRS) 2015 12 20.26 17.8 N I47 C/2015 B2 (PANSTARRS) 2015 12 09.62 18.9 N E07 C/2015 D3 (PANSTARRS) 2015 12 14.53 20.1 T G45 C/2015 D3 (PANSTARRS) 2015 12 09.75 18.1 N Q21 C/2015 F4 (Jacques) 2015 12 31.88 17.2 N C23 C/2015 F4 (Jacques) 2015 12 31.77 17.0 N B96 C/2015 F4 (Jacques) 2015 12 30.88 17.1 N I81 C/2015 F4 (Jacques) 2015 12 27.75 ..Z: m1 = 13.7, Dia. = 4.88', DC = .., 0.305-m. SCT, f6 (x0). C/2015 F4 (Jacques) 2015 12 27.75 17.7 N B82 C/2015 F4 (Jacques) 2015 12 20.83 17.8 N A24 C/2015 F4 (Jacques) 2015 12 20.83 18.1 N A24 C/2015 F4 (Jacques) 2015 12 15.05 17.8 N H45 C/2015 F4 (Jacques) 2015 12 13.84 ..C: m1 = 14.8, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x100). C/2015 F4 (Jacques) 2015 12 10.87 17.6 N A24 C/2015 F4 (Jacques) 2015 12 07.45 16.2 T D81 C/2015 F4 (Jacques) 2015 12 05.90 16.5 N I72 C/2015 F4 (Jacques) 2015 12 02.78 18.0 N I81 C/2015 GX (PANSTARRS) 2015 12 29.81 17.4 N C10 C/2015 GX (PANSTARRS) 2015 12 21.35 17.6 T T05 C/2015 GX (PANSTARRS) 2015 12 17.85 17.6 N 130 C/2015 GX (PANSTARRS) 2015 12 17.85 17.8 N 130 C/2015 GX (PANSTARRS) 2015 12 14.83 ..C: m1 = 15.7, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x60). C/2015 GX (PANSTARRS) 2015 12 13.19 17.0 N I81 C/2015 GX (PANSTARRS) 2015 12 06.94 16.9 N I81 C/2015 G2 (MASTER) 2015 12 30.94 17.0 N C35 C/2015 G2 (MASTER) 2015 12 29.45 17.1 T T05 C/2015 G2 (MASTER) 2015 12 28.85 18.0 N C36 C/2015 G2 (MASTER) 2015 12 22.60 16.5 T 900 C/2015 G2 (MASTER) 2015 12 19.44 17.5 T D88 C/2015 G2 (MASTER) 2015 12 19.44 D88 C/2015 G2 (MASTER) 2015 12 17.97 17.0 N I81 C/2015 G2 (MASTER) 2015 12 12.99 17.0 N I81 C/2015 G2 (MASTER) 2015 12 09.10 ..C: m1 = 15.2, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x60). C/2015 G2 (MASTER) 2015 12 09.06 16.9 N I81 C/2015 G2 (MASTER) 2015 12 04.55 18.5 T F51 C/2015 G2 (MASTER) 2015 12 03.46 16.2 T 703 C/2015 K1 (MASTER) 2015 12 31.25 20.3 T F51 C/2015 K1 (MASTER) 2015 12 22.49 900 C/2015 K1 (MASTER) 2015 12 11.79 18.6 N 958 C/2015 K1 (MASTER) 2015 12 09.74 18.7 N 958 C/2015 K1 (MASTER) 2015 12 09.29 19.9 T F51 P/2015 P4 (PANSTARRS) 2015 12 11.45 20.4 N 474 P/2015 P4 (PANSTARRS) 2015 12 02.10 19.3 T G45 P/2015 Q1 (Scotti) 2015 12 31.28 16.6 T G45 P/2015 Q1 (Scotti) 2015 12 29.96 16.8 N C10 P/2015 Q1 (Scotti) 2015 12 29.30 16.6 N W96 P/2015 Q1 (Scotti) 2015 12 29.27 16.9 N W96 P/2015 Q1 (Scotti) 2015 12 24.46 16.7 T T05 P/2015 Q1 (Scotti) 2015 12 18.20 16.9 N W96 P/2015 Q1 (Scotti) 2015 12 17.03 ..C: m1 = 15.5, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x55). P/2015 Q1 (Scotti) 2015 12 16.35 15.9 T 703 P/2015 Q1 (Scotti) 2015 12 10.03 ..C: m1 = 15.4, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x55). P/2015 Q1 (Scotti) 2015 12 10.02 16.9 N J22 P/2015 Q1 (Scotti) 2015 12 09.57 18.5 N E07 P/2015 Q1 (Scotti) 2015 12 03.52 16.6 T T05 P/2015 R1 (PANSTARRS) 2015 12 31.29 20.9 T F51 P/2015 R1 (PANSTARRS) 2015 12 11.16 19.6 T G96 P/2015 R1 (PANSTARRS) 2015 12 04.89 19.6 T J43 P/2015 R1 (PANSTARRS) 2015 12 03.89 ..C: m1 = 18.5, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x110). P/2015 R1 (PANSTARRS) 2015 12 03.23 18.7 T G45 C/2015 R3 (PANSTARRS) 2015 12 08.49 21.8 N 474 C/2015 T2 (PANSTARRS) 2015 12 16.20 20.0 T G96 C/2015 T2 (PANSTARRS) 2015 12 16.20 20.1 T G96 C/2015 T2 (PANSTARRS) 2015 12 03.34 21.4 T F51 C/2015 T4 (PANSTARRS) 2015 12 26.41 17.0 T F51 C/2015 T4 (PANSTARRS) 2015 12 18.10 17.1 N W96 C/2015 T4 (PANSTARRS) 2015 12 13.00 ..C: m1 = 16.6, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x80). C/2015 T4 (PANSTARRS) 2015 12 13.00 16.9 N J22 C/2015 T4 (PANSTARRS) 2015 12 09.51 18.3 N E07 C/2015 T4 (PANSTARRS) 2015 12 03.49 17.3 T T05 C/2015 T4 (PANSTARRS) 2015 12 02.18 ..C: m1 = 16.5, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x80). P/2015 TO19 (Lemmon-PANSTARRS) 2015 12 12.83 20.5 T J43 P/2015 TO19 (Lemmon-PANSTARRS) 2015 12 12.83 20.7 T J43 C/2015 TQ209 (LINEAR) 2015 12 29.79 17.4 N A77 C/2015 TQ209 (LINEAR) 2015 12 15.13 18.1 T H45 C/2015 TQ209 (LINEAR) 2015 12 11.47 18.0 T D29 C/2015 TQ209 (LINEAR) 2015 12 04.82 18.5 N B96 C/2015 TQ209 (LINEAR) 2015 12 04.28 19.0 T F51 C/2015 V1 (PANSTARRS) 2015 12 30.81 19.1 N 461 C/2015 V1 (PANSTARRS) 2015 12 19.99 19.0 N A71 C/2015 V1 (PANSTARRS) 2015 12 13.03 19.0 N 157 C/2015 V1 (PANSTARRS) 2015 12 08.51 372 C/2015 V2 (Johnson) 2015 12 31.87 16.5 N B96 C/2015 V2 (Johnson) 2015 12 31.47 16.5 T T05 C/2015 V2 (Johnson) 2015 12 30.84 461 C/2015 V2 (Johnson) 2015 12 28.22 17.2 N B82 C/2015 V2 (Johnson) 2015 12 28.19 ..Z: m1 = 16.2, Dia. = 0.29', DC = .., 0.305-m. SCT, f6 (x0). C/2015 V2 (Johnson) 2015 12 20.01 17.6 N A71 C/2015 V2 (Johnson) 2015 12 20.01 17.7 N A71 C/2015 V2 (Johnson) 2015 12 18.00 ..C: m1 = 16.3, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x120). C/2015 V2 (Johnson) 2015 12 17.42 16.4 N H45 C/2015 V2 (Johnson) 2015 12 13.04 16.6 N I81 C/2015 V2 (Johnson) 2015 12 11.02 ..C: m1 = 16.0, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x120). C/2015 V2 (Johnson) 2015 12 09.45 16.6 N H45 C/2015 V2 (Johnson) 2015 12 05.14 17.3 N J01 C/2015 V2 (Johnson) 2015 12 04.49 16.8 T 703 C/2015 V2 (Johnson) 2015 12 04.05 ..C: m1 = 16.3, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x120). C/2015 V2 (Johnson) 2015 12 01.05 16.9 T J38 C/2015 V3 (PANSTARRS) 2015 12 31.48 19.0 T D29 C/2015 V3 (PANSTARRS) 2015 12 10.77 19.1 N K25 C/2015 V3 (PANSTARRS) 2015 12 09.24 20.6 T F51 C/2015 V3 (PANSTARRS) 2015 12 04.74 19.0 N C10 C/2015 V3 (PANSTARRS) 2015 12 02.08 18.2 T G45 C/2015 V4 (PANSTARRS) 2015 12 31.55 19.4 N Q62 C/2015 V4 (PANSTARRS) 2015 12 31.55 19.4 N Q62 C/2015 V4 (PANSTARRS) 2015 12 15.24 19.4 N W96 C/2015 V4 (PANSTARRS) 2015 12 10.59 20.3 N 474 C/2015 W1 (Gibbs) 2015 12 29.65 18.9 N Q21 C/2015 W1 (Gibbs) 2015 12 20.04 19.3 N A71 C/2015 W1 (Gibbs) 2015 12 18.49 17.6 T I52 C/2015 W1 (Gibbs) 2015 12 17.48 17.7 T G45 C/2015 W1 (Gibbs) 2015 12 17.14 ..C: m1 = 17.8, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x120). C/2015 W1 (Gibbs) 2015 12 12.73 19.8 N Q62 C/2015 W1 (Gibbs) 2015 12 10.15 ..C: m1 = 15.1, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x120). C/2015 W1 (Gibbs) 2015 12 08.21 18.5 T 215 C/2015 W1 (Gibbs) 2015 12 05.08 19.2 N I89 C/2015 W1 (Gibbs) 2015 12 04.40 18.9 T 850 P/2015 W2 (Catalina) 2015 12 31.22 19.3 T G96 P/2015 W2 (Catalina) 2015 12 30.00 19.1 T K51 P/2015 W2 (Catalina) 2015 12 22.76 19.3 N K61 P/2015 W2 (Catalina) 2015 12 18.42 18.9 T I52 P/2015 W2 (Catalina) 2015 12 17.18 20.6 T I52 P/2015 W2 (Catalina) 2015 12 16.95 ..C: m1 = 18.3, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). P/2015 W2 (Catalina) 2015 12 10.87 19.0 N K25 P/2015 W2 (Catalina) 2015 12 09.98 ..C: m1 = 18.3, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x120). P/2015 W2 (Catalina) 2015 12 08.23 18.9 T 703 P/2015 W2 (Catalina) 2015 12 05.30 18.7 N H45 P/2015 W2 (Catalina) 2015 12 03.04 ..C: m1 = 17.7, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x120). P/2015 W2 (Catalina) 2015 12 03.03 17.5 N I81 P/2015 X1 (PANSTARRS) 2015 12 08.49 19.7 N 372 P/2015 X1 (PANSTARRS) 2015 12 06.84 20.1 N 958 P/2015 X1 (PANSTARRS) 2015 12 05.27 20.0 T 568 C/2015 XY1 (Lemmon) 2015 12 31.12 19.2 T 461 C/2015 XY1 (Lemmon) 2015 12 16.47 20.0 T G96 C/2015 X2 (Catalina) 2015 12 08.19 19.6 T 215 C/2015 X2 (Catalina) 2015 12 08.19 19.7 T 215 C/2015 X2 (Catalina) 2015 12 05.84 20.1 T O75 C/2015 X2 (Catalina) 2015 12 05.05 19.3 T C10 P/2015 X3 (PANSTARRS) 2015 12 10.78 19.7 T 215 P/2015 X3 (PANSTARRS) 2015 12 10.78 20.0 T 215 P/2015 X3 (PANSTARRS) 2015 12 08.45 20.8 T 568 P/2015 X3 (PANSTARRS) 2015 12 08.31 21.2 T H01 C/2015 X4 (Elenin) 2015 12 31.98 16.3 N C10 C/2015 X4 (Elenin) 2015 12 31.30 17.1 T 926 C/2015 X4 (Elenin) 2015 12 30.32 16.5 N W96 C/2015 X4 (Elenin) 2015 12 28.82 16.4 N C36 C/2015 X4 (Elenin) 2015 12 28.81 16.2 N -- C/2015 X4 (Elenin) 2015 12 28.00 17.6 N C47 C/2015 X4 (Elenin) 2015 12 20.50 17.0 N H15 C/2015 X4 (Elenin) 2015 12 20.50 16.3 N H15 C/2015 X4 (Elenin) 2015 12 17.95 16.1 T 104 C/2015 X4 (Elenin) 2015 12 16.98 ..C: m1 = 15.9, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x120). C/2015 X4 (Elenin) 2015 12 16.83 16.0 N --- C/2015 X4 (Elenin) 2015 12 10.14 ..C: m1 = 17.3, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x120). C/2015 X4 (Elenin) 2015 12 10.14 17.5 N J22 C/2015 X4 (Elenin) 2015 12 09.39 17.5 N H45 C/2015 X4 (Elenin) 2015 12 08.64 17.7 T 900 C/2015 X5 (PANSTARRS) 2015 12 15.52 20.8 T 926 C/2015 X5 (PANSTARRS) 2015 12 13.48 20.7 T 926 P/2015 X6 (PANSTARRS) 2015 12 17.32 20.7 T 568 P/2015 X6 (PANSTARRS) 2015 12 15.34 291 C/2015 X7 (ATLAS) 2015 12 24.27 17.8 N W88 C/2015 X7 (ATLAS) 2015 12 19.32 17.8 N W96 C/2015 X7 (ATLAS) 2015 12 17.74 18.2 T Q62 C/2015 Y1 (LINEAR) 2015 12 31.38 17.8 T G45 C/2015 Y1 (LINEAR) 2015 12 30.34 17.6 N I47 C/2015 Y1 (LINEAR) 2015 12 28.34 17.9 N I47 C/2015 Y1 (LINEAR) 2015 12 26.15 18.2 T 215 C/2015 Y1 (LINEAR) 2015 12 20.52 19.0 T 926 C/2015 YG1 (NEOWISE) 2015 12 28.80 16.7 T 349 C/2015 YG1 (NEOWISE) 2015 12 28.79 16.7 T 349 C/2015 YG1 (NEOWISE) 2015 12 26.17 18.0 T 215 C/2015 YG1 (NEOWISE) 2015 12 20.07 18.9 T A71 C/2015 YG1 (NEOWISE) 2015 12 20.07 19.1 T A71 C/2015 YG1 (NEOWISE) 2015 12 19.79 17.3 T 300 P/2015 PD229 (ISON-Cameron) 2015 12 09.10 19.3 N G96
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Альманах .. |
01.01.2016, 13:22 | #38 |
Модератор
Регистрация: 20.05.2007
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Кометы наблюдаемые в январе 2016 года (после ~13.0m.) ..
Кометы в январе 2016 года .: Приведённый перечень комет блеск которых превышает уровень в ~13.0m., в той или иной мере доступных для наблюдения в разные телескопы, на разных широтах, в январе 2016 года .. 6P/d'Arrest 2016 01 14.37 21.6 T F51 6P/d'Arrest 2016 01 09.36 21.3 T F51 9P/Tempel 1 2016 01 24.04 17.9 T 215 9P/Tempel 1 2016 01 21.16 17.8 N C10 9P/Tempel 1 2016 01 19.78 17.9 T 349 9P/Tempel 1 2016 01 15.51 17.6 T 703 9P/Tempel 1 2016 01 13.48 18.3 T G45 9P/Tempel 1 2016 01 09.57 18.9 T F51 9P/Tempel 1 2016 01 04.50 18.5 T G45 19P/Borrelly 2016 01 29.35 18.4 N I40 19P/Borrelly 2016 01 24.05 17.2 T 215 19P/Borrelly 2016 01 23.64 19.3 T F51 19P/Borrelly 2016 01 16.25 17.8 N C10 19P/Borrelly 2016 01 14.64 C51 19P/Borrelly 2016 01 14.37 17.1 N W96 19P/Borrelly 2016 01 09.36 17.8 N W96 19P/Borrelly 2016 01 01.19 18.0 N C23 22P/Kopff 2016 01 01.37 13.7 T 349 22P/Kopff 2016 01 01.36 349 22P/Kopff 2016 01 01.36 13.7 T 349 44P/Reinmuth 2 2016 01 25.77 18.3 T 215 44P/Reinmuth 2 2016 01 17.82 17.1 N K20 44P/Reinmuth 2 2016 01 11.88 18.7 T J43 44P/Reinmuth 2 2016 01 08.38 19.8 T F51 44P/Reinmuth 2 2016 01 03.48 17.4 N Q21 50P/Arend 2016 01 25.75 18.4 T 215 50P/Arend 2016 01 17.79 17.8 N C23 50P/Arend 2016 01 14.27 18.3 T T05 50P/Arend 2016 01 06.75 18.3 N K25 50P/Arend 2016 01 02.09 17.1 T 703 61P/Shajn-Schaldach 2016 01 26.75 18.3 T 215 61P/Shajn-Schaldach 2016 01 21.27 19.7 T F51 61P/Shajn-Schaldach 2016 01 14.89 18.1 N B54 61P/Shajn-Schaldach 2016 01 13.10 16.9 T G45 61P/Shajn-Schaldach 2016 01 10.53 17.2 T D88 61P/Shajn-Schaldach 2016 01 05.11 18.3 N H47 61P/Shajn-Schaldach 2016 01 03.19 18.2 N H45 65P/Gunn 2016 01 24.03 17.4 T 215 65P/Gunn 2016 01 23.17 18.0 N G40 65P/Gunn 2016 01 14.44 17.0 N H45 65P/Gunn 2016 01 09.57 18.8 T F51 65P/Gunn 2016 01 03.80 17.3 N Q21 67P/Churyumov-Gerasimenko 2016 01 30.09 16.7 N J01 67P/Churyumov-Gerasimenko 2016 01 24.75 14.0 T 349 67P/Churyumov-Gerasimenko 2016 01 24.04 17.1 T 215 67P/Churyumov-Gerasimenko 2016 01 22.10 16.1 N C23 67P/Churyumov-Gerasimenko 2016 01 18.39 ..C: m1 = 15.2, Dia. = 1.0', DC = .., хвост = 0.14°, pa = 299°, 0.51-m. L, f4 (x720). 67P/Churyumov-Gerasimenko 2016 01 16.37 16.9 N W96 67P/Churyumov-Gerasimenko 2016 01 11.48 16.0 N H45 67P/Churyumov-Gerasimenko 2016 01 10.83 16.8 N Q21 67P/Churyumov-Gerasimenko 2016 01 07.28 16.2 N W96 67P/Churyumov-Gerasimenko 2016 01 04.09 16.9 N L04 74P/Smirnova-Chernykh 2016 01 31.29 19.8 T F51 74P/Smirnova-Chernykh 2016 01 25.78 18.1 T 215 74P/Smirnova-Chernykh 2016 01 03.35 19.4 T F51 77P/Longmore 2016 01 21.21 16.5 N C10 77P/Longmore 2016 01 14.48 17.1 N H45 77P/Longmore 2016 01 11.11 C51 77P/Longmore 2016 01 10.78 17.2 N Q21 77P/Longmore 2016 01 07.33 16.3 N W96 88P/Howell 2016 01 30.26 19.8 T F51 88P/Howell 2016 01 26.74 17.9 T 215 88P/Howell 2016 01 24.26 19.3 T F51 88P/Howell 2016 01 21.14 16.8 T 703 88P/Howell 2016 01 16.07 18.3 N H47 88P/Howell 2016 01 13.11 C51 88P/Howell 2016 01 10.50 D88 92P/Sanguin 2016 01 13.20 19.6 T G45 92P/Sanguin 2016 01 13.20 20.3 T G45 92P/Sanguin 2016 01 12.29 21.4 T F51 94P/Russell 4 2016 01 08.26 19.7 T F51 94P/Russell 4 2016 01 03.52 20.8 N Q21 94P/Russell 4 2016 01 02.22 19.8 T G96 104P/Kowal 2 2016 01 27.84 18.6 N G40 104P/Kowal 2 2016 01 25.74 18.4 T 215 104P/Kowal 2 2016 01 16.84 19.0 N G40 104P/Kowal 2 2016 01 10.84 G40 113P/Spitaler 2016 01 13.51 21.1 T F51 116P/Wild 4 2016 01 30.19 16.0 N 215 116P/Wild 4 2016 01 21.26 15.2 N C10 116P/Wild 4 2016 01 15.38 15.8 N W96 116P/Wild 4 2016 01 11.71 UT: m1 = 13.7, Dia. = 0.7', DC = 2/3, диффузная кома, хвоста нет, 0.254-m. L, f4.7 (x83). 116P/Wild 4 2016 01 11.47 ..S: m1 = 13.7, Dia. = 0.7', DC = 2/, 0.254-m. L, f4.7 (x83). 116P/Wild 4 2016 01 09.84 UT: m1 = 13.3, Dia. = 0.7', DC = 3, 0.40-m. L, f4.5 (x257). 116P/Wild 4 2016 01 07.36 15.7 N W96 116P/Wild 4 2016 01 01.24 15.7 N C23 117P/Helin-Roman-Alu 1 2016 01 26.73 17.5 T 215 117P/Helin-Roman-Alu 1 2016 01 21.29 17.3 T T05 117P/Helin-Roman-Alu 1 2016 01 14.52 16.8 T D29 117P/Helin-Roman-Alu 1 2016 01 10.45 D88 117P/Helin-Roman-Alu 1 2016 01 02.53 16.6 T D29 117P/Helin-Roman-Alu 1 2016 01 01.25 18.4 T F51 118P/Shoemaker-Levy 4 2016 01 26.72 17.8 T 215 118P/Shoemaker-Levy 4 2016 01 21.29 17.3 T T05 118P/Shoemaker-Levy 4 2016 01 14.53 16.7 T D29 118P/Shoemaker-Levy 4 2016 01 11.06 16.7 N H45 143P/Kowal-Mrkos 2016 01 07.26 21.0 T F51 143P/Kowal-Mrkos 2016 01 02.20 20.4 T G96 150P/LONEOS 2016 01 24.34 18.5 T F51 150P/LONEOS 2016 01 14.20 18.7 T G45 150P/LONEOS 2016 01 12.21 18.7 T 703 150P/LONEOS 2016 01 11.14 17.8 N H45 151P/Helin 2016 01 26.76 19.3 T 215 158P/Kowal-LINEAR 2016 01 18.64 19.0 N Q21 158P/Kowal-LINEAR 2016 01 17.39 19.5 T H45 158P/Kowal-LINEAR 2016 01 10.41 19.3 T G45 162P/Siding Spring 2016 01 31.56 17.1 T T05 162P/Siding Spring 2016 01 24.90 17.4 N I72 162P/Siding Spring 2016 01 21.97 16.9 N C23 162P/Siding Spring 2016 01 05.47 17.3 T H45 180P/NEAT 2016 01 30.39 17.9 T G45 194P/LINEAR 2016 01 30.86 19.2 N G40 194P/LINEAR 2016 01 14.25 19.2 T G45 204P/LINEAR-NEAT 2016 01 21.99 16.5 N C23 204P/LINEAR-NEAT 2016 01 16.52 17.4 T T05 204P/LINEAR-NEAT 2016 01 13.32 16.2 T G45 204P/LINEAR-NEAT 2016 01 10.64 17.4 N Q21 204P/LINEAR-NEAT 2016 01 07.42 18.5 T F51 204P/LINEAR-NEAT 2016 01 05.41 17.4 N H45 204P/LINEAR-NEAT 2016 01 04.37 16.8 T G45 204P/LINEAR-NEAT 2016 01 02.35 17.1 N W96 205P/Giacobini 2016 01 12.49 20.9 N E07 211P/Hill 2016 01 22.00 16.8 N C23 211P/Hill 2016 01 16.50 17.7 T T05 211P/Hill 2016 01 13.30 17.2 T G45 211P/Hill 2016 01 10.62 17.5 N Q21 211P/Hill 2016 01 07.42 18.8 T F51 211P/Hill 2016 01 05.41 17.2 N H45 211P/Hill 2016 01 04.35 16.8 T G45 211P/Hill 2016 01 02.98 16.9 N C35 216P/LINEAR 2016 01 31.28 20.7 T G96 220P/McNaught 2016 01 31.29 21.9 T F51 220P/McNaught 2016 01 14.26 21.6 T F51 220P/McNaught 2016 01 04.29 21.4 T F51 230P/LINEAR 2016 01 29.83 ..S: m1 = 15.4, Dia. = 0.15', DC = 8, 0.603-m. L, f4 (x406). 230P/LINEAR 2016 01 26.41 16.2 T F51 230P/LINEAR 2016 01 25.79 ..S: m1 = 12.6, Dia. = 0.8', DC = 6, 0.54-m. L, f5 (x180). 230P/LINEAR 2016 01 23.87 G40 230P/LINEAR 2016 01 22.76 15.9 T 215 230P/LINEAR 2016 01 16.81 15.7 N C86 230P/LINEAR 2016 01 12.52 15.2 N Q21 230P/LINEAR 2016 01 09.43 UT: m1 = 13.9, Dia. = 0.6', DC = 4, 0.40-m. L, f4.5 (x257). 230P/LINEAR 2016 01 08.97 ..S: m1 = 12.3, Dia. = 0.8', DC = 2, 0.54-m. L, f5 (x125). 230P/LINEAR 2016 01 08.94 15.0 N B96 230P/LINEAR 2016 01 07.46 ..M: m1 = 13.6, Dia. = 0.9', DC = 4, 0.254-m. L, f4.7 (x83). 230P/LINEAR 2016 01 04.27 15.0 T T05 230P/LINEAR 2016 01 02.94 14.8 N K25 230P/LINEAR 2016 01 01.84 ..S: m1 = 13.5, Dia. = 0.5', DC = 7, 0.60-m. L, f4 (x200). 246P/NEAT 2016 01 14.25 20.6 T F51 249P/LINEAR 2016 01 29.77 UT: m1 = [15.8, Dia. = ..', DC = .., 0.603-m. L (x305). 249P/LINEAR 2016 01 29.07 17.2 N H45 249P/LINEAR 2016 01 21.79 17.2 T 215 249P/LINEAR 2016 01 13.06 16.4 N H45 249P/LINEAR 2016 01 12.25 17.0 T T05 249P/LINEAR 2016 01 09.43 UT: m1 = [13.0, Dia. = ..', DC = .., 0.40-m. L, f4.5 (x257). 249P/LINEAR 2016 01 08.74 ..Z: m1 = 13.0, Dia. = 0.5', DC = .., 0.30-m. A, f5 (x25). 249P/LINEAR 2016 01 06.74 14.7 T A77 249P/LINEAR 2016 01 06.73 17.8 N A77 249P/LINEAR 2016 01 02.10 15.0 T Q65 252P/LINEAR 2016 01 21.29 18.7 T W86 252P/LINEAR 2016 01 18.24 17.8 T G45 252P/LINEAR 2016 01 12.58 19.5 N E07 252P/LINEAR 2016 01 06.51 19.2 T 568 252P/LINEAR 2016 01 03.59 19.5 N Q21 252P/LINEAR 2016 01 01.62 19.3 N Q68 269P/Jedicke 2016 01 08.61 20.1 T F51 306P/LINEAR 2016 01 08.44 21.9 T F51 308P/Lagerkvist-Carsenty 2016 01 03.57 867 308P/Lagerkvist-Carsenty 2016 01 03.50 19.2 N Q21 308P/Lagerkvist-Carsenty 2016 01 02.18 19.3 T G96 310P/Hill 2016 01 16.40 20.8 T F51 310P/Hill 2016 01 01.47 20.8 T F51 314P/Montani 2016 01 13.83 19.0 N K25 314P/Montani 2016 01 04.25 18.9 T G45 314P/Montani 2016 01 02.30 18.8 T G96 315P/LONEOS 2016 01 24.26 19.3 T F51 315P/LONEOS 2016 01 13.32 19.6 T F51 315P/LONEOS 2016 01 04.28 19.4 T F51 318P/McNaught-Hartley 2016 01 29.05 17.7 N H45 318P/McNaught-Hartley 2016 01 22.73 17.7 T 215 318P/McNaught-Hartley 2016 01 13.80 18.3 N 160 318P/McNaught-Hartley 2016 01 12.26 18.4 T T05 319P/Catalina-McNaught 2016 01 04.28 21.7 T F51 327P/Van Ness 2016 01 12.25 18.1 T T05 329P/LINEAR-Catalina 2016 01 29.85 UT: m1 = [15.3, Dia. = ..', DC = .., 0.603-m. L (x305). 329P/LINEAR-Catalina 2016 01 25.80 16.8 N A77 329P/LINEAR-Catalina 2016 01 22.78 18.0 T 215 329P/LINEAR-Catalina 2016 01 16.83 16.8 N C10 329P/LINEAR-Catalina 2016 01 13.17 16.0 T G45 329P/LINEAR-Catalina 2016 01 11.83 16.6 N C86 329P/LINEAR-Catalina 2016 01 07.27 18.3 T F51 329P/LINEAR-Catalina 2016 01 03.53 16.8 N Q21 329P/LINEAR-Catalina 2016 01 02.92 16.7 N K25 330P/Catalina 2016 01 23.32 19.8 T F51 330P/Catalina 2016 01 06.85 18.9 N K25 330P/Catalina 2016 01 02.26 19.9 T F51 P/2001 F1 (NEAT) 2016 01 07.91 20.1 T 461 P/2006 G1 (McNaught) 2016 01 18.59 22.3 T F51 -- P/2006 G1 (McNaught) 2006 08 29.44 20.8 N 415 C/2006 S3 (LONEOS) 2016 01 29.33 18.5 N I40 C/2006 S3 (LONEOS) 2016 01 21.57 19.9 T F51 C/2006 S3 (LONEOS) 2016 01 17.10 17.0 T 461 C/2006 S3 (LONEOS) 2016 01 08.60 20.5 T F51 P/2007 VA85 (LINEAR) 2016 01 16.31 17.9 N W96 P/2007 VA85 (LINEAR) 2016 01 10.57 17.4 T Q62 P/2007 VA85 (LINEAR) 2016 01 10.37 17.8 R W96 P/2007 VA85 (LINEAR) 2016 01 10.32 17.6 R W96 P/2008 Y2 (Gibbs) 2016 01 12.23 20.7 T Y28 P/2008 Y2 (Gibbs) 2016 01 10.27 19.7 N J04 C/2010 U3 (Boattini) 2016 01 16.72 19.0 N 461 C/2010 U3 (Boattini) 2016 01 03.20 18.4 N H45 P/2010 V1 (Ikeya-Murakami) 2016 01 11.56 20.6 N F65 P/2010 V1 (Ikeya-Murakami) 2016 01 10.81 18.8 T 349 P/2010 V1 (Ikeya-Murakami) 2016 01 10.63 19.3 N 372 P/2010 V1 (Ikeya-Murakami) 2016 01 09.29 20.0 N W96 P/2010 V1 (Ikeya-Murakami) 2016 01 05.25 19.2 N A77 P/2010 V1 (Ikeya-Murakami) 2016 01 03.52 H06 P/2010 V1 (Ikeya-Murakami) 2016 01 02.66 19.3 T 300 P/2010 V1 (Ikeya-Murakami) 2016 01 02.51 20.6 T 926 P/2010 V1-A (Ikeya-Murakami) 2016 01 21.04 19.2 N C10 P/2010 V1-A (Ikeya-Murakami) 2016 01 21.00 19.3 N C10 P/2010 V1-B (Ikeya-Murakami) 2016 01 21.04 19.0 N C10 P/2010 V1-B (Ikeya-Murakami) 2016 01 21.00 18.8 N C10 P/2010 V1-B (Ikeya-Murakami) 2016 01 06.11 19.7 N A77 P/2010 V1-B (Ikeya-Murakami) 2016 01 06.08 19.4 N A77 P/2010 V1-B (Ikeya-Murakami) 2016 01 06.04 19.8 N A77 P/2010 V1-B (Ikeya-Murakami) 2016 01 06.03 19.6 N A77 P/2010 V1-B (Ikeya-Murakami) 2016 01 05.23 18.9 N A77 P/2010 V1-B (Ikeya-Murakami) 2016 01 05.21 19.6 N A77 P/2010 V1-B (Ikeya-Murakami) 2016 01 04.34 20.1 N W96 P/2010 V1-B (Ikeya-Murakami) 2016 01 04.25 19.7 N W96 P/2010 V1-B (Ikeya-Murakami) 2016 01 04.21 19.3 N W96 P/2010 V1-B (Ikeya-Murakami) 2016 01 04.20 19.2 N W96 P/2010 V1-B (Ikeya-Murakami) 2016 01 03.20 19.2 R A77 P/2010 V1-B (Ikeya-Murakami) 2016 01 03.19 19.6 R A77 P/2010 V1-B (Ikeya-Murakami) 2016 01 03.17 19.3 R A77 P/2010 V1-C (Ikeya-Murakami) н/д C/2011 KP36 (Spacewatch) 2016 01 21.73 16.5 N 160 C/2011 KP36 (Spacewatch) 2016 01 13.73 16.5 N 160 C/2011 KP36 (Spacewatch) 2016 01 01.73 17.1 N 160 P/2011 S1 (Gibbs) 2016 01 14.43 21.2 T F51 P/2011 S1 (Gibbs) 2016 01 03.27 G96 C/2012 K8 (Lemmon) 2016 01 17.15 18.4 T 461 C/2013 A1 (Siding Spring) 2016 01 31.63 18.3 T T05 C/2013 A1 (Siding Spring) 2016 01 30.34 18.0 T G45 C/2013 A1 (Siding Spring) 2016 01 22.07 17.7 N C23 C/2013 A1 (Siding Spring) 2016 01 21.11 18.1 N C10 C/2013 G9 (Tenagra) 2016 01 19.55 19.3 T F51 C/2013 G9 (Tenagra) 2016 01 13.58 18.3 T Q60 C/2013 V2 (Borisov) 2016 01 09.65 20.5 T F51 C/2013 V4 (Catalina) 2016 01 25.78 17.4 N 215 C/2013 V4 (Catalina) 2016 01 24.87 16.0 N I72 C/2013 V4 (Catalina) 2016 01 18.77 18.6 N C47 C/2013 V4 (Catalina) 2016 01 15.65 15.8 T D81 C/2013 V4 (Catalina) 2016 01 03.45 367 C/2013 V4 (Catalina) 2016 01 02.95 16.1 N C35 C/2014 A4 (SONEAR) 2016 01 25.73 16.9 T 215 C/2014 A4 (SONEAR) 2016 01 24.85 16.7 N I72 C/2014 A4 (SONEAR) 2016 01 17.81 16.6 N K20 C/2014 A4 (SONEAR) 2016 01 16.76 16.9 N C10 C/2014 A4 (SONEAR) 2016 01 11.05 16.1 N H45 C/2014 A4 (SONEAR) 2016 01 08.80 16.6 N 213 C/2014 A4 (SONEAR) 2016 01 03.12 16.5 N H45 C/2014 A4 (SONEAR) 2016 01 01.76 17.8 N 160 C/2014 B1 (Schwartz) 2016 01 31.29 16.3 T G96 C/2014 B1 (Schwartz) 2016 01 21.46 16.8 T T05 C/2014 B1 (Schwartz) 2016 01 14.39 16.5 N H45 C/2014 B1 (Schwartz) 2016 01 10.38 16.0 T G45 C/2014 B1 (Schwartz) 2016 01 07.93 17.9 N 461 C/2014 B1 (Schwartz) 2016 01 03.61 17.4 N Q21 C/2014 B1 (Schwartz) 2016 01 01.54 16.9 T T05 C/2014 N3 (NEOWISE) 2016 01 24.05 17.2 N H45 C/2014 N3 (NEOWISE) 2016 01 21.81 17.6 T 215 C/2014 N3 (NEOWISE) 2016 01 16.89 17.0 N G40 C/2014 N3 (NEOWISE) 2016 01 11.05 16.2 N H45 C/2014 N3 (NEOWISE) 2016 01 03.45 15.6 T D81 C/2014 N3 (NEOWISE) 2016 01 03.12 16.4 N H45 C/2014 N3 (NEOWISE) 2016 01 02.93 16.2 N C35 C/2014 OE4 (PANSTARRS) 2016 01 30.49 17.9 T G45 C/2014 Q2 (Lovejoy) 2016 01 30.21 17.0 N 215 C/2014 Q2 (Lovejoy) 2016 01 26.81 14.6 T 349 C/2014 Q2 (Lovejoy) 2016 01 20.29 16.7 N G40 C/2014 R3 (PANSTARRS) 2016 01 17.17 17.2 T 461 C/2014 W3 (PANSTARRS) 2016 01 04.51 21.4 N 474 C/2014 W11 (PANSTARRS) 2016 01 30.18 16.3 T 215 C/2014 W11 (PANSTARRS) 2016 01 24.78 14.8 T 349 C/2014 W11 (PANSTARRS) 2016 01 16.83 14.9 T D81 C/2014 W11 (PANSTARRS) 2016 01 10.23 14.8 T Z22 C/2014 W11 (PANSTARRS) 2016 01 09.85 UT: m1 = [14.0, Dia. = ..', DC = .., 0.40-m. L, f4.5 (x257). C/2014 W11 (PANSTARRS) 2016 01 02.28 15.6 N W96 C/2014 Y1 (PANSTARRS) 2016 01 30.20 215 C/2014 Y1 (PANSTARRS) 2016 01 19.84 18.0 N Q21 C/2014 Y1 (PANSTARRS) 2016 01 10.81 17.1 N Q21 C/2014 Y1 (PANSTARRS) 2016 01 01.25 16.8 N C23 C/2015 B2 (PANSTARRS) 2016 01 12.45 19.0 N E07 C/2015 B2 (PANSTARRS) 2016 01 10.49 18.5 N 474 C/2015 B2 (PANSTARRS) 2016 01 02.04 17.5 N I47 C/2015 D3 (PANSTARRS) 2016 01 19.52 19.4 T 703 C/2015 D3 (PANSTARRS) 2016 01 17.44 19.1 N H45 C/2015 D3 (PANSTARRS) 2016 01 10.53 19.5 T G45 C/2015 D3 (PANSTARRS) 2016 01 08.06 19.3 T 461 C/2015 F4 (Jacques) 2016 01 24.04 17.7 T H45 C/2015 F4 (Jacques) 2016 01 22.74 17.6 T 215 C/2015 F4 (Jacques) 2016 01 17.82 17.2 N C23 C/2015 F4 (Jacques) 2016 01 13.05 17.3 N H45 C/2015 F4 (Jacques) 2016 01 09.39 D88 C/2015 F4 (Jacques) 2016 01 03.38 16.5 T D81 C/2015 GX (PANSTARRS) 2016 01 25.76 18.0 T 215 C/2015 GX (PANSTARRS) 2016 01 14.16 C51 C/2015 GX (PANSTARRS) 2016 01 10.48 17.6 T D88 C/2015 GX (PANSTARRS) 2016 01 08.32 18.5 T T05 C/2015 G2 (MASTER) 2016 01 17.94 18.1 N B96 C/2015 G2 (MASTER) 2016 01 14.48 18.3 T D88 C/2015 G2 (MASTER) 2016 01 08.42 17.7 T T05 C/2015 G2 (MASTER) 2016 01 01.28 17.4 T G96 C/2015 K1 (MASTER) 2016 01 25.73 18.9 T 215 P/2015 Q1 (Scotti) 2016 01 24.41 19.1 T F51 P/2015 Q1 (Scotti) 2016 01 18.22 16.7 T G45 P/2015 Q1 (Scotti) 2016 01 16.35 19.0 T F51 P/2015 Q1 (Scotti) 2016 01 11.44 18.1 T T05 P/2015 Q1 (Scotti) 2016 01 10.48 18.3 N 474 P/2015 Q1 (Scotti) 2016 01 04.34 17.8 T T05 P/2015 Q1 (Scotti) 2016 01 01.58 17.2 N Q68 P/2015 R1 (PANSTARRS) 2016 01 13.31 21.4 T F51 P/2015 R1 (PANSTARRS) 2016 01 04.33 21.2 T F51 C/2015 T2 (PANSTARRS) 2016 01 31.29 21.5 T F51 C/2015 T2 (PANSTARRS) 2016 01 13.36 21.4 T F51 C/2015 T2 (PANSTARRS) 2016 01 07.85 21.0 T 461 C/2015 T2 (PANSTARRS) 2016 01 03.35 21.3 T F51 C/2015 T4 (PANSTARRS) 2016 01 26.61 C51 C/2015 T4 (PANSTARRS) 2016 01 25.30 16.7 T T05 C/2015 T4 (PANSTARRS) 2016 01 24.30 16.5 T T05 C/2015 T4 (PANSTARRS) 2016 01 23.31 16.7 T T05 C/2015 T4 (PANSTARRS) 2016 01 20.31 16.8 T T05 C/2015 T4 (PANSTARRS) 2016 01 13.54 D88 C/2015 T4 (PANSTARRS) 2016 01 10.54 18.1 N E07 C/2015 T4 (PANSTARRS) 2016 01 04.46 17.4 N 474 C/2015 T4 (PANSTARRS) 2016 01 01.54 16.8 N Q68 C/2015 T5 (Sheppard-Tholen) 2016 01 07.27 21.9 T 568 C/2015 TQ209 (LINEAR) 2016 01 29.75 ..S: m1 = 16.0, Dia. = 0.25', DC = 4, 0.603-m. L, f4 (x305). C/2015 TQ209 (LINEAR) 2016 01 26.74 17.7 T 215 C/2015 TQ209 (LINEAR) 2016 01 13.46 18.3 T D88 C/2015 TQ209 (LINEAR) 2016 01 03.14 17.6 T H45 C/2015 TQ209 (LINEAR) 2016 01 01.83 246 C/2015 V1 (PANSTARRS) 2016 01 19.32 19.8 T F51 C/2015 V1 (PANSTARRS) 2016 01 01.39 D95 C/2015 V2 (Johnson) 2016 01 24.88 16.1 N I72 C/2015 V2 (Johnson) 2016 01 24.03 16.0 N J38 C/2015 V2 (Johnson) 2016 01 21.26 16.1 T 703 C/2015 V2 (Johnson) 2016 01 16.83 15.9 T 461 C/2015 V2 (Johnson) 2016 01 15.23 ..C: m1 = 16.4, Dia. = 0.9', DC = .., 0.106-m. R, f5 (x900). C/2015 V2 (Johnson) 2016 01 11.40 16.5 T H45 C/2015 V2 (Johnson) 2016 01 05.40 16.2 N H45 C/2015 V4 (PANSTARRS) 2016 01 12.56 19.6 N E07 C/2015 V4 (PANSTARRS) 2016 01 04.55 18.9 N 474 C/2015 W1 (Gibbs) 2016 01 19.92 17.6 N C10 C/2015 W1 (Gibbs) 2016 01 15.49 18.1 T T05 C/2015 W1 (Gibbs) 2016 01 12.38 17.0 T H15 C/2015 W1 (Gibbs) 2016 01 07.42 19.2 T F51 C/2015 W1 (Gibbs) 2016 01 03.65 17.9 N Q21 C/2015 W1 (Gibbs) 2016 01 02.52 17.8 T I52 P/2015 W2 (Catalina) 2016 01 14.23 20.2 T G45 P/2015 W2 (Catalina) 2016 01 12.23 19.4 T G45 P/2015 X1 (PANSTARRS) 2016 01 03.29 20.9 T F51 C/2015 XY1 (Lemmon) 2016 01 19.02 19.0 T 461 C/2015 XY1 (Lemmon) 2016 01 13.36 19.5 T 703 C/2015 XY1 (Lemmon) 2016 01 01.64 20.3 T F51 C/2015 X4 (Elenin) 2016 01 31.22 16.9 T G96 C/2015 X4 (Elenin) 2016 01 29.87 ..S: m1 = 16.0, Dia. = 0.15', DC = 3, 0.603-m. L, f4 (x305). C/2015 X4 (Elenin) 2016 01 24.40 17.0 T D88 C/2015 X4 (Elenin) 2016 01 22.77 16.7 T 215 C/2015 X4 (Elenin) 2016 01 17.87 16.6 N C23 C/2015 X4 (Elenin) 2016 01 15.88 16.7 N 213 C/2015 X4 (Elenin) 2016 01 13.22 16.9 T G45 C/2015 X4 (Elenin) 2016 01 10.55 16.5 N Q21 C/2015 X4 (Elenin) 2016 01 06.93 17.1 N K25 C/2015 X4 (Elenin) 2016 01 04.14 16.5 N W96 C/2015 X4 (Elenin) 2016 01 02.34 16.2 N H45 C/2015 X4 (Elenin) 2016 01 01.59 16.3 T 349 C/2015 X5 (PANSTARRS) 2016 01 12.47 21.0 T F51 C/2015 X5 (PANSTARRS) 2016 01 11.57 20.1 N 474 P/2015 X6 (PANSTARRS) 2016 01 01.20 21.6 T 568 C/2015 X7 (ATLAS) 2016 01 23.97 17.2 T 215 C/2015 X7 (ATLAS) 2016 01 20.96 17.9 N C10 C/2015 X7 (ATLAS) 2016 01 14.29 16.7 N W96 C/2015 X7 (ATLAS) 2016 01 12.51 18.4 N E07 C/2015 X7 (ATLAS) 2016 01 10.58 16.5 N Q21 C/2015 X7 (ATLAS) 2016 01 04.53 17.5 N 474 C/2015 X7 (ATLAS) 2016 01 02.64 17.0 T 349 C/2015 X8 (NEOWISE) 2016 01 29.78 UT: m1 = [15.5, Dia. = ..', DC = .., 0.603-m. L (x305). C/2015 X8 (NEOWISE) 2016 01 29.78 20.1 N A77 C/2015 X8 (NEOWISE) 2016 01 29.75 19.8 N A77 C/2015 X8 (NEOWISE) 2016 01 26.83 ..Z: m1 = 13.0, Dia. = 1', DC = .., 0.30-m. A, f5 (x30). C/2015 X8 (NEOWISE) 2016 01 25.88 ..Z: m1 = 13.0, Dia. = 1', DC = .., 0.30-m. A, f5 (x30). C/2015 X8 (NEOWISE) 2016 01 24.00 17.9 T 215 C/2015 X8 (NEOWISE) 2016 01 17.09 ..C: m1 = 13.2, Dia. = 6', DC = .., 0.106-m. R, f5 (x840). C/2015 X8 (NEOWISE) 2016 01 16.61 17.2 T 900 C/2015 X8 (NEOWISE) 2016 01 14.74 17.0 T 372 C/2015 X8 (NEOWISE) 2016 01 09.82 UT: m1 = 12.7, Dia. = 1.3', DC = 0, 0.40-m. L, f4.5 (x144). C/2015 X8 (NEOWISE) 2016 01 08.69 14.7 T 349 C/2015 X8 (NEOWISE) 2016 01 08.68 14.7 T 349 C/2015 X8 (NEOWISE) 2016 01 05.46 17.4 N H45 C/2015 X8 (NEOWISE) 2016 01 01.98 17.4 N J01 C/2015 X8 (NEOWISE) 2016 01 01.02 17.2 N C10 C/2015 Y1 (LINEAR) 2016 01 19.16 17.0 N B74 C/2015 Y1 (LINEAR) 2016 01 14.62 16.9 T 900 C/2015 Y1 (LINEAR) 2016 01 12.51 18.6 T F51 C/2015 Y1 (LINEAR) 2016 01 11.43 17.4 T H45 C/2015 YG1 (NEOWISE) 2016 01 17.24 18.7 N 213 C/2015 YG1 (NEOWISE) 2016 01 08.72 349 C/2015 YG1 (NEOWISE) 2016 01 08.72 16.8 T 349 C/2015 YG1 (NEOWISE) 2016 01 04.70 D81 C/2015 YG1 (NEOWISE) 2016 01 03.14 17.2 T A77 C/2016 A1 (PANSTARRS) 2016 01 29.49 17.8 T T05 C/2016 A1 (PANSTARRS) 2016 01 20.53 17.5 T T05 C/2016 A1 (PANSTARRS) 2016 01 14.27 18.5 N W88 C/2016 A1 (PANSTARRS) 2016 01 10.59 18.7 N E07 C/2016 A1 (PanSTARRS) 2016 01 05.56 19.0 T 474 C/2016 A1 (PanSTARRS) 2016 01 02.32 18.6 R W96 C/2016 A1 (PanSTARRS) 2016 01 02.29 18.4 R W96 P/2016 A2 (Christensen) 2016 01 17.90 19.2 N C10 P/2016 A2 (Christensen) 2016 01 17.89 19.2 N C10 P/2016 A2 (Christensen) 2016 01 17.87 19.6 N C10 P/2016 A2 (Christensen) 2016 01 15.40 19.8 N H06 P/2016 A2 (Christensen) 2016 01 11.91 20.0 N G40 P/2016 A2 (Christensen) 2016 01 10.64 20.5 N E07 P/2016 A2 (Christensen) 2016 01 07.37 20.3 T F51 P/2016 A2 (Christensen) 2016 01 07.03 19.6 T 595 P/2016 A3 (PANSTARRS) C/2016 A3 (PANSTARRS) 2016 01 10.62 20.1 N E07 C/2016 A3 (PANSTARRS) 2016 01 07.57 20.3 T F51 C/2016 A3 (PANSTARRS) 2016 01 06.73 19.9 T O75 C/2016 A5 (PANSTARRS) 2016 02 15.39 568 C/2016 A5 (PANSTARRS) 2016 01 15.31 20.3 T 291 C/2016 A6 (PANSTARRS) 2016 02 10.32 20.9 T 568 C/2016 A6 (PANSTARRS) 2016 01 18.86 19.4 T K51 P/2016 A7 (PANSTARRS) 2016 01 22.53 21.0 T H01 C/2016 B1 (NEOWISE) 2016 01 22.36 19.1 T I47 C/2016 A8 (LINEAR) 2016 01 29.14 18.7 T 926 C/2016 A8 (LINEAR) 2016 01 29.10 19.8 T H01 C/2015 VL62 (Lemmon-Yeung-PanSTARRS) н/д C/2015 VL62 2016 01 29.10 20.0 T H01 C/2015 ER61 (PANSTARRS) 2016 01 23.47 17.9 N 695
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Альманах .. |
01.02.2016, 11:17 | #39 |
Модератор
Регистрация: 20.05.2007
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Кометы наблюдаемые в феврале 2016 года (после ~13.0m.) ..
Кометы в феврале 2016 года .: Приведённый перечень комет блеск которых превышает уровень в ~13.0m., в той или иной мере доступных для наблюдения в разные телескопы, на разных широтах, в феврале 2016 года .. 9P/Tempel 1 2016 02 28.43 15.6 T 703 9P/Tempel 1 2016 02 21.37 16.2 N I40 9P/Tempel 1 2016 02 19.43 16.2 T H45 9P/Tempel 1 2016 02 19.43 16.3 T H45 9P/Tempel 1 2016 02 18.38 16.3 T H45 9P/Tempel 1 2016 02 15.59 17.3 T T05 9P/Tempel 1 2016 02 11.74 16.7 T 900 9P/Tempel 1 2016 02 11.05 17.3 N A77 9P/Tempel 1 2016 02 05.12 17.9 N 160 9P/Tempel 1 2016 02 04.99 17.0 N B75 9P/Tempel 1 2016 02 04.14 ..C: m1 = 16.2, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x90). 9P/Tempel 1 2016 02 03.55 18.0 T F51 9P/Tempel 1 2016 02 03.49 17.0 T 703 10P/Tempel 2 2016 02 15.76 16.3 N C23 10P/Tempel 2 2016 02 15.76 15.2 N C23 10P/Tempel 2 2016 02 12.75 16.1 N C23 10P/Tempel 2 2016 02 11.40 13.6 T 349 10P/Tempel 2 2016 02 07.41 367 15P/Finlay 2016 02 06.58 22.1 T F51 17P/Holmes 2016 02 11.32 21.7 T F51 17P/Holmes 2016 02 03.27 20.4 T G96 19P/Borrelly 2016 02 21.33 18.5 N I40 19P/Borrelly 2016 02 19.09 17.7 N I81 19P/Borrelly 2016 02 18.48 19.3 N H47 19P/Borrelly 2016 02 16.75 16.4 T 349 19P/Borrelly 2016 02 09.48 19.0 N H47 19P/Borrelly 2016 02 04.23 18.0 N J22 19P/Borrelly 2016 02 04.23 ..C: m1 = 15.0, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x90). 29P/Schwassmann-Wachmann 1 2016 02 20.67 17.0 N E94 30P/Reinmuth 1 2016 02 06.86 ..S: m1 = 13.4, Dia. = 0.6', DC = 2/, 0.235-m. SCT, f10 (x181). -- 30P/Reinmuth 1 2011 06 25.25 19.8 T G96 44P/Reinmuth 2 2016 02 27.09 18.9 T G45 44P/Reinmuth 2 2016 02 13.15 18.9 T G96 44P/Reinmuth 2 2016 02 02.35 18.7 T T05 50P/Arend 2016 02 19.78 17.4 N K10 50P/Arend 2016 02 12.83 17.4 N C23 50P/Arend 2016 02 10.87 17.2 N I81 50P/Arend 2016 02 05.77 18.0 N 160 50P/Arend 2016 02 04.76 17.6 N 160 50P/Arend 2016 02 02.76 18.8 T C41 53P/Van Biesbroeck 2016 02 21.37 16.6 N W88 53P/Van Biesbroeck 2016 02 18.37 16.6 N I40 53P/Van Biesbroeck 2016 02 17.37 16.3 N I40 61P/Shajn-Schaldach 2016 02 18.03 19.8 N I40 61P/Shajn-Schaldach 2016 02 18.03 19.4 N I40 61P/Shajn-Schaldach 2016 02 05.84 18.1 T 104 61P/Shajn-Schaldach 2016 02 04.12 17.6 T 703 65P/Gunn 2016 02 28.38 16.3 T H15 65P/Gunn 2016 02 21.31 16.5 N I40 65P/Gunn 2016 02 18.40 16.6 N H45 65P/Gunn 2016 02 18.40 16.6 N H45 65P/Gunn 2016 02 13.03 17.0 T D00 65P/Gunn 2016 02 11.50 18.6 T F51 65P/Gunn 2016 02 05.10 17.2 N 160 65P/Gunn 2016 02 04.12 ..C: m1 = 16.2, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). 65P/Gunn 2016 02 03.54 18.6 T F51 73P/Schwassmann-Wachmann 3 2016 02 13.31 22.4 T G37 74P/Smirnova-Chernykh 2016 02 28.07 18.3 N H45 74P/Smirnova-Chernykh 2016 02 21.85 ..C: m1 = 17.8, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). 74P/Smirnova-Chernykh 2016 02 18.05 18.2 N I40 74P/Smirnova-Chernykh 2016 02 18.05 18.4 N I40 74P/Smirnova-Chernykh 2016 02 09.32 18.8 T T05 74P/Smirnova-Chernykh 2016 02 06.32 19.8 T F51 74P/Smirnova-Chernykh 2016 02 03.49 18.4 T D29 77P/Longmore 2016 02 24.52 16.7 N 467 77P/Longmore 2016 02 19.47 16.3 N H47 77P/Longmore 2016 02 18.46 16.4 T T05 77P/Longmore 2016 02 15.58 17.1 T F51 77P/Longmore 2016 02 11.75 900 77P/Longmore 2016 02 11.35 16.5 T W95 77P/Longmore 2016 02 11.21 ..C: m1 = 15.2, Dia. = 0.4', DC = .., 0.50-m. L, f3 (x140). 77P/Longmore 2016 02 07.49 16.4 N H47 77P/Longmore 2016 02 04.21 ..C: m1 = 15.3, Dia. = 0.3', DC = .., хвост = 1.5', pa = 302°, 0.50-m. L, f3 (x90). 77P/Longmore 2016 02 01.60 16.8 N E94 88P/Howell 2016 02 28.11 18.2 T G96 88P/Howell 2016 02 17.04 19.7 N I40 88P/Howell 2016 02 16.12 17.9 T G96 88P/Howell 2016 02 09.05 18.9 N I40 88P/Howell 2016 02 06.10 16.9 T 703 88P/Howell 2016 02 03.48 17.1 T D29 100P/Hartley 1 2016 02 27.51 17.9 T G45 100P/Hartley 1 2016 02 20.33 18.9 N W88 100P/Hartley 1 2016 02 18.79 18.4 T 349 100P/Hartley 1 2016 02 18.39 18.6 N I40 100P/Hartley 1 2016 02 17.53 18.7 T G45 100P/Hartley 1 2016 02 13.65 19.4 T F51 100P/Hartley 1 2016 02 10.46 18.4 T G45 100P/Hartley 1 2016 02 05.16 18.4 N 160 104P/Kowal 2 2016 02 24.77 18.6 N A71 104P/Kowal 2 2016 02 11.77 19.5 N A71 104P/Kowal 2 2016 02 10.84 18.3 N G40 110P/Hartley 3 2016 02 03.65 21.2 T F51 113P/Spitaler 2016 02 16.60 19.2 N Q21 113P/Spitaler 2016 02 11.40 20.7 T F51 117P/Helin-Roman-Alu 1 2016 02 10.11 17.0 T 703 117P/Helin-Roman-Alu 1 2016 02 04.80 17.2 N 160 118P/Shoemaker-Levy 4 2016 02 07.43 16.2 T 367 118P/Shoemaker-Levy 4 2016 02 07.43 367 118P/Shoemaker-Levy 4 2016 02 04.81 17.3 N 160 150P/LONEOS 2016 02 26.14 18.9 T 703 150P/LONEOS 2016 02 13.14 18.9 T G96 150P/LONEOS 2016 02 13.14 19.0 T G96 150P/LONEOS 2016 02 07.55 C51 150P/LONEOS 2016 02 06.32 19.0 T F51 150P/LONEOS 2016 02 02.54 18.7 T D29 158P/Kowal-LINEAR 2016 02 27.24 19.3 T 703 158P/Kowal-LINEAR 2016 02 16.19 19.1 T 703 158P/Kowal-LINEAR 2016 02 09.36 20.2 T F51 158P/Kowal-LINEAR 2016 02 04.06 ..C: m1 = 17.5, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x180). 158P/Kowal-LINEAR 2016 02 02.72 18.9 T D29 162P/Siding Spring 2016 02 28.04 ..C: m1 = 17.2, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x110). 162P/Siding Spring 2016 02 27.37 17.3 N H45 162P/Siding Spring 2016 02 24.49 17.6 T F51 162P/Siding Spring 2016 02 19.11 17.7 T H15 162P/Siding Spring 2016 02 18.23 17.2 N I81 162P/Siding Spring 2016 02 13.90 18.1 T Z22 162P/Siding Spring 2016 02 11.52 17.1 T D88 162P/Siding Spring 2016 02 11.17 ..C: m1 = 17.9, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x110). 162P/Siding Spring 2016 02 09.25 17.8 T G45 162P/Siding Spring 2016 02 06.28 17.7 T 703 162P/Siding Spring 2016 02 04.10 ..C: m1 = 17.6, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x110). 180P/NEAT 2016 02 24.59 18.9 T F51 180P/NEAT 2016 02 19.16 17.8 N I81 180P/NEAT 2016 02 18.74 17.2 T 349 180P/NEAT 2016 02 12.15 17.2 T Z22 180P/NEAT 2016 02 10.64 19.3 T F51 180P/NEAT 2016 02 05.16 17.8 N 160 194P/LINEAR 2016 02 21.28 20.4 T F51 204P/LINEAR-NEAT 2016 02 17.15 17.3 T G45 204P/LINEAR-NEAT 2016 02 15.46 18.1 T T05 204P/LINEAR-NEAT 2016 02 11.91 19.0 N C47 204P/LINEAR-NEAT 2016 02 09.27 16.4 T 703 204P/LINEAR-NEAT 2016 02 05.83 17.6 T 215 204P/LINEAR-NEAT 2016 02 05.04 ..C: m1 = 15.1, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). 204P/LINEAR-NEAT 2016 02 02.84 18.3 N A71 204P/LINEAR-NEAT 2016 02 02.66 16.6 T D29 211P/Hill 2016 02 17.50 18.2 N Q21 211P/Hill 2016 02 15.86 17.2 N K10 211P/Hill 2016 02 15.43 18.1 T T05 211P/Hill 2016 02 11.93 17.3 T Z22 211P/Hill 2016 02 09.31 18.8 T F51 211P/Hill 2016 02 07.20 16.6 T 703 211P/Hill 2016 02 05.01 ..C: m1 = 15.6, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). 211P/Hill 2016 02 04.03 ..C: m1 = 15.8, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). 211P/Hill 2016 02 03.15 16.6 T G96 216P/LINEAR 2016 02 03.33 21.2 T F51 230P/LINEAR 2016 02 28.14 17.9 T H45 230P/LINEAR 2016 02 25.92 ..C: m1 = 15.9, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x70). 230P/LINEAR 2016 02 21.33 17.2 T F51 230P/LINEAR 2016 02 18.93 16.8 N I81 230P/LINEAR 2016 02 15.37 16.7 T T05 230P/LINEAR 2016 02 13.23 16.3 T G96 230P/LINEAR 2016 02 12.95 ..S: m1 = 12.7, Dia. = 0.9', DC = 2, 0.54-m. L, f5 (x120). 230P/LINEAR 2016 02 11.91 16.4 N C43 230P/LINEAR 2016 02 08.99 16.5 N I81 230P/LINEAR 2016 02 06.95 17.3 N C47 230P/LINEAR 2016 02 06.86 ..S: m1 = 13.4, Dia. = 0.6', DC = 2/, 0.235-m. SCT, f10 (x181). 230P/LINEAR 2016 02 04.92 16.0 N C86 230P/LINEAR 2016 02 01.82 15.9 N C35 249P/LINEAR 2016 02 09.13 18.5 T 703 249P/LINEAR 2016 02 04.79 18.3 N 160 269P/Jedicke 2016 02 27.43 18.1 T 691 269P/Jedicke 2016 02 19.49 19.2 T F51 269P/Jedicke 2016 02 10.51 19.7 T F51 269P/Jedicke 2016 02 02.55 19.6 T F51 308P/Lagerkvist-Carsenty 2016 02 13.11 19.6 T G96 308P/Lagerkvist-Carsenty 2016 02 06.32 20.7 T F51 309P/LINEAR 2016 02 09.53 22.1 T F51 310P/Hill 2016 02 05.36 21.0 T F51 314P/Montani 2016 02 28.10 19.1 T H45 315P/LONEOS 2016 02 26.11 18.3 T 703 315P/LONEOS 2016 02 06.12 18.7 T 703 315P/LONEOS 2016 02 06.12 18.9 T 703 318P/McNaught-Hartley 2016 02 05.78 18.1 N 160 329P/LINEAR-Catalina 2016 02 28.12 18.9 N H45 329P/LINEAR-Catalina 2016 02 18.95 17.9 N I81 329P/LINEAR-Catalina 2016 02 10.95 17.7 N C23 329P/LINEAR-Catalina 2016 02 09.38 18.2 T T05 329P/LINEAR-Catalina 2016 02 09.01 17.7 N I81 329P/LINEAR-Catalina 2016 02 04.93 17.6 N 160 329P/LINEAR-Catalina 2016 02 03.58 17.1 T 900 329P/LINEAR-Catalina 2016 02 02.39 17.6 T T05 330P/Catalina 2016 02 28.15 19.0 T 703 332P/Ikeya-Murakami 2016 02 28.13 19.1 N 850 332P/Ikeya-Murakami 2016 02 19.06 18.1 N I81 332P-A/Ikeya-Murakami н/д 332P-B/Ikeya-Murakami н/д 332P-C/Ikeya-Murakami н/д 332P-D/Ikeya-Murakami н/д 332P-E/Ikeya-Murakami н/д 332P-F/Ikeya-Murakami н/д 332P-G/Ikeya-Murakami н/д 332P-H/Ikeya-Murakami н/д 332P-I/Ikeya-Murakami н/д 334P/NEAT 2016 02 09.31 20.9 T F51 335P/Gibbs 2016 02 11.64 21.1 T F51 336P/McNaught 2016 02 14.52 21.5 T F51 P/2001 F1 (NEAT) 2016 02 09.31 20.9 T F51 P/2001 F1 (NEAT) 2016 02 03.17 20.5 T G96 P/2003 T12 (SOHO) 2016 02 22.91 8.5 N C49 C/2006 S3 (LONEOS) 2016 02 16.32 17.5 T G45 C/2006 S3 (LONEOS) 2016 02 16.22 18.6 T W95 C/2006 S3 (LONEOS) 2016 02 10.66 18.3 T T05 C/2006 S3 (LONEOS) 2016 02 08.42 703 P/2008 Y2 (Gibbs) 2016 02 11.64 21.1 T F51 P/2008 Y2 (Gibbs) 2016 02 06.22 19.8 T J04 P/2008 Y2 (Gibbs) 2016 02 03.65 20.9 T F51 C/2010 U3 (Boattini) 2016 02 23.86 ..C: m1 = 14.8, Dia. = 0.8', DC = .., 0.50-m. L, f3 (x150). C/2010 U3 (Boattini) 2016 02 14.03 16.9 N I81 C/2010 U3 (Boattini) 2016 02 10.89 16.4 N I81 P/2010 V1 (Ikeya-Murakami) 2016 02 13.03 ..S: m1 = 14.2, Dia. = 0.6', DC = 7, 0.54-m. L, f2 (x10). P/2010 V1 (Ikeya-Murakami) 2016 02 08.74 17.0 T 349 P/2010 V1-A (Ikeya-Murakami) P/2010 V1-A (Ikeya-Murakami) 2016 02 16.97 18.4 N C10 P/2010 V1-A (Ikeya-Murakami) 2016 02 16.92 18.3 N C10 P/2010 V1-A (Ikeya-Murakami) 2016 02 10.00 ..C: m1 = 15.6, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). P/2010 V1-A (Ikeya-Murakami) 2016 02 07.11 ..C: m1 = 16.4, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). P/2010 V1-B (Ikeya-Murakami) н/д P/2010 V1-C (Ikeya-Murakami) н/д P/2010 V1-D (Ikeya-Murakami) н/д P/2010 V1-E (Ikeya-Murakami) н/д P/2010 V1-F (Ikeya-Murakami) н/д P/2010 V1-G (Ikeya-Murakami) н/д P/2010 V1-H (Ikeya-Murakami) н/д P/2010 V1-I (Ikeya-Murakami) н/д P/2012 K3 (Gibbs) 2016 02 01.32 21.0 T F51 выбыл из списка -- P/2012 K3 (Gibbs) 2012 09 09.40 19.7 N E07 C/2012 K8 (Lemmon) 2016 02 17.52 18.2 T H06 C/2013 A1 (Siding Spring) 2016 02 26.47 17.8 T 703 C/2013 A1 (Siding Spring) 2016 02 19.18 18.7 N I81 C/2013 A1 (Siding Spring) 2016 02 19.18 17.5 N I81 C/2013 A1 (Siding Spring) 2016 02 18.22 18.0 N I81 C/2013 A1 (Siding Spring) 2016 02 13.49 17.8 T G96 C/2013 A1 (Siding Spring) 2016 02 09.32 18.2 T G45 C/2013 A1 (Siding Spring) 2016 02 06.45 17.6 T 703 C/2013 C2 (Tenagra) 2016 02 05.38 19.1 N I40 C/2013 G9 (Tenagra) 2016 02 15.29 691 C/2013 G9 (Tenagra) 2016 02 13.38 18.7 N E85 C/2013 G9 (Tenagra) 2016 02 11.11 18.6 T Y00 C/2013 G9 (Tenagra) 2016 02 09.57 18.8 N E07 C/2013 G9 (Tenagra) 2016 02 01.21 18.6 N W88 C/2013 U2 (Holvorcem) 2016 02 20.47 19.9 T F51 C/2013 U2 (Holvorcem) 2016 02 16.69 18.9 N Q21 C/2013 U2 (Holvorcem) 2016 02 04.52 20.2 T F51 C/2013 V2 (Borisov) 2016 02 11.23 18.8 N J22 C/2013 V2 (Borisov) 2016 02 11.23 ..C: m1 = 17.4, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x120). C/2013 V4 (Catalina) 2016 02 27.00 16.2 N I81 C/2013 V4 (Catalina) 2016 02 20.91 16.3 N C86 C/2013 V4 (Catalina) 2016 02 19.03 17.5 N I81 C/2013 V4 (Catalina) 2016 02 19.03 16.7 N I81 C/2013 V4 (Catalina) 2016 02 18.03 16.4 N I81 C/2013 V4 (Catalina) 2016 02 13.96 16.5 N I81 C/2013 V4 (Catalina) 2016 02 09.23 17.6 N I81 C/2013 V4 (Catalina) 2016 02 05.52 367 C/2013 V4 (Catalina) 2016 02 05.03 ..C: m1 = 14.8, Dia. = 0.4', DC = .., 0.50-m. L, f3 (x120). C/2013 V4 (Catalina) 2016 02 04.95 16.1 N C86 C/2013 V4 (Catalina) 2016 02 01.87 15.4 N C35 C/2013 W2 (PANSTARRS) 2016 02 18.60 20.7 T F51 C/2014 A4 (SONEAR) 2016 02 29.78 16.4 N C23 C/2014 A4 (SONEAR) 2016 02 12.79 16.9 N C23 C/2014 A4 (SONEAR) 2016 02 11.73 17.4 N 160 C/2014 A4 (SONEAR) 2016 02 10.85 16.9 N I81 C/2014 A4 (SONEAR) 2016 02 05.75 17.5 N 160 C/2014 A4 (SONEAR) 2016 02 04.74 16.5 N 160 C/2014 A4 (SONEAR) 2016 02 03.05 17.7 N H45 C/2014 B1 (Schwartz) 2016 02 16.88 17.5 N C36 C/2014 B1 (Schwartz) 2016 02 05.96 17.7 T 215 C/2014 B1 (Schwartz) 2016 02 03.64 900 C/2014 N3 (NEOWISE) 2016 02 27.76 19.4 N C47 C/2014 N3 (NEOWISE) 2016 02 17.96 16.8 N I81 C/2014 N3 (NEOWISE) 2016 02 17.96 16.9 N I81 C/2014 N3 (NEOWISE) 2016 02 12.82 17.0 N C23 C/2014 N3 (NEOWISE) 2016 02 10.83 16.6 N I81 C/2014 N3 (NEOWISE) 2016 02 07.06 16.6 N H45 C/2014 N3 (NEOWISE) 2016 02 01.25 16.8 T T05 C/2014 OE4 (PANSTARRS) 2016 02 17.47 17.9 T G45 C/2014 OE4 (PANSTARRS) 2016 02 17.47 17.7 T G45 C/2014 Q1 (PANSTARRS) 2016 02 29.36 18.9 N I40 C/2014 Q1 (PANSTARRS) 2016 02 17.39 18.8 N I40 C/2014 Q1 (PANSTARRS) 2016 02 06.38 18.0 N I40 C/2014 Q2 (Lovejoy) 2016 02 17.85 15.1 T D81 C/2014 Q2 (Lovejoy) 2016 02 04.25 16.2 N J22 C/2014 Q2 (Lovejoy) 2016 02 04.25 ..C: m1 = 13.2, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x70). C/2014 R3 (PANSTARRS) 2016 02 18.51 H06 C/2014 W3 (PANSTARRS) 2016 02 03.47 21.7 N 474 C/2014 W11 (PANSTARRS) 2016 02 24.32 15.9 N W88 C/2014 W11 (PANSTARRS) 2016 02 21.17 ..C: m1 = 14.6, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x70). C/2014 W11 (PANSTARRS) 2016 02 14.64 16.8 T F51 C/2014 W11 (PANSTARRS) 2016 02 11.79 14.3 T 900 C/2014 W11 (PANSTARRS) 2016 02 11.22 ..C: m1 = 14.4, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x70). C/2014 W11 (PANSTARRS) 2016 02 10.24 16.2 T Y00 C/2014 W11 (PANSTARRS) 2016 02 04.22 15.5 N J22 C/2014 W11 (PANSTARRS) 2016 02 04.22 ..C: m1 = 14.4, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x70). C/2014 Y1 (PANSTARRS) 2016 02 20.10 C51 C/2014 Y1 (PANSTARRS) 2016 02 11.82 18.7 N 900 C/2014 Y1 (PANSTARRS) 2016 02 07.25 17.5 N J22 C/2014 Y1 (PANSTARRS) 2016 02 07.25 ..C: m1 = 15.2, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x60). C/2014 Y1 (PANSTARRS) 2016 02 05.65 17.7 T T05 C/2014 Y1 (PANSTARRS) 2016 02 04.62 18.5 N E94 C/2015 B2 (PANSTARRS) 2016 02 10.51 18.3 N E07 C/2015 B2 (PANSTARRS) 2016 02 10.51 18.2 N E07 C/2015 B2 (PANSTARRS) 2016 02 09.49 18.2 N E07 C/2015 B2 (PANSTARRS) 2016 02 06.40 18.4 N 474 C/2015 B2 (PANSTARRS) 2016 02 02.47 17.7 N 474 C/2015 D2 (PANSTARRS) 2016 02 05.52 21.9 T F51 C/2015 D3 (PANSTARRS) 2016 02 27.38 703 C/2015 D3 (PANSTARRS) 2016 02 15.44 19.6 T F51 C/2015 D3 (PANSTARRS) 2016 02 06.52 19.7 T F51 C/2015 D3 (PANSTARRS) 2016 02 02.50 19.8 T F51 C/2015 ER61 (PANSTARRS) 2016 02 27.43 17.7 T 691 C/2015 ER61 (PANSTARRS) 2016 02 19.49 18.6 T F51 C/2015 ER61 (PANSTARRS) 2016 02 18.35 17.7 N I40 C/2015 ER61 (PANSTARRS) 2016 02 18.35 17.8 N I40 C/2015 ER61 (PANSTARRS) 2016 02 16.62 18.0 N Q21 C/2015 ER61 (PANSTARRS) 2016 02 16.49 18.6 T 926 C/2015 ER61 (PANSTARRS) 2016 02 10.62 17.9 N Q21 C/2015 ER61 (PANSTARRS) 2016 02 10.51 19.1 T F51 C/2015 ER61 (PANSTARRS) 2016 02 10.35 17.9 T G45 C/2015 ER61 (PANSTARRS) 2016 02 07.13 17.9 N J22 C/2015 ER61 (PANSTARRS) 2016 02 07.13 ..C: m1 = 17.5, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). C/2015 ER61 (PANSTARRS) 2016 02 05.97 18.0 T 461 C/2015 ER61 (PANSTARRS) 2016 02 04.11 ..C: m1 = 17.7, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). C/2015 ER61 (PANSTARRS) 2016 02 03.40 17.4 T H45 C/2015 F4 (Jacques) 2016 02 12.81 18.2 N C23 C/2015 F4 (Jacques) 2016 02 10.81 17.9 N K02 C/2015 F4 (Jacques) 2016 02 07.06 18.4 N H45 C/2015 GX (PANSTARRS) 2016 02 28.11 19.2 T G96 C/2015 GX (PANSTARRS) 2016 02 10.16 18.0 T 703 C/2015 G2 (MASTER) 2016 02 05.94 19.1 T 215 C/2015 G2 (MASTER) 2016 02 05.94 17.9 T 215 C/2015 H2 (PANSTARRS) 2016 02 08.66 19.4 N 474 C/2015 H2 (PANSTARRS) 2016 02 08.66 19.0 N 474 C/2015 LC2 (PANSTARRS) 2016 02 13.51 H06 C/2015 LC2 (PANSTARRS) 2016 02 10.47 18.3 T G45 C/2015 LC2 (PANSTARRS) 2016 02 10.47 17.9 T G45 P/2015 Q1 (Scotti) 2016 02 25.34 19.6 N E85 P/2015 Q1 (Scotti) 2016 02 11.55 17.7 T 900 P/2015 Q1 (Scotti) 2016 02 10.14 17.9 T G45 P/2015 Q1 (Scotti) 2016 02 09.47 19.3 N E07 P/2015 Q1 (Scotti) 2016 02 05.13 18.6 N W88 P/2015 Q1 (Scotti) 2016 02 05.00 ..C: m1 = 17.1, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x55). P/2015 Q1 (Scotti) 2016 02 04.45 18.6 T T05 P/2015 Q1 (Scotti) 2016 02 03.98 ..C: m1 = 15.5, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x55). P/2015 Q1 (Scotti) 2016 02 02.48 19.7 N 474 C/2015 T4 (PANSTARRS) 2016 02 20.47 16.9 N E94 C/2015 T4 (PANSTARRS) 2016 02 06.39 17.7 N 474 C/2015 T4 (PANSTARRS) 2016 02 06.39 17.6 N 474 C/2015 T4 (PANSTARRS) 2016 02 02.47 16.3 T 900 C/2015 T5 (Sheppard-Tholen) 2016 02 02.26 22.4 T 568 C/2015 TQ209 (LINEAR) 2016 02 27.28 17.4 T T05 C/2015 TQ209 (LINEAR) 2016 02 19.27 17.5 T T05 C/2015 TQ209 (LINEAR) 2016 02 12.84 17.4 N C23 C/2015 TQ209 (LINEAR) 2016 02 12.84 17.2 N C23 C/2015 TQ209 (LINEAR) 2016 02 06.10 17.2 T 703 C/2015 TQ209 (LINEAR) 2016 02 04.30 18.1 T T05 C/2015 V1 (PANSTARRS) 2016 02 19.00 18.2 N I81 C/2015 V1 (PANSTARRS) 2016 02 13.97 19.0 N I81 C/2015 V1 (PANSTARRS) 2016 02 10.96 18.8 N I81 C/2015 V2 (Johnson) 2016 02 27.19 ..C: m1 = 16.2, Dia. = 1.3', DC = .., 0.106-m. R, f5 (x080). C/2015 V2 (Johnson) 2016 02 27.03 15.7 N I81 C/2015 V2 (Johnson) 2016 02 25.93 ..C: m1 = 15.5, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x150). C/2015 V2 (Johnson) 2016 02 23.92 16.1 N I57 C/2015 V2 (Johnson) 2016 02 18.23 16.2 N H45 C/2015 V2 (Johnson) 2016 02 18.23 16.1 N H45 C/2015 V2 (Johnson) 2016 02 14.05 16.1 N I81 C/2015 V2 (Johnson) 2016 02 11.28 15.9 T 703 C/2015 V2 (Johnson) 2016 02 10.84 ..C: m1 = 15.5, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x150). C/2015 V2 (Johnson) 2016 02 07.30 16.5 N H45 C/2015 V2 (Johnson) 2016 02 04.96 16.3 N C86 C/2015 V2 (Johnson) 2016 02 03.98 ..C: m1 = 15.6, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). C/2015 V2 (Johnson) 2016 02 03.32 ..C: m1 = 16.3, Dia. = 1.0', DC = .., 0.106-m. R, f5 (x960). C/2015 V2 (Johnson) 2016 02 01.85 15.9 N C35 C/2015 V4 (PANSTARRS) 2016 02 10.47 19.5 N E07 C/2015 V4 (PANSTARRS) 2016 02 09.54 19.5 N E07 C/2015 V4 (PANSTARRS) 2016 02 02.53 19.3 N 474 C/2015 VL62 (Lemmon-Yeung-PanSTARRS) 2016 02 06.73 19.3 T 461 C/2015 VL62 (Lemmon-Yeung-PanSTARRS) 2016 02 03.29 19.7 T F51 C/2015 W1 (Gibbs) 2016 02 23.85 17.8 N K02 C/2015 W1 (Gibbs) 2016 02 11.55 17.2 T D81 C/2015 W1 (Gibbs) 2016 02 11.44 D88 C/2015 W1 (Gibbs) 2016 02 09.45 18.1 T T05 C/2015 W1 (Gibbs) 2016 02 07.27 17.5 N H45 C/2015 W1 (Gibbs) 2016 02 04.01 ..C: m1 = 15.6, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x120). C/2015 W1 (Gibbs) 2016 02 03.10 17.7 T H15 P/2015 W2 (Catalina) 2016 02 02.36 21.0 T F51 C/2015 XY1 (Lemmon) 2016 02 05.88 19.1 T 461 C/2015 XY1 (Lemmon) 2016 02 05.28 19.5 N 850 C/2015 XY1 (Lemmon) 2016 02 04.42 20.1 T F51 C/2015 X2 (Catalina) 2016 02 07.52 18.8 T H06 C/2015 X2 (Catalina) 2016 02 07.52 H06 C/2015 X4 (Elenin) 2016 02 28.09 17.8 N H45 C/2015 X4 (Elenin) 2016 02 15.91 17.3 N C23 C/2015 X4 (Elenin) 2016 02 10.88 17.8 N K02 C/2015 X4 (Elenin) 2016 02 10.44 17.5 T T05 C/2015 X4 (Elenin) 2016 02 07.11 17.8 N H47 C/2015 X4 (Elenin) 2016 02 05.55 367 C/2015 X4 (Elenin) 2016 02 04.89 ..C: m1 = 16.7, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x120). C/2015 X4 (Elenin) 2016 02 04.45 17.3 T T05 C/2015 X5 (PANSTARRS) 2016 02 02.57 19.4 N 474 P/2015 X6 (PANSTARRS) 2016 02 01.23 20.6 T 568 P/2015 X6 (PANSTARRS) 2016 02 01.23 21.0 T 568 C/2015 X7 (ATLAS) 2016 02 25.35 18.4 T F51 C/2015 X7 (ATLAS) 2016 02 18.15 17.8 N I40 C/2015 X7 (ATLAS) 2016 02 11.59 16.8 T 900 C/2015 X7 (ATLAS) 2016 02 10.44 18.1 N 474 C/2015 X7 (ATLAS) 2016 02 08.56 17.8 N E07 C/2015 X7 (ATLAS) 2016 02 02.49 17.6 N 474 C/2015 Y1 (LINEAR) 2016 02 27.98 16.2 T Z22 C/2015 Y1 (LINEAR) 2016 02 24.97 16.4 T Z22 C/2015 Y1 (LINEAR) 2016 02 15.85 16.7 N K02 C/2015 Y1 (LINEAR) 2016 02 15.85 16.5 N K02 C/2015 Y1 (LINEAR) 2016 02 14.32 17.8 T F51 C/2015 Y1 (LINEAR) 2016 02 14.02 16.6 T J43 C/2015 Y1 (LINEAR) 2016 02 10.57 16.8 T T05 C/2015 Y1 (LINEAR) 2016 02 07.65 17.2 N E07 C/2015 Y1 (LINEAR) 2016 02 05.05 17.5 N K38 C/2015 YG1 (NEOWISE) 2016 02 27.40 16.7 T 703 C/2015 YG1 (NEOWISE) 2016 02 16.98 17.7 N C23 C/2015 YG1 (NEOWISE) 2016 02 16.98 17.6 N C23 C/2015 YG1 (NEOWISE) 2016 02 15.59 18.2 T T05 C/2015 YG1 (NEOWISE) 2016 02 09.62 18.4 T T05 C/2015 YG1 (NEOWISE) 2016 02 09.29 16.8 T G45 C/2015 YG1 (NEOWISE) 2016 02 07.54 16.8 T 703 C/2015 YG1 (NEOWISE) 2016 02 05.36 17.9 N 850 C/2015 YG1 (NEOWISE) 2016 02 02.88 16.7 T D29 C/2016 A1 (PANSTARRS) 2016 02 27.07 18.4 N W88 C/2016 A1 (PANSTARRS) 2016 02 20.38 18.5 N 467 C/2016 A1 (PANSTARRS) 2016 02 14.07 18.9 T Y00 C/2016 A1 (PANSTARRS) 2016 02 10.50 18.7 N E07 C/2016 A1 (PANSTARRS) 2016 02 09.52 18.5 N E07 C/2016 A1 (PANSTARRS) 2016 02 07.63 18.4 N E07 P/2016 A3 (PANSTARRS) 2016 02 28.07 20.3 N W55 P/2016 A3 (PANSTARRS) 2016 02 12.31 20.3 T F51 P/2016 A3 (PANSTARRS) 2016 02 04.02 ..C: m1 = 18.7, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x180). C/2016 A5 (PANSTARRS) 2016 02 15.39 20.8 T 568 C/2016 A6 (PANSTARRS) 2016 02 10.32 20.9 T 568 C/2016 A6 (PANSTARRS) 2016 02 04.34 21.5 T F51 P/2016 A7 (PANSTARRS) 2016 02 13.66 20.0 T 568 P/2016 A7 (PANSTARRS) 2016 02 13.66 20.1 T 568 C/2016 A8 (LINEAR) 2016 02 27.09 18.9 T H06 C/2016 A8 (LINEAR) 2016 02 07.07 19.9 N H45 C/2016 A8 (LINEAR) 2016 02 07.07 19.8 N H45 C/2016 A8 (LINEAR) 2016 02 04.10 19.3 T H45 C/2016 B1 (NEOWISE) 2016 02 04.33 W86 C/2016 B1 (NEOWISE) 2016 02 02.60 18.9 N 474 P/2016 BA14 (PANSTARRS) 2016 02 25.46 18.5 N Q62 P/2016 BA14 (PANSTARRS) 2016 02 16.47 19.6 N Q62 P/2016 BA14 (PANSTARRS) 2016 02 16.47 19.5 N Q62 P/2016 BA14 (PANSTARRS) 2016 02 14.10 19.0 T 807 C/2016 C1 (PANSTARRS) 2016 02 15.05 18.9 N G40 C/2016 C1 (PANSTARRS) 2016 02 13.94 19.5 T K92 C/2016 C2 (NEOWISE) 2016 02 25.04 19.6 T K91 C/2016 C2 (NEOWISE) 2016 02 18.52 20.0 T 926
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Альманах .. |
01.03.2016, 13:53 | #40 |
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Регистрация: 20.05.2007
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Кометы наблюдаемые в марте 2016 года (после ~13.0m.) ..
Кометы в марте 2016 года .: Приведённый перечень комет блеск которых превышает уровень в ~13.0m., в той или иной мере доступных для наблюдения в разные телескопы, на разных широтах, в марте 2016 года .. 9P/Tempel 1 2016 03 30.85 ..S: m1 = 14.0, Dia. = 0.5', DC = 3, 0.603-m. L, f4 (x244). 9P/Tempel 1 2016 03 30.18 15.3 N 850 9P/Tempel 1 2016 03 29.15 15.1 N 850 9P/Tempel 1 2016 03 29.10 ..C: m1 = 13.9, Dia. = 0.4', DC = .., 0.50-m. L, f3 (x120). 9P/Tempel 1 2016 03 28.88 16.0 N C47 9P/Tempel 1 2016 03 26.91 15.1 N C36 9P/Tempel 1 2016 03 23.96 15.1 N C86 9P/Tempel 1 2016 03 21.28 15.4 N W96 9P/Tempel 1 2016 03 21.26 15.3 N W96 9P/Tempel 1 2016 03 19.11 107 9P/Tempel 1 2016 03 17.97 15.2 T K63 9P/Tempel 1 2016 03 17.22 15.0 T G45 9P/Tempel 1 2016 03 16.05 15.5 N C23 9P/Tempel 1 2016 03 15.42 15.0 N H45 9P/Tempel 1 2016 03 14.92 16.3 N 160 9P/Tempel 1 2016 03 12.05 15.4 N C10 9P/Tempel 1 2016 03 08.54 16.0 T T05 9P/Tempel 1 2016 03 07.97 15.7 N K25 9P/Tempel 1 2016 03 07.94 15.8 N С23 9P/Tempel 1 2016 03 07.93 15.7 N С23 9P/Tempel 1 2016 03 05.12 ..C: m1 = 14.7, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). 19P/Borrelly 2016 03 30.11 18.4 N J22 19P/Borrelly 2016 03 30.11 ..C: m1 = 15.4, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). 19P/Borrelly 2016 03 21.37 19.2 N W96 19P/Borrelly 2016 03 21.35 18.1 N W96 19P/Borrelly 2016 03 18.08 18.6 N C10 19P/Borrelly 2016 03 13.05 19.0 N K25 19P/Borrelly 2016 03 12.16 18.7 N C10 19P/Borrelly 2016 03 07.97 18.5 N C23 19P/Borrelly 2016 03 04.26 18.4 N J22 19P/Borrelly 2016 03 04.26 ..C: m1 = 15.3, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). 29P/Schwassmann-Wachmann 1 2016 03 30.37 16.5 N W96 29P/Schwassmann-Wachmann 1 2016 03 26.41 16.6 N W88 29P/Schwassmann-Wachmann 1 2016 03 24.40 16.7 N W88 29P/Schwassmann-Wachmann 1 2016 03 21.40 15.9 N W96 29P/Schwassmann-Wachmann 1 2016 03 21.38 15.4 N W96 29P/Schwassmann-Wachmann 1 2016 03 20.72 ..C: m1 = 13.4, Dia. = 0.7', DC = .., хвоста нет, 0.51-m. С, f7 (x100). 29P/Schwassmann-Wachmann 1 2016 03 19.40 15.8 N W88 29P/Schwassmann-Wachmann 1 2016 03 17.38 15.1 N W96 29P/Schwassmann-Wachmann 1 2016 03 16.40 15.1 N W96 29P/Schwassmann-Wachmann 1 2016 03 15.27 ..C: m1 = 13.5, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x90). 29P/Schwassmann-Wachmann 1 2016 03 14.40 14.8 N W96 29P/Schwassmann-Wachmann 1 2016 03 14.38 14.8 N W96 29P/Schwassmann-Wachmann 1 2016 03 12.40 17.3 N W96 29P/Schwassmann-Wachmann 1 2016 03 10.40 17.2 N W96 29P/Schwassmann-Wachmann 1 2016 03 10.38 17.3 N W96 29P/Schwassmann-Wachmann 1 2016 03 09.40 17.0 N W96 29P/Schwassmann-Wachmann 1 2016 03 09.38 17.3 N W96 29P/Schwassmann-Wachmann 1 2016 03 08.40 17.2 N W96 29P/Schwassmann-Wachmann 1 2016 03 07.75 ..C: m1 = 13.9, Dia. = 0.54', DC = .., хвоста нет, 0.51-m. СDK, f6.8 (x500). 29P/Schwassmann-Wachmann 1 2016 03 04.396 17.2 N W96 29P/Schwassmann-Wachmann 1 2016 03 04.390 16.9 N W96 29P/Schwassmann-Wachmann 1 2016 03 03.39 17.2 N W96 29P/Schwassmann-Wachmann 1 2016 03 03.37 17.1 N W96 44P/Reinmuth 2 2016 03 04.09 19.2 N H45 48P/Johnson 2016 03 30.34 22.2 T F51 48P/Johnson 2016 03 10.39 21.9 T F51 50P/Arend 2016 03 02.47 17.3 T 367 50P/Arend 2016 03 02.47 367 53P/Van Biesbroeck 2016 03 19.38 16.4 N I40 53P/Van Biesbroeck 2016 03 18.37 16.4 N W96 53P/Van Biesbroeck 2016 03 11.37 16.7 N W96 61P/Shajn-Schaldach 2016 03 03.78 18.7 N 160 61P/Shajn-Schaldach 2016 03 03.78 19.1 N 160 61P/Shajn-Schaldach 2016 03 03.10 18.0 T 703 61P/Shajn-Schaldach 2016 03 03.10 18.5 T 703 65P/Gunn 2016 03 31.36 16.2 T G45 65P/Gunn 2016 03 29.34 17.9 T F51 65P/Gunn 2016 03 29.08 16.2 N I81 65P/Gunn 2016 03 29.07 ..C: m1 = 15.5, Dia. = 0.4', DC = .., 0.50-m. L, f3 (x150). 65P/Gunn 2016 03 27.34 16.1 T 703 65P/Gunn 2016 03 26.86 16.2 N C36 65P/Gunn 2016 03 19.01 16.6 N 160 65P/Gunn 2016 03 18.28 15.9 T 703 65P/Gunn 2016 03 17.40 16.6 N H45 65P/Gunn 2016 03 17.18 16.4 T G45 65P/Gunn 2016 03 16.08 16.3 N C23 65P/Gunn 2016 03 15.41 16.3 N H45 65P/Gunn 2016 03 14.01 16.3 N I72 65P/Gunn 2016 03 09.96 16.2 N I81 65P/Gunn 2016 03 05.59 16.9 T T05 65P/Gunn 2016 03 05.10 ..C: m1 = 15.5, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x150). 71P/Clark 2016 03 04.27 22.1 T F51 74P/Smirnova-Chernykh 2016 03 30.87 18.2 N I81 74P/Smirnova-Chernykh 2016 03 30.87 17.8 N I81 74P/Smirnova-Chernykh 2016 03 27.13 18.4 T 703 74P/Smirnova-Chernykh 2016 03 17.12 18.3 T 703 74P/Smirnova-Chernykh 2016 03 02.11 18.0 T 703 77P/Longmore 2016 03 30.09 ..C: m1 = 13.3, Dia. = 0.7', DC = .., хвост = 1.8', pa = 313°, 0.50-m. L, f3 (x140). 77P/Longmore 2016 03 29.57 14.9 T T05 77P/Longmore 2016 03 27.04 14.9 N J38 77P/Longmore 2016 03 19.36 15.6 N W88 77P/Longmore 2016 03 19.36 15.8 N W88 77P/Longmore 2016 03 16.42 16.2 N H47 77P/Longmore 2016 03 16.09 15.5 N C23 77P/Longmore 2016 03 15.00 15.4 N I81 77P/Longmore 2016 03 14.58 16.4 T F51 77P/Longmore 2016 03 12.10 15.4 N C10 77P/Longmore 2016 03 10.50 16.9 T F51 77P/Longmore 2016 03 08.36 15.8 N W96 77P/Longmore 2016 03 04.19 ..C: m1 = 14.3, Dia. = 0.5', DC = .., хвост = 1.0', pa = 299°, 0.50-m. L, f3 (x140). 77P/Longmore 2016 03 03.59 ..C: m1 = 14.7, Dia. = 0.9', DC = 6, 0.431-m. С, f7 (x60). 94P/Russell 4 2016 03 03.80 19.2 N 160 94P/Russell 4 2016 03 01.28 20.5 T F51 100P/Hartley 1 2016 03 19.41 17.4 T G45 100P/Hartley 1 2016 03 18.34 17.9 N W96 100P/Hartley 1 2016 03 17.60 19.0 T F51 100P/Hartley 1 2016 03 16.42 17.4 T G45 100P/Hartley 1 2016 03 04.61 19.4 T F51 100P/Hartley 1 2016 03 04.24 ..C: m1 = 17.4, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x70). 110P/Hartley 3 2016 03 06.50 21.0 T F51 113P/Spitaler 2016 03 28.31 21.5 T F51 113P/Spitaler 2016 03 14.83 20.1 T 215 113P/Spitaler 2016 03 14.83 20.4 T 215 113P/Spitaler 2016 03 06.36 20.7 T F51 116P/Wild 4 2016 03 31.76 15.8 N Q68 116P/Wild 4 2016 03 19.36 15.1 N W96 116P/Wild 4 2016 03 18.72 ..S: m1 = 13.4, Dia. = 0.7', DC = 2, 0.406-m. L, f4 (x165). 116P/Wild 4 2016 03 18.72 UT: m1 = 13.4, Dia. = 0.6', DC = 2, 0.406-m. L, f4 (x165.8). 116P/Wild 4 2016 03 17.60 16.9 T F51 116P/Wild 4 2016 03 14.36 15.4 N W96 116P/Wild 4 2016 03 12.74 ..S: m1 = 13.6, Dia. = 0.8', DC = 2, 0.406-m. L, f4 (x165). 116P/Wild 4 2016 03 12.21 15.9 N J01 116P/Wild 4 2016 03 11.16 13.5 T A77 116P/Wild 4 2016 03 11.16 16.1 N A77 116P/Wild 4 2016 03 11.15 16.2 N A77 116P/Wild 4 2016 03 09.71 ..S: m1 = 13.4, Dia. = 0.7', DC = 2, 0.406-m. L, f4 (x165). 116P/Wild 4 2016 03 07.71 ..S: m1 = 13.3, Dia. = 0.8', DC = 2, 0.406-m. L, f4 (x165). 116P/Wild 4 2016 03 07.62 17.0 T F51 116P/Wild 4 2016 03 06.74 ..S: m1 = 13.5, Dia. = 0.8', DC = 2, 0.406-m. L, f4 (x165). 116P/Wild 4 2016 03 04.74 ..S: m1 = 13.4, Dia. = 0.9', DC = 2, 0.406-m. L, f4 (x165). 116P/Wild 4 2016 03 04.23 ..C: m1 = 13.5, Dia. = 0.5', DC = .., 0.50-m. L, f3 (x60). 116P/Wild 4 2016 03 03.36 15.3 N W96 116P/Wild 4 2016 03 03.34 15.4 N W96 116P/Wild 4 2016 03 02.52 13.9 T G45 118P/Shoemaker-Levy 4 2016 03 15.84 16.8 N G40 118P/Shoemaker-Levy 4 2016 03 15.84 16.7 N G40 118P/Shoemaker-Levy 4 2016 03 02.46 16.0 T 367 130P/McNaught-Hughes 2016 03 10.33 21.5 T G96 130P/McNaught-Hughes 2016 03 10.33 22.3 T G96 148P/Anderson-LINEAR 2016 03 11.55 21.4 T F51 148P/Anderson-LINEAR 2016 03 10.48 21.3 T F51 150P/LONEOS 2016 03 18.12 19.0 T 703 150P/LONEOS 2016 03 10.13 19.0 T 703 158P/Kowal-LINEAR 2016 03 28.96 19.3 N J22 158P/Kowal-LINEAR 2016 03 28.96 ..C: m1 = 18.9, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x180). 158P/Kowal-LINEAR 2016 03 09.94 18.5 N I81 158P/Kowal-LINEAR 2016 03 01.17 19.3 T G96 162P/Siding Spring 2016 03 28.01 ..C: m1 = 18.4, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x110). 162P/Siding Spring 2016 03 17.12 18.7 T G45 162P/Siding Spring 2016 03 17.12 19.2 T G45 162P/Siding Spring 2016 03 16.20 703 162P/Siding Spring 2016 03 13.79 17.8 N C23 162P/Siding Spring 2016 03 12.98 18.5 N K25 162P/Siding Spring 2016 03 11.95 18.0 N K25 162P/Siding Spring 2016 03 10.17 18.2 N I81 162P/Siding Spring 2016 03 03.16 18.1 T G45 172P/Yeung 2016 03 29.44 19.1 T F51 172P/Yeung 2016 03 18.35 19.1 T 703 172P/Yeung 2016 03 18.35 19.3 T 703 172P/Yeung 2016 03 17.21 18.8 T G45 172P/Yeung 2016 03 14.52 19.3 T F51 172P/Yeung 2016 03 12.38 19.4 T 703 172P/Yeung 2016 03 07.47 19.3 T F51 180P/NEAT 2016 03 31.52 18.9 T F51 180P/NEAT 2016 03 18.13 17.9 T 215 180P/NEAT 2016 03 18.13 17.7 T 215 180P/NEAT 2016 03 16.36 17.9 N W96 180P/NEAT 2016 03 15.01 17.7 N I81 180P/NEAT 2016 03 13.06 17.7 N C10 180P/NEAT 2016 03 12.18 ..C: m1 = 16.3, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). 180P/NEAT 2016 03 05.58 19.1 T F51 180P/NEAT 2016 03 04.23 ..C: m1 = 17.4, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x120). 194P/LINEAR 2016 03 31.27 20.2 T F51 194P/LINEAR 2016 03 14.80 19.0 T 215 202P/Scotti 2016 03 04.14 291 204P/LINEAR-NEAT 2016 03 30.17 18.1 T 703 204P/LINEAR-NEAT 2016 03 29.95 ..C: m1 = 18.2, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). 204P/LINEAR-NEAT 2016 03 29.15 18.6 N H45 204P/LINEAR-NEAT 2016 03 15.15 17.6 T 703 204P/LINEAR-NEAT 2016 03 11.89 18.6 N K25 204P/LINEAR-NEAT 2016 03 10.86 18.6 N K25 204P/LINEAR-NEAT 2016 03 04.94 18.1 N J22 204P/LINEAR-NEAT 2016 03 04.94 ..C: m1 = 15.6, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). 211P/Hill 2016 03 31.89 18.1 N I81 211P/Hill 2016 03 30.83 18.4 T 104 211P/Hill 2016 03 26.88 19.2 N 160 211P/Hill 2016 03 18.90 18.9 N 160 211P/Hill 2016 03 15.53 18.3 T 900 211P/Hill 2016 03 15.53 900 211P/Hill 2016 03 12.94 18.6 N K25 211P/Hill 2016 03 11.81 17.8 N B49 211P/Hill 2016 03 10.84 18.5 N K25 211P/Hill 2016 03 04.19 17.7 N H45 230P/LINEAR 2016 03 28.52 18.1 T D29 230P/LINEAR 2016 03 21.48 18.1 T 900 230P/LINEAR 2016 03 12.88 17.1 N C23 230P/LINEAR 2016 03 12.11 C51 230P/LINEAR 2016 03 11.38 C51 230P/LINEAR 2016 03 08.36 17.6 T T05 230P/LINEAR 2016 03 04.93 17.4 N K02 230P/LINEAR 2016 03 02.17 17.4 T G45 237P/LINEAR 2016 03 15.53 19.9 T F51 246P/NEAT 2016 03 06.80 19.0 T 215 246P/NEAT 2016 03 06.80 19.5 T 215 249P/LINEAR 2016 03 05.24 20.7 T F51 249P/LINEAR 2016 03 05.24 20.8 T F51 268P/Bernardi 2016 03 05.57 22.1 T F51 269P/Jedicke 2016 03 28.31 17.1 T 703 269P/Jedicke 2016 03 18.10 17.7 T 215 269P/Jedicke 2016 03 18.10 17.9 T 215 269P/Jedicke 2016 03 16.27 17.2 T G45 269P/Jedicke 2016 03 14.34 16.9 T 703 269P/Jedicke 2016 03 11.44 18.9 T F51 269P/Jedicke 2016 03 05.58 18.4 T T05 308P/Lagerkvist-Carsenty 2016 03 06.83 19.8 T 215 314P/Montani 2016 03 14.81 19.3 T 215 314P/Montani 2016 03 14.81 19.1 T 215 314P/Montani 2016 03 03.11 19.0 T G96 315P/LONEOS 2016 03 17.12 18.8 T 703 315P/LONEOS 2016 03 15.12 18.8 T 703 315P/LONEOS 2016 03 06.82 18.8 T 215 327P/Van Ness 2016 03 02.40 17.8 T Q62 327P/Van Ness 2016 03 02.40 Q62 329P/LINEAR-Catalina 2016 03 31.94 18.8 N I81 329P/LINEAR-Catalina 2016 03 21.45 900 329P/LINEAR-Catalina 2016 03 13.82 19.8 N C23 329P/LINEAR-Catalina 2016 03 03.72 C51 330P/Catalina 2016 03 31.12 19.0 T 703 330P/Catalina 2016 03 11.10 19.3 T H06 330P/Catalina 2016 03 06.84 18.9 T 215 332P/Ikeya-Murakami 2016 03 28.91 18.6 T J22 332P/Ikeya-Murakami 2016 03 17.01 19.2 T C10 332P/Ikeya-Murakami 2016 03 08.01 19.2 N A77 332P/Ikeya-Murakami 2016 03 02.31 19.9 T G45 334P/NEAT 2016 03 31.28 21.5 T F51 335P/Gibbs 2016 03 16.52 20.8 T F51 335P/Gibbs 2016 03 10.57 20.6 T F51 335P/Gibbs 2016 03 03.62 20.7 T F51 336P/McNaught 2016 03 28.36 20.6 T F51 336P/McNaught 2016 03 10.52 20.6 N 474 336P/McNaught 2016 03 06.45 21.1 T F51 C/2006 S3 (LONEOS) 2016 03 30.39 20.5 T F51 C/2006 S3 (LONEOS) 2016 03 26.96 19.2 N 160 C/2006 S3 (LONEOS) 2016 03 15.95 18.6 N 958 C/2006 S3 (LONEOS) 2016 03 14.39 20.1 T F51 C/2006 S3 (LONEOS) 2016 03 11.25 17.1 T 703 C/2006 S3 (LONEOS) 2016 03 08.92 19.3 N 461 C/2006 S3 (LONEOS) 2016 03 06.41 20.2 T F51 C/2010 U3 (Boattini) 2016 03 14.79 18.2 T 215 C/2010 U3 (Boattini) 2016 03 14.79 18.0 T 215 C/2010 U3 (Boattini) 2016 03 04.85 18.2 N K02 P/2010 V1 (Ikeya-Murakami) 2016 03 28.91 ..C: m1 = 15.7, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). P/2010 V1 (Ikeya-Murakami) 2016 03 08.97 ..C: m1 = 14.8, Dia. = 0.6', DC = 2, 0.54-m. L, f2 (x10). C/2012 K8 (Lemmon) 2016 03 14.85 19.5 T 215 C/2012 K8 (Lemmon) 2016 03 14.85 19.4 T 215 C/2012 K8 (Lemmon) 2016 03 09.90 19.8 N 461 C/2013 A1 (Siding Spring) 2016 03 20.42 19.9 T F51 C/2013 A1 (Siding Spring) 2016 03 17.94 18.5 N C10 C/2013 A1 (Siding Spring) 2016 03 17.84 19.4 N A77 C/2013 A1 (Siding Spring) 2016 03 16.36 18.0 T 703 C/2013 A1 (Siding Spring) 2016 03 15.43 18.1 N H45 C/2013 A1 (Siding Spring) 2016 03 10.19 18.0 N I81 C/2013 A1 (Siding Spring) 2016 03 04.99 18.4 N K02 C/2013 C2 (Tenagra) 2016 03 30.56 ..C: m1 = 18.1, Dia. = 0.4', DC = .., хвоста нет, 0.51-m. C, f7 (x100). C/2013 C2 (Tenagra) 2016 03 18.08 18.6 T 215 C/2013 C2 (Tenagra) 2016 03 18.08 18.1 T 215 C/2013 C2 (Tenagra) 2016 03 17.55 ..C: m1 = 17.7, Dia. = 0.4', DC = .., хвоста нет, 0.51-m. C, f7 (x500). C/2013 C2 (Tenagra) 2016 03 15.08 ..C: m1 = 16.3, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x240). C/2013 C2 (Tenagra) 2016 03 12.17 ..C: m1 = 14.4, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x240). C/2013 G9 (Tenagra) 2016 03 16.34 19.6 T F51 C/2013 G9 (Tenagra) 2016 03 10.17 18.5 T G45 C/2013 G9 (Tenagra) 2016 03 08.87 19.0 T 461 C/2013 TW5 (Spacewatch) 2016 03 30.46 17.7 T T05 C/2013 TW5 (Spacewatch) 2016 03 10.54 18.2 T T05 C/2013 TW5 (Spacewatch) 2016 03 06.55 18.6 T T05 C/2013 U2 (Holvorcem) 2016 03 31.19 18.7 T G45 C/2013 U2 (Holvorcem) 2016 03 30.34 20.2 T F51 C/2013 U2 (Holvorcem) 2016 03 27.90 18.0 N C36 C/2013 U2 (Holvorcem) 2016 03 18.27 18.1 T 703 C/2013 U2 (Holvorcem) 2016 03 18.27 18.3 T 703 C/2013 U2 (Holvorcem) 2016 03 17.28 18.9 T H15 C/2013 U2 (Holvorcem) 2016 03 12.05 18.6 T Z22 C/2013 U2 (Holvorcem) 2016 03 10.39 19.9 T F51 C/2013 U2 (Holvorcem) 2016 03 07.53 20.3 T F51 C/2013 UQ4 (Catalina) 2016 03 03.26 G96 C/2013 UQ4 (Catalina) 2016 03 03.26 21.7 T G96 C/2013 V2 (Borisov) 2016 03 18.14 18.9 T 215 C/2013 V2 (Borisov) 2016 03 18.14 18.7 T 215 C/2013 V2 (Borisov) 2016 03 15.60 20.4 T F51 C/2013 V2 (Borisov) 2016 03 12.20 ..C: m1 = 17.4, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x180). C/2013 V2 (Borisov) 2016 03 04.62 20.9 T F51 C/2013 V4 (Catalina) 2016 03 30.00 16.7 N I81 C/2013 V4 (Catalina) 2016 03 23.89 16.4 N I72 C/2013 V4 (Catalina) 2016 03 15.28 16.9 T T05 C/2013 V4 (Catalina) 2016 03 14.01 16.6 N I72 C/2013 V4 (Catalina) 2016 03 10.10 16.1 N I81 C/2013 V4 (Catalina) 2016 03 07.30 16.8 T T05 C/2013 W2 (PANSTARRS) 2016 03 18.39 19.0 T 703 C/2013 W2 (PANSTARRS) 2016 03 17.21 19.8 T G45 C/2013 W2 (PANSTARRS) 2016 03 11.49 20.3 T F51 C/2013 W2 (PANSTARRS) 2016 03 07.47 20.5 T F51 C/2014 B1 (Schwartz) 2016 03 30.32 18.2 N E85 C/2014 B1 (Schwartz) 2016 03 28.94 17.9 N I81 C/2014 B1 (Schwartz) 2016 03 15.87 17.7 N 958 C/2014 B1 (Schwartz) 2016 03 09.91 18.2 N I81 C/2014 B1 (Schwartz) 2016 03 04.18 17.6 N H45 C/2014 N3 (NEOWISE) 2016 03 31.09 16.7 N I81 C/2014 N3 (NEOWISE) 2016 03 12.79 17.2 N C23 C/2014 N3 (NEOWISE) 2016 03 01.97 18.3 N I81 C/2014 OE4 (PANSTARRS) 2016 03 18.17 215 C/2014 OE4 (PANSTARRS) 2016 03 18.17 18.1 T 215 C/2014 OE4 (PANSTARRS) 2016 03 17.42 17.6 T G45 C/2014 OE4 (PANSTARRS) 2016 03 13.12 17.4 N C10 C/2014 Q2 (Lovejoy) 2016 03 26.71 16.1 T D95 C/2014 Q2 (Lovejoy) 2016 03 19.39 17.4 T I40 C/2014 Q2 (Lovejoy) 2016 03 15.78 15.8 T D81 C/2014 R3 (PANSTARRS) 2016 03 27.62 17.1 T T05 C/2014 R3 (PANSTARRS) 2016 03 19.59 17.3 T T05 C/2014 R3 (PANSTARRS) 2016 03 17.15 17.1 N C10 C/2014 R3 (PANSTARRS) 2016 03 10.12 17.4 N 461 C/2014 R3 (PANSTARRS) 2016 03 02.66 17.5 T T0 P/2014 W1 (PANSTARRS) 2016 03 05.38 21.4 T F51 - P/2014 W1 (PANSTARRS) 2015 02 14.22 20.4 T G45 C/2014 W11 (PANSTARRS) 2016 03 21.33 15.5 N W96 C/2014 W11 (PANSTARRS) 2016 03 21.31 15.5 N W96 C/2014 W11 (PANSTARRS) 2016 03 18.59 15.5 T T05 C/2014 W11 (PANSTARRS) 2016 03 16.06 16.1 T Y00 C/2014 W11 (PANSTARRS) 2016 03 14.60 15.6 T T05 C/2014 W11 (PANSTARRS) 2016 03 08.32 15.8 N W96 C/2014 W11 (PANSTARRS) 2016 03 05.29 15.7 N W96 C/2014 W11 (PANSTARRS) 2016 03 05.24 15.7 N W96 C/2014 W11 (PANSTARRS) 2016 03 04.20 ..C: m1 = 13.3, Dia. = 0.3', DC = .., 0.50-m. L, f3 (x70). C/2014 Y1 (PANSTARRS) 2016 03 19.58 19.6 T F51 C/2014 Y1 (PANSTARRS) 2016 03 09.31 18.3 T Y00 P/2015 B1 (PANSTARRS) 2016 03 04.56 21.7 T F51 C/2015 B1 (PANSTARRS) 2016 03 04.56 21.7 T F51 C/2015 B2 (PANSTARRS) 2016 03 11.38 18.6 N 474 C/2015 B2 (PANSTARRS) 2016 03 11.38 18.7 N 474 P/2015 B4 (Lemmon-PANSTARRS) 2016 03 17.59 19.8 T Q62 P/2015 B4 (Lemmon-PANSTARRS) 2016 03 17.59 Q62 P/2015 B4 (Lemmon-PANSTARRS) 2016 03 15.52 20.4 T 568 C/2015 D3 (PANSTARRS) 2016 03 28.31 20.2 T F51 C/2015 D3 (PANSTARRS) 2016 03 15.57 19.4 N Q21 C/2015 D3 (PANSTARRS) 2016 03 10.34 20.1 T F51 C/2015 D3 (PANSTARRS) 2016 03 07.93 19.5 T J43 C/2015 ER61 (PANSTARRS) 2016 03 31.36 17.2 T G45 C/2015 ER61 (PANSTARRS) 2016 03 29.50 17.1 T T05 C/2015 ER61 (PANSTARRS) 2016 03 29.08 ..C: m1 = 16.7, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). C/2015 ER61 (PANSTARRS) 2016 03 28.31 17.1 T 703 C/2015 ER61 (PANSTARRS) 2016 03 17.40 16.8 T H45 C/2015 ER61 (PANSTARRS) 2016 03 16.26 17.3 T G45 C/2015 ER61 (PANSTARRS) 2016 03 14.84 17.2 T 215 C/2015 ER61 (PANSTARRS) 2016 03 11.93 17.2 N K25 C/2015 ER61 (PANSTARRS) 2016 03 05.59 17.8 T T05 C/2015 ER61 (PANSTARRS) 2016 03 05.11 ..C: m1 = 15.7, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). C/2015 F4 (Jacques) 2016 03 07.79 17.8 N C23 C/2015 F4 (Jacques) 2016 03 07.79 17.9 N C23 C/2015 H2 (PANSTARRS) 2016 03 13.66 17.9 N 474 C/2015 LC2 (PANSTARRS) 2016 03 19.41 17.7 T G45 C/2015 LC2 (PANSTARRS) 2016 03 19.41 17.5 T G45 C/2015 LC2 (PANSTARRS) 2016 03 16.22 18.4 T Y00 C/2015 LC2 (PANSTARRS) 2016 03 13.42 17.4 T G45 P/2015 Q1 (Scotti) 2016 03 02.27 20.6 T F51 C/2015 T4 (PANSTARRS) 2016 03 30.02 16.7 N W88 C/2015 T4 (PANSTARRS) 2016 03 03.37 17.2 N 474 C/2015 T4 (PANSTARRS) 2016 03 03.37 17.1 N 474 C/2015 TQ209 (LINEAR) 2016 03 05.24 18.6 T F51 C/2015 V1 (PANSTARRS) 2016 03 30.99 18.3 N I81 C/2015 V1 (PANSTARRS) 2016 03 06.78 215 C/2015 V1 (PANSTARRS) 2016 03 06.78 19.2 T 215 C/2015 V2 (Johnson) 2016 03 30.87 ..S: m1 = 15.7, Dia. = 0.25', DC = 6, 0.603-m. L, f4 (x307). C/2015 V2 (Johnson) 2016 03 29.11 16.2 N H45 C/2015 V2 (Johnson) 2016 03 28.79 15.5 N C36 C/2015 V2 (Johnson) 2016 03 25.12 ..C: m1 = 16.1, Dia. = 1.0', DC = .., 0.106-m. R, f5 (x720). C/2015 V2 (Johnson) 2016 03 25.12 ..C: m1 = 16.2, Dia. = 1.0', DC = .., 0.106-m. R, f5 (x200). C/2015 V2 (Johnson) 2016 03 24.94 ..C: m1 = 14.3, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). C/2015 V2 (Johnson) 2016 03 24.83 16.7 N А77 C/2015 V2 (Johnson) 2016 03 24.82 16.3 N А77 C/2015 V2 (Johnson) 2016 03 19.35 16.1 T T05 C/2015 V2 (Johnson) 2016 03 17.11 16.2 N H45 C/2015 V2 (Johnson) 2016 03 15.36 16.4 T T05 C/2015 V2 (Johnson) 2016 03 14.97 ..C: m1 = 15.2, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). C/2015 V2 (Johnson) 2016 03 14.01 15.7 N I72 C/2015 V2 (Johnson) 2016 03 11.88 15.7 N J38 C/2015 V2 (Johnson) 2016 03 10.16 16.5 N I81 C/2015 V2 (Johnson) 2016 03 05.16 15.9 N H45 C/2015 V2 (Johnson) 2016 03 04.98 ..C: m1 = 14.7, Dia. = 0.2', DC = .., 0.50-m. L, f3 (x150). C/2015 V4 (PANSTARRS) 2016 03 08.45 19.7 N 474 C/2015 VL62 (Lemmon-Yeung-PANSTARRS)2016 03 05.10 18.9 T H06 C/2015 W1 (Gibbs) 2016 03 30.91 18.5 N I81 C/2015 W1 (Gibbs) 2016 03 16.85 18.4 N C23 C/2015 W1 (Gibbs) 2016 03 13.85 18.2 N C23 C/2015 W1 (Gibbs) 2016 03 11.34 18.5 T T05 C/2015 W1 (Gibbs) 2016 03 06.14 C51 C/2015 XY1 (Lemmon) 2016 03 11.28 20.1 T F51 C/2015 XY1 (Lemmon) 2016 03 09.88 19.3 T 461 C/2015 XY1 (Lemmon) 2016 03 01.37 20.1 T F51 C/2015 X4 (Elenin) 2016 03 26.81 17.9 N C47 C/2015 X4 (Elenin) 2016 03 22.11 17.0 N H45 C/2015 X4 (Elenin) 2016 03 13.34 17.6 T T05 C/2015 X4 (Elenin) 2016 03 05.37 17.4 T T05 C/2015 X5 (PANSTARRS) 2016 03 05.34 21.1 T F51 C/2015 X7 (ATLAS) 2016 03 29.34 16.8 T T05 C/2015 X7 (ATLAS) 2016 03 17.12 17.9 N H45 C/2015 X7 (ATLAS) 2016 03 12.90 17.7 N C23 C/2015 X7 (ATLAS) 2016 03 05.41 17.6 T T05 C/2015 X7 (ATLAS) 2016 03 01.17 17.5 T G45 C/2015 Y1 (LINEAR) 2016 03 30.81 16.4 T 104 C/2015 Y1 (LINEAR) 2016 03 29.15 17.3 N H45 C/2015 Y1 (LINEAR) 2016 03 28.38 17.4 T T05 C/2015 Y1 (LINEAR) 2016 03 22.13 17.1 N H45 C/2015 Y1 (LINEAR) 2016 03 20.38 16.8 T T05 C/2015 Y1 (LINEAR) 2016 03 16.94 17.0 N C10 C/2015 Y1 (LINEAR) 2016 03 13.84 16.7 N C23 C/2015 Y1 (LINEAR) 2016 03 12.24 16.1 T 703 C/2015 Y1 (LINEAR) 2016 03 10.55 16.4 T D29 C/2015 Y1 (LINEAR) 2016 03 04.94 16.9 N K02 C/2015 YG1 (NEOWISE) 2016 03 17.17 17.5 T G45 C/2015 YG1 (NEOWISE) 2016 03 17.17 18.0 T G45 C/2015 YG1 (NEOWISE) 2016 03 15.32 19.4 T F51 C/2015 YG1 (NEOWISE) 2016 03 13.52 19.5 T F51 C/2015 YG1 (NEOWISE) 2016 03 11.24 17.4 T H15 C/2015 YG1 (NEOWISE) 2016 03 08.08 18.5 N K02 C/2015 YG1 (NEOWISE) 2016 03 02.47 17.0 T G45 C/2016 A1 (PANSTARRS) 2016 03 30.37 17.8 T T05 C/2016 A1 (PANSTARRS) 2016 03 11.59 17.6 T 900 C/2016 A1 (PANSTARRS) 2016 03 06.43 17.9 T T05 P/2016 A3 (PANSTARRS) 2016 03 10.84 19.6 T 215 C/2016 B1 (NEOWISE) 2016 03 30.35 19.6 N E85 C/2016 B1 (NEOWISE) 2016 03 19.49 17.9 N Q62 C/2016 B1 (NEOWISE) 2016 03 08.63 19.5 N 474 C/2016 C1 (PANSTARRS) 2016 03 30.40 18.4 T T05 C/2016 C1 (PANSTARRS) 2016 03 26.90 18.7 N A77 C/2016 C1 (PANSTARRS) 2016 03 14.85 17.8 T 215 C/2016 C1 (PANSTARRS) 2016 03 12.42 19.9 T F51 C/2016 C1 (PANSTARRS) 2016 03 10.46 18.8 T T05 C/2016 C1 (PANSTARRS) 2016 03 02.59 18.7 N 474 C/2016 C1 (PANSTARRS) 2016 03 01.34 18.0 T G45 C/2016 C2 (NEOWISE) 2016 03 10.62 19.2 N 474 C/2016 C2 (NEOWISE) 2016 03 10.62 19.0 N 474 C/2016 E1 (PANSTARRS) 2016 03 11.47 20.5 T H01 C/2016 E2 (Kowalski) 2016 03 31.14 19.7 T H06 C/2016 E2 (Kowalski) 2016 03 31.14 H06 C/2016 E2 (Kowalski) 2016 03 18.48 17.7 T H06 C/2016 E2 (Kowalski) 2016 03 18.48 H06 C/2016 E2 (Kowalski) 2016 03 18.03 18.7 N J95 C/2016 E2 (Kowalski) 2016 03 16.52 19.1 T 926 C/2016 E2 (Kowalski) 2016 03 16.39 19.2 T H01
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