2014年木星四大卫星互掩【食】事件
本帖最后由 q零度星系 于 2013-12-8 13:59 编辑Mutual Phenomena for 2014
About every six years the Earth’s orbit crosses the orbital planes of the four Galilean satellites. This results in a significant number of observable occultations and eclipses involving these satellites. These phenomena are tabulated on pages F38-F39 of The Astronomical Almanac and are available below. These data were provided by Dr. Kaare Aksnes of the Institute for Theoretical Astrophysics in Oslo, Norway.
2014年木星的四大卫星相互掩【食】事件,如木卫一掩木卫二。
大约每六年地球轨道相交四颗伽利略卫星的轨道平面。
全部精确数据由Dr. Kaare Aksnes博士提供
MUTUAL PHENOMENA OF JUPITER'S SATELLITES IN 2014 (ECLIPSES)2014年木星的四大卫星相互食事件
DATE(UT) BEGIN TIMEEND TIME EVENTDLFI1 FI2 DIST SEPSAT
YearMon. Day HourMin.Hour Min.
2014 9 11 20 18.9 2138.34E3A 0.65 172 1665.321.4 4
201410 5 17 39.6 1820.83E4P 0.18 286 327 17.747.6 3
201410 6 23 27.7 043.53E4A 0.89 349 3547.019.5 1
201410 31 2 29.7 429.84E3A 0.70 151 121 14.050.7 4
201410 31 14 28.5 17 1.64E3P 0.48 162 147 10.341.6 4
201411 25 2 10.7 335.43E4P 0.53 297 329 17.357.1 3
201411 25 14 48.0 15 1.82E4Q 0.15 251 340 13.340.2 3
201411 25 19 7.2 2038.83E4P 0.22 332 345 11.543.3 2
201412 9 22 36.7 2248.72E3Q 0.08 262 321 11.244.6 2
201412 12 22 35.8 2243.21E4Q 0.08 217 3527.7 101.7 2
201412 17 2 23.8 240.32E3P 0.23 267 321 11.139.5 2
201412 21 3 13.1 332.24E1A 0.74 167835.712.8 3
201412 21 11 48.4 1212.34E1A 0.85 175 1573.128.6 3
201412 22 5 20.6 528.64E1Q 0.06 191 3055.346.3 3
201412 24 6 24.0 645.22E3A 0.35 273 321 10.933.5 2
201412 25 9 20.2 1037.92E3P 0.2731182.718.4 2
201412 27 5 32.7 552.72E1P 0.05 214 2444.915.2 2
201412 29 5 52.6 6 4.83E4Q 0.18 211 343 11.0 106.0 3
201412 31 10 44.5 1111.92E3A 0.38 281 322 10.626.9 2
MUTUAL PHENOMENA OF JUPITER'S SATELLITES IN 2014 (OCCULTATIONS)
2014年木星的四大卫星相互掩事件
DATE(UT) BEGIN TIMEEND TIMEEVENTDLFI1 FI2 DIST SEPSAT
YearMon. Day HourMin.Hour Min.
2014 8 17 21 37.4 2236.03O4P 0.12 349 3542.8 0.5 3
201410 6 20 36.4 2043.32O4P 0.05 242 3428.4 0.6 2
201410 15 13 21.3 1326.04O2P 0.13 166426.2 0.7 4
201410 24 8 24.3 830.01O4A 0.19 198 3561.8 0.1 1
201410 28 5 31.6 539.82O3P 0.13 245 3258.6 0.6 2
201411 1 8 11.6 815.03O1P 0.06 171232.3 0.9 3
201411 1 11 48.9 1154.44O1P 0.16 170544.8 0.8 4
201411 2 5 52.9 611.54O1P 0.57 186 2082.7 0.3 4
201411 2 13 36.0 1352.04O1T 0.67 193 2735.9 0.0 4
201411 3 12 51.8 13 6.14O3P 0.17 214 282 14.7 0.8 4
201411 4 9 4.2 914.32O3A 0.23 249 3248.8 0.2 2
201411 5 10 18.9 1024.21O3P 0.11 134164.2 0.7 1
201411 8 10 57.6 11 2.73O1P 0.22 168303.0 0.6 3
201411 10 14 40.3 1445.82O4P 0.09 161 73.0 0.5 2
201411 10 17 43.6 1749.11O4P 0.06 134 94.2 0.7 1
201411 11 12 37.1 1248.02O3A 0.23 253 3239.0 0.2 2
201411 12 13 8.9 1314.61O3P 0.23 142143.6 0.4 1
201411 15 13 44.2 1350.13O1P 0.37 166383.6 0.3 3
201411 18 16 11.1 1621.92O3P 0.17 257 3229.2 0.5 2
201411 19 3 1.9 3 9.24O3P 0.20 189 3454.0 0.8 4
201411 19 7 34.4 741.14O2P 0.60 193 3225.8 0.3 4
201411 19 15 53.7 1559.51O3A 0.29 150113.0 0.1 1
201411 22 16 31.2 1637.83O1T 0.40 164454.2 0.0 3
201411 25 19 46.5 1956.32O3P 0.08 261 3229.3 0.8 2
201411 26 18 34.3 1839.81O3A 0.29 156 92.4 0.2 1
201411 27 22 3.8 2213.62O4A 0.15 116198.5 0.1 2
201411 28 14 50.7 15 8.73O4P 0.17 10234 14.7 0.4 3
201411 29 19 19.9 1927.13O1T 0.40 161534.8 0.2 3
201412 3 21 11.2 2116.31O3P 0.23 163 71.7 0.4 1
201412 6 6 59.9 755.64O2P 0.20 199 2448.5 0.8 4
201412 6 22 10.7 2218.63O1P 0.37 160625.2 0.3 3
201412 12 23 12.9 014.32O1P 0.22 202 2163.5 0.4 2
201412 13 0 46.9 255.52O1P 0.38 210 2344.8 0.1 2
201412 14 1 6.3 115.33O1P 0.33 158715.6 0.4 3
201412 14 18 25.2 1919.43O1T 0.40 195 2224.0 0.0 3
201412 14 20 49.5 22 6.03O1T 0.40 201 2445.3 0.1 3
201412 16 10 36.3 11 4.42O1P 0.11 193 2012.1 0.6 2
201412 16 15 47.6 1617.92O1A 0.40 214 2455.4 0.1 2
201412 18 5 34.0 621.12O3P 0.1815 92.5 0.5 2
201412 18 18 13.3 1847.52O3P 0.1769368.7 0.5 2
201412 20 5 31.0 551.92O1P 0.36 216 2525.6 0.2 2
201412 21 4 11.0 422.33O1P 0.33 157825.9 0.4 3
201412 22 2 5.0 219.63O1P 0.34 203 2695.9 0.4 3
201412 23 15 58.4 16 8.24O3P 0.05 214 283 14.6 1.3 4
201412 23 18 58.8 1915.52O1P 0.31 217 2565.7 0.3 2
201412 25 22 55.2 2316.72O3P 0.1579389.2 0.6 2
201412 27 8 21.0 835.12O1P 0.28 218 2605.8 0.3 2
201412 28 7 38.5 756.23O1P 0.35 157975.9 0.4 3
201412 28 15 12.1 1538.43O1T 0.40 173 1621.8 0.0 3
201412 29 5 23.4 533.23O1P 0.25 203 2825.8 0.6 3
201412 30 21 37.6 2150.02O1P 0.25 218 2635.9 0.4 2
日期(世界时) DATE(UT)=现象出的的年、月、日
始BEGIN TIME =食始或掩始时间,单位是:时、分
终END TIME =食终或掩终时间,单位是:时、分
现象EVENT =一颗木卫掩(O)或食(E)另一颗木卫。再细分为偏(P)、环(A)、全(T)及半影(Q) 【例:3E4Q 即是木卫三半影食木卫四;1O4A 即是木卫一环掩木卫四】
减光 DL =以(0=没有至1=全部)显示。 「食」时所见卫星光度或「掩」时两颗卫星合并光度。减光值大于0.03才作出预报
FI1, FI2 =两颗卫星旋转角度。 「掩」从地心计算,「食」从日心计算
距离DIST =以木星半径为单位,只显示距离大于木星半径1.5倍的现象
分隔角SEP =被掩或食的木卫最接近SAT栏所示的木卫的分隔角,单位是角秒
页:
[1]