「eclipses」の共起表現一覧(1語右で並び替え)
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| ish astronomer, noted for his observations of | eclipses, a transit of Venus and a transit of Mercury, |
| graph celestial phenomena such as total solar | eclipses and the aurora borealis. |
| A series of observations of lunar and solar | eclipses and planetary conjunctions, made by him from |
| I notice that Category:Lunar | eclipses and Category:Solar eclipses, contain articles |
| with Jean Meeus to compile a catalog of solar | eclipses, and later another catalog of lunar eclipses. |
| His most famous book is Historical | Eclipses and Earth's Rotation (Cambridge University Pr |
| He observed solar | eclipses and worked on spectroscopy of the Sun. |
| There are no other candidates for these | eclipses and they fix harmoniously the Greek and Roman |
| She has viewed more than 20 solar | eclipses, and continues to work on bringing science to |
| luded Samuel Alfred Mitchell as its expert on | eclipses, and Howard Russell Butler, an artist and phy |
| lunar deity and god of weather, water, tides, | eclipses, and earthquakes. |
| psing binary, Cester argued that the apparent | eclipses are not real, and were caused by seeing diffe |
| The other two Greek | eclipses are as follow: The expulsion of the last Roma |
| come close (≈ 434.044 anomalistic months), so | eclipses are similar in these groupings. |
| These partial | eclipses are very rare. |
| Solar and lunar | eclipses are not observed every month because the plan |
| anamolistic months), so | eclipses are similar in these groupings. |
| Eclipses are explained by Arao getting close enough to | |
| hanical instrument to predict solar and lunar | eclipses as seen from Paris. |
| This is the first of four lunar year | eclipses at the descending node of the moon's orbit. |
| This is the second of four lunar year | eclipses at the ascending node of the moon's orbit. |
| This is the last of four lunar year | eclipses at the descending node of the moon's orbit. |
| This is the second of four lunar year | eclipses at the descending node of the moon's orbit. |
| This is the last of four lunar year | eclipses at the ascending node of the moon's orbit. |
| This is the third of four lunar year | eclipses at the ascending node of the moon's orbit. |
| s at least of the calculation of sun and moon | eclipses belong to the earlier period, but here, too, |
| This series produces 20 total | eclipses between April 24, 1967 and August 1, 2167, on |
| Lunar saros series 138 has 19 total | eclipses between September 7, 2044 and June 8, 2495. |
| This series produces 23 total | eclipses between June 22, 1880 and August 9, 2120. |
| The series contains 29 total lunar | eclipses between 1560 and 2021. |
| He made several observations of | eclipses, both of the sun and moon, at Gresham College |
| e of Variable Stars, defined as stars showing | eclipses by their planets. |
| Since total | eclipses can be observed from the same place only once |
| She predicted | eclipses, computed the length of day and night and ass |
| ries could be effectively used to study solar | eclipses, cosmic rays entering the atmosphere and the |
| reve en las ynfluencias del cielo, and De los | eclipses del sol y la luna. |
| It is the third of five Metonic cycle | eclipses, each being separated by 19 years: The Metoni |
| It contains 84 member lunar | eclipses, each separated by 18 years 11 and 1/3 days, |
| ve that eventually culminated in the Creative | Eclipses EP. |
| s is accurate in some of his remarks on lunar | eclipses, especially his conjecture that the shadow on |
| The metonic series repeats | eclipses every 19 years (6939.69 |
| ire Second Millennium, only seven total solar | eclipses exceeded seven minutes of totality. |
| This cycle can be used to predict | eclipses, forms the basis of the Greek and Hebrew cale |
| 22, 1612, through January 17, 1703, and total | eclipses from January 27, 1721 through May 13, 2496. |
| May 8, 1510, through May 29, 1546, and total | eclipses from June 8, 1564 through March 30, 2033. |
| It contains total | eclipses from March 27, 1522 through May 30, 1612 and |
| It contains total | eclipses from October 9, 1428 through December 24, 155 |
| It has hybrid | eclipses from November 3, 2013 through December 6, 206 |
| It contains annular | eclipses from June 4, 1323 through April 4, 1810 and h |
| It contains total | eclipses from May 16, 1417 through June 18, 1471 and h |
| It contains total | eclipses from April 5, 1475 through July 18, 2232. |
| It contains annular | eclipses from August 4, 1739 through October 14, 2460. |
| It has total | eclipses from February 3, 1562 through June 21, 2373. |
| It contains total | eclipses from May 14, 1352 through August 15, 2091. |
| It contains total | eclipses from May 17, 1882 through August 23, 2044. |
| Then it progresses into annular | eclipses from August 11, 1561 through July 25, 2120. |
| It contains seven partial | eclipses from 1398 to 1490 and seven more between 2039 |
| It contains annular | eclipses from March 17, 1569 through March 12, 2146, h |
| It contains annular | eclipses from November 20, 1435 through January 13, 15 |
| ne hybrid eclipse on July 14, 1768, and total | eclipses from July 25, 1786 through October 29, 2543. |
| as a hybrid event on June 17, 1909, and total | eclipses from June 29, 1927 through September 9, 2648. |
| after the EDSA Revolution since the two lunar | eclipses happened between May 4, 1985 and October 28, |
| took place on March 3, 2007, the first of two | eclipses in 2007. |
| on November 28, 2012, the second of two lunar | eclipses in 2012. |
| ugust 17, 1989, the second of two total lunar | eclipses in 1989. |
| vember 9, 2003, the second of two total lunar | eclipses in 2003, the first being on May 16, 2003. |
| on May 4, 2004, the first of two total lunar | eclipses in 2004, the second being on October 28, 2004 |
| He joined several expeditions to study solar | eclipses in Benkoeben in 1925, Sumatra in 1932, Memphr |
| This eclipse is the one of four lunar | eclipses in a short-lived series at the descending nod |
| on May 16, 2003, the first of two total lunar | eclipses in 2003, the being on November 9, 2003. |
| n September 27, 1996, the second of two lunar | eclipses in 1996, the first being on April 4th. |
| s eclipse is the second of four partial solar | eclipses in 2011, with the others occurring on January |
| This eclipse is the one of four lunar | eclipses in a short-lived series at the ascending node |
| ace on April 13, 1968, the first of two total | eclipses in 1968, the second being on October 6. |
| is eclipse is the third of four partial solar | eclipses in 2011, with the others occurring on January |
| e on October 6, 1968, the second of two total | eclipses in 1968, the first was on April 13. |
| This eclipse is the one of four lunar | eclipses in a short-lived series at the ascending node |
| with you: "It's possible to get 2 total solar | eclipses in a year, but again this is rare; only every |
| y and his skill aided the observations of the | eclipses, in particular that of the corona. |
| There are no total | eclipses in this series. |
| Main article: List of solar | eclipses in the 21st century |
| Deep | Eclipses in the Cataclysmic Variable 1RXS J020929.0+28 |
| There are seven | eclipses in 1982, the maximum possible, including 4 pa |
| There are a 7 | eclipses in 2038 (the maximum possible), included four |
| on February 9, 2009, the first of four lunar | eclipses in 2009, and being the deepest of three penum |
| This is the 16th of 26 total lunar | eclipses in series 125. |
| Partial | eclipses in series 150 will occur between 2157 Aug 20 |
| This eclipse is the one of five lunar | eclipses in a short-lived series. |
| This is the 19th of 26 total lunar | eclipses in series 125. |
| was the last and largest of four minor lunar | eclipses in 2009. |
| This eclipse is the one of four lunar | eclipses in a short-lived series. |
| This eclipse is the center of five lunar | eclipses in a short-lived series. |
| tal eclipse the second in the series of three | eclipses in a one-month period, with two minor penumbr |
| ace on April 24, 2005, the first of two lunar | eclipses in 2005. |
| e on January 31, 1999, the first of two lunar | eclipses in 1999. |
| ce on May 25, 2013, the second of three lunar | eclipses in 2013. |
| on October 17, 2005, the second of two lunar | eclipses in 2005. |
| ember 29, 1993, the second of two total lunar | eclipses in 1993. |
| ce on August 6, 2009, the third of four lunar | eclipses in 2009. |
| ce on August 7, 2017, the second of two lunar | eclipses in 2017. |
| n September 16, 2016, the last of three lunar | eclipses in 2016. |
| ace on May 26, 2002, the first of three lunar | eclipses in 2002. |
| ace on July 7, 2009, the second of four lunar | eclipses in 2009. |
| year, and so there are between four and seven | eclipses in a calendar year. |
| e on February 9, 1990, the first of two lunar | eclipses in 1990. |
| e of June 26, 2010 was the first of two lunar | eclipses in 2010. |
| e on March 13, 1998, the first of three lunar | eclipses in 1998. |
| April 15, 2014, the first of two total lunar | eclipses in 2014. |
| Saros series 138, and is the 29th of 83 lunar | eclipses in the series. |
| ace on March 14, 2006, the first of two lunar | eclipses in 2006. |
| on December 30, 2001, the last of three lunar | eclipses in 2001. |
| January 9-10, 2001, the first of three lunar | eclipses in 2001. |
| on September 6, 1998, the last of three lunar | eclipses in 1998. |
| e on March 23, 2016, the first of three lunar | eclipses in 2016. |
| ace on July 28, 1999, the second of two lunar | eclipses in 1999. |
| e on August 18, 2016, the last of three lunar | eclipses in 2016. |
| ember 28, 2015, the second of two total lunar | eclipses in 2015. |
| n September 16, 1997, the second of two lunar | eclipses in 1997. |
| on September 7, 2006, the second of two lunar | eclipses in 2007. |
| e on April 25, 2013, the first of three lunar | eclipses in 2013. |
| Creative | Eclipses is a 1999 EP by alternative rock band Cave In |
| Due to the | eclipses, it is a variable star and its brightness var |
| imary star GSC 02620-00648 every 3.5 days and | eclipses it when viewed from Earth. |
| pletion of Wong Tai Sin MTR Station gradually | eclipses its former name. |
| ompanion every 2.09 days; these regular X-ray | eclipses last approximately 1/4 the orbital period. |
| Hallaschka anticipated the standard theory of | eclipses later developed by Friedrich Wilhelm Bessel. |
| 's own handwriting three observations of moon | eclipses made by him at the order of Alfonso. |
| ad sense including astronomical ones (comets, | eclipses, meteor impacts, etc.). |
| ons around the world for numerous total solar | eclipses, meteorite crater research, and meteorite rec |
| t discoveries in regard to magnetism, comets, | eclipses, meteors, and sunspots, and made improvements |
| shed astronomical tables that made predicting | eclipses more accessible. |
| h Jan Meeus of Five Millennium Canon of Solar | Eclipses, NASA Goddard Space Flight Center, October 20 |
| careful observer" and that he "recorded solar | eclipses observed by the Egyptians", although the accu |
| Eclipses observed by Parameswaracharya | |
| n on the Sun, Moon, planets, principal stars, | eclipses, occultations, and other phenomena. |
| and Neptune was added to the first part, with | eclipses, occultations, and other phenomena forming a |
| It is not known whether | eclipses occur between the two components at periastro |
| Eclipses occur in nearly the same calendar date. | |
| For the following 252 years, total | eclipses occur, with the central eclipse being predict |
| ellar object to explain peculiar and periodic | eclipses occurring to the young star every 4.7 years. |
| ellar object to explain peculiar and periodic | eclipses occurring to the young star every 8.3 days. |
| ed by the degree of totality at Alexandria of | eclipses occurring in 310 BC and 129 BC which were als |
| This eclipse is the second of four lunar year | eclipses occurring at the moon's ascending node. |
| Lunar | eclipses occurring near the Moon's descending node are |
| Saros cycle series 144 for lunar | eclipses occurs at the moon's ascending node, 18 years |
| Saros cycle series 119 for lunar | eclipses occurs at the moon's descending node, repeats |
| Saros cycle series 149 for lunar | eclipses occurs at the moon's descending node, repeats |
| Saros cycle series 111 for lunar | eclipses occurs at the moon's descending node, repeats |
| Saros cycle series 127 for lunar | eclipses occurs at the moon's descending node, repeats |
| Saros cycle series 131 for lunar | eclipses occurs at the moon's descending node, repeats |
| Saros cycle series 155 for lunar | eclipses occurs at the moon's descending node, repeats |
| Saros cycle series 159 for lunar | eclipses occurs at the moon's descending node, repeats |
| Saros cycle series 147 for lunar | eclipses occurs at the moon's descending node, repeats |
| Saros cycle series 128 for lunar | eclipses occurs at the moon's ascending node, repeatin |
| Saros cycle series 157 for lunar | eclipses occurs at the moon's descending node, repeats |
| Saros cycle series 113 for lunar | eclipses occurs at the moon's descending node, repeats |
| Saros cycle series 125 for lunar | eclipses occurs at the moon's descending node, repeats |
| Saros cycle series 135 for lunar | eclipses occurs at the moon's descending node, repeats |
| Saros cycle series 115 for lunar | eclipses occurs at the moon's descending node, repeats |
| Saros cycle series 137 for lunar | eclipses occurs at the moon's descending node, repeats |
| Saros cycle series 143 for lunar | eclipses occurs at the moon's descending node, repeats |
| Saros cycle series 141 for lunar | eclipses occurs at the moon's descending node, repeats |
| Saros cycle series 151 for lunar | eclipses occurs at the moon's descending node, repeats |
| Saros cycle series 123 for lunar | eclipses occurs at the moon's descending node, repeats |
| Saros cycle series 145 for lunar | eclipses occurs at the moon's descending node, repeats |
| Saros cycle series 163 for lunar | eclipses occurs at the moon's descending node, repeats |
| Saros cycle series 121 for lunar | eclipses occurs at the moon's descending node. |
| Saros cycle series 130 for lunar | eclipses occurs at the moon's ascending node, 18 years |
| Saros cycle series 101 for lunar | eclipses occurs at the moon's ascending node, 18 years |
| Saros cycle series 120 for lunar | eclipses occurs at the moon's ascending node, 18 years |
| Saros cycle series 108 for lunar | eclipses occurs at the moon's ascending node, 18 years |
| Saros cycle series 136 for lunar | eclipses occurs at the moon's ascending node, 18 years |
| Saros cycle series 106 for lunar | eclipses occurs at the moon's ascending node, 18 years |
| Saros cycle series 140 for lunar | eclipses occurs at the moon's ascending node, 18 years |
| Saros cycle series 102 for lunar | eclipses occurs at the moon's ascending node, 18 years |
| Saros cycle series 142 for lunar | eclipses occurs at the moon's ascending node, 18 years |
| Saros cycle series 158 for lunar | eclipses occurs at the moon's ascending node, 18 years |
| Saros cycle series 154 for lunar | eclipses occurs at the moon's ascending node, 18 years |
| Saros cycle series 126 for lunar | eclipses occurs at the moon's ascending node, 18 years |
| Saros cycle series 138 for lunar | eclipses occurs at the moon's ascending node, 18 years |
| Saros cycle series 148 for lunar | eclipses occurs at the moon's ascending node, 18 years |
| Saros cycle series 122 for lunar | eclipses occurs at the moon's ascending node, 18 years |
| Saros cycle series 104 for lunar | eclipses occurs at the moon's ascending node, 18 years |
| Saros cycle series 110 for lunar | eclipses occurs at the moon's ascending node, 18 years |
| Saros cycle series 150 for lunar | eclipses occurs at the moon's ascending node, 18 years |
| Saros cycle series 118 for lunar | eclipses occurs at the moon's ascending node, 18 years |
| Saros cycle series 112 for lunar | eclipses occurs at the moon's ascending node, 18 years |
| Saros cycle series 103 for lunar | eclipses occurs at the moon's ascending node, 18 years |
| meter, which was measured by observing mutual | eclipses of Kalliope and Linus, is smaller by 8% than |
| s 51 seconds, it was one of the longest solar | eclipses of the 20th century. |
| Associated in observations of total | eclipses of the sun with Sir Norman Lockyer in 1893, 1 |
| he Hubble Space Telescope to look for partial | eclipses of stars by their planets. |
| and observed and found a prediction rule for | eclipses of Jupiter's moons. |
| Based upon observations of | eclipses of the hot spot on the white dwarf (created b |
| "lunations; | eclipses of the luminaries; aspects; judgment of the w |
| es found by Chronometer, and by correspondent | Eclipses of the Satellites of Jupiter, with some suppl |
| as they appear and disappear, not only during | eclipses of the Moon but also in the course of the ent |
| He also correctly explained the causes of | eclipses of the Sun and the Moon. |
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