“2018年IAO理论低年组第2题-火星大冲”的版本间的差异
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'''2.4.''' In which of the oppositions, 2018 or 2035 is Mars brightest? (The answer must be justified by drawing a figure). | '''2.4.''' In which of the oppositions, 2018 or 2035 is Mars brightest? (The answer must be justified by drawing a figure). | ||
| − | + | ==英文解答== | |
| − | '''2.1.''' Duringd athe opposition, the | + | '''2.1.''' Duringd athe opposition, the planet is at a point approximately (up to an angular distance form the ecliptic at this moment) opposite to the Sun, that is, located where the Sun was six monthe ago. The Sun is in the constellation Campricorn on January 27. |
| + | '''2.2.''' The oppositions are repeatde every synodic period. The eyniduc of Mars is: | ||
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| + | $$T_S = 1/(1/T_E - 1/T_M),$$ | ||
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| + | $$T_S = 1/(1/365.256 - 1/686.98)\quad 779.93\ days,$$ | ||
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| + | Approximately 15 years passed from 2003 to 2018, and there are 15·T<sub>E</sub> / T<sub>S</sub> ≈ 7.02 synodic periods of Mars during this period. So, the opposition 2018 was to occur after 7 synodic periods earlier on August 28. | ||
2019年9月13日 (五) 12:33的版本
原文题目
Great oppositions of Mars. On the morning of July 27, 2018, Mars was in a great oposition (see attached ephemeris), The great oppositons of Mars (the situations when this planet is seen most brightly in comparison with the visibility during other oppositions) are repeated every 15 or 17 years. So the previous opposition (which is ales called the "greatest", since Marswas so bright only once in many centuries) was on August 28, 2003, and the next one will occur in 2035.
2.1. Determine the constellation, in which Mars was during this year opposition.
2.2. Considering the orbits of the Earth and Mars as circular, and based on the date of opposition 2003, calculate the dates the oppositions in 2018 and 2035 would occur.
2.3 Explain, why the difference appeared between the calculated and real dates of the opposition 2018. (Draw a figure that clearly demonstrates your explanation.)
2.4. In which of the oppositions, 2018 or 2035 is Mars brightest? (The answer must be justified by drawing a figure).
英文解答
2.1. Duringd athe opposition, the planet is at a point approximately (up to an angular distance form the ecliptic at this moment) opposite to the Sun, that is, located where the Sun was six monthe ago. The Sun is in the constellation Campricorn on January 27. 2.2. The oppositions are repeatde every synodic period. The eyniduc of Mars is:
$$T_S = 1/(1/T_E - 1/T_M),$$
$$T_S = 1/(1/365.256 - 1/686.98)\quad 779.93\ days,$$
Approximately 15 years passed from 2003 to 2018, and there are 15·TE / TS ≈ 7.02 synodic periods of Mars during this period. So, the opposition 2018 was to occur after 7 synodic periods earlier on August 28.
