The Maya 819-Day Count and Planetary Astronomy

Pub Date : 2023-04-18 DOI:10.1017/s0956536122000323
John H. Linden, V. Bricker
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Abstract

Arguably the most enigmatic of the Maya calendar cycles, the 819-day count has challenged modern scholars for decades. Even today it is not completely explained and there are several areas for further research, including its relationship with the synodic periods of the planets visible to the naked eye. Earlier research has demonstrated a four-part, color-directional scheme for the 819-day count such that each of the calendar stations progress in increments of 819 days in cycles of 4 × 819 days. Although prior research has sought to show planetary connections for the 819-day count, its four-part, color-directional scheme is too short to fit well with the synodic periods of the visible planets. By increasing the calendar length to 20 periods of 819-days a pattern emerges in which the synodic periods of all the visible planets commensurate with station points in the larger 819-day calendar.
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玛雅人的819天计数和行星天文学
819天的计数可以说是玛雅日历周期中最神秘的一个,几十年来一直挑战着现代学者。即使在今天,它也没有被完全解释,还有几个领域需要进一步研究,包括它与肉眼可见的行星会合期的关系。早期的研究已经证明了819天计数的四部分彩色定向方案,使得每个日历站以819天的增量以4×819天为周期进行。尽管之前的研究试图显示819天计数的行星联系,但其由四部分组成的颜色方向方案太短,无法很好地适应可见行星的会合期。通过将日历长度增加到819天的20个周期,出现了一种模式,其中所有可见行星的会合周期与较大的819天日历中的站点相当。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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