Dating how to analyse Camda sexrulet

Still, it could be assumed—in the wake of the spiral box being an astronomic object—that the number 12 may suggest the astronomic 12 months of a year, commonly used in some cultures.Thus, the 12-rim boxes could represent any year—yet unknown.

dating how to analyse-2dating how to analyse-57

To enhance the result, the disk’s twin of the same period (year twin As03 and As15) can be found in the same Moon eclipse list for the same Sun eclipse period starting −1377 on the NASA list and—reassuring—the second Sun eclipse documented by the Phaistos Disk/year box As04 = eclipse list year −1374 was also independently observed by Ugarit astronomers in year 1375 BC (= −1374 BC, see “Appendix This paper suggests that the main structure side A of archeological Phaistos Disk found on Crete in 1908 represents the astronomical Saros cycle beginning year −1377; it is indicated by matching the disk’s associated duplicates with eclipse lists from GSFC/NASA (Fred Espenak).

The knowledge needed for creating this Phaistos Disk—the rhythm of the 18 years of the Saros Cycle—is assumed to have enabled the creator(s) predicting future eclipses.

Therefore, this paper concentrates on the of the boxes holding the symbols, which may be compared to other structures of today or of the past that are known today, e.g., National Aeronautics and Space Administration (NASA) celestial eclipse calculations (see step 5.3 below).

This paper aims at suggesting the type of structure, the geographic place of design, a partial purpose of the disk, and the date its design represents.), who also defined the disk side A as having a flower petal in the center.

Note that the twins between years 11 and 18 were initially left out because they mostly overlapped the triplet, which itself provides far better result singularity.

There is only one optimal match with the selected twin/triplet combination with maximum eclipse magnitude: The year −1377 (5th of July, beginning 0501 hours) suggested as the initial year of a Saros cycle starting in year −1377, extending to −1359.

The symbol count of two in this little box deviates obviously from the average of four (see “This structure is not visible on first glance, e.g., both box groups, the inner spiral and the outer rim, were often identified as one contiguous group, as can be seen in the literature, where the side B’s box names ranged from B01—not stopping at B18—to B30; obviously, the short break at B18 is overlooked, and the possibility to identify a Saros cycle is missed.

Without this 18-year cycle, the chance is missed to identify the dimension of all boxes as time elements (one box = 1 year, except small box As18b, see the first step under “The first general step is to associate the inner box spiral to the astronomical eclipse cycle Saros of roughly 18 years.

This gap is filled by extracting the Moon eclipses of this same Saros period: There appeared Moon eclipses in the position As03 and As15, as expected, which verified the previous Sun eclipse matching.

A manual procedure (“Appendix ”, Selecting the best match of two Saros cycles) was developed for searching a contiguous number of 500 years (see below the limits), trying to find all 18-year periods, which fulfill the twin and triplet pattern extracted from the disk (from above second step).

Another crucial reason for picking the 18 boxes (here, of side A) is the small box As18b at the end of the side A spiral, starting at box As01 in the center, following the spiral outward to box As18, and finding a small box (two symbols only) behind box As18, which fits to account for the Saros period rest of 11 days 8 h as it signals the end of Saros cycle and the end of the box spiral.

Tags: , ,