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115 ptslesterAugust 18, 2017 at 5:21 pm #2563
As always, what follows is my own interpretation of how the data fits the picture. The data in this case connects a 6.9 event in Myanmar on April 13 2016, with a 7.0 in New Zealand on September 1 (annular eclipse day – Africa) of the same year… Via the largest solar flux event of 2016! The following scenario relates to the possibility of Seismic memory (or a solar footprint if you will) being able to retain this level of energy over long periods… and reanimation of this energy, is equal to the magnitude of a correlating event. To follow this scenario, we must first have a preparatory felt pen dot on the T&D map, to represent the 6.9 in Myanmar. If you input June 13 2016 at 05:42 UTC, place a dot in the centre of the sun image, and then change the time and date to April 13 2016, at 05:40 UTC. This time represents the first correlation between Myanmar and New Zealand. The map shows it is Solar Noon on 94.93’E – 23.14’N Myanmar, and Sunset on 179.24’E – 37.45’S Off East Coast of North Island, NZ
On July 23, at 05:16 UTC, a class M 7.6 solar flux event occurred on the sun’s West limb,as sun spot AR2567 rotated out of line sight of the Earth. The moon’s position at this time was on 37.16’W – 7.00’S, this location relative to Earth places you in the city of Patos Paralba, Brazil. Likewise, the sun at this time was on 102.63’E – 19.98’N, again relative to Earth, this location is close to Ban Nong, in the mountain region of Louangphabang province, Laos. If you place a dot in the centre of the sun and moon image at this time (05:16 UTC), and then open a second tab with T&D and input the time and date of April 12 2016, at 21:38 UTC.
On April 12 2016, at 21:38 UTC, as the map shows it is Dusk and Dawn on the respective dots for Brazil and Laos. The position of the sun at this time was on 144.34’W – 9.08’N. On the 10th, these two locations had a T time separation of 1 minute, on the 11th and 12th they share equal time. But on the 13th, they are again separated by 1 minute as Dawn in Ban Nong, Laos changes to 21:37 UTC… also on this day (April 13), the 6.9 event occurs in Myanmar. At this point, if you place a dot in the centre of the sun image (April 12 21:38 UTC), and then flick between the tab showing the flux time (July 23 05:16 UTC) and this one, note that Dusk is on the sun dot on 144.34’W – 9.08’N, and time wise both maps are over 4 months apart!
If you now change the details in the flux map to August 29 2016, at 21:38 UTC, then flick between the April map and this one, note there is very little difference in relation to the terminator position. We again find that Brazil and Laos share the same respective dots. Just as before, both locations shared the T times equally until September 1 (eclipse day Africa), they are separated this time by 2 minutes when Dawn in Ban Nong, Laos increases to 21:40 UTC… also on this day, the 7.0 occurs Off Coast of North Island, NZ.
A 5.8 fore-shock to the 7.0 event occurred on August 31 2016, at 22:04:34 UTC, on 179.15’E – 37.26’S, if you input the fore-shock details on the map, you will note that it is Dawn on 94.93’E – 23.14’N Myanmar… the dot that represents the 6.9 event on April 13 !!
Back in April 2016, two other memorable events occurred…
2016-04-15 16:25:06 UTC – M 7.0 Kyushu Islands, Japan … 130.68’E – 32.78’N
2016-04-16 23:58:37 UTC – M 7.8 Near Coast of Ecuador … 79.89’W – 0.40’NOn April 15, at 23:21 UTC, it was Sunrise in Myanmar and Sunset Off Coast of Ecuador on the stated co-ordinates.
On April 16, at 11:15 UTC, it was Dusk in the Kyushu Islands Japan, and Sunrise Off Coast of Ecuador on the stated co-ordinates.I originally put this paper together last year to help a friend ( my own understudy 🙂 ), Unfortunately he approached the wrong people with it, and it was banished to the realms of pseudo science. Apologies for the presentation, I did not envision using T&D when the original paper was drafted.
One last thing, if you check the flux event map again (July 23 2016, 05:16 UTC), you will note that it is Sunset on 172.97’E – 42.69’S, location of the 7.9 that occurred off South Island, NZ on November 13 2016
There you have it… an odd interpretation of a time machine 🙂
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