Three Square Code

Three Square Code Structures Stonehenge

Three Square Code Structures Stonehenge. Life often offers us the polarity of opposites. Something stands in opposition to something else.

This tiny number square gives rise to the pillar arrangement at Stonehenge. It was used in countless ways by ancient historic and even prehistoric civilizations. Currently we are entering a new age. It will be marked by peace and plenty. This is also known as a Golden Age. The same arrangement that formed the Palestinian cubit and the Egyptian cubit also structured the pillar arrangement at Stonehenge. Some information I quote from my own internal link below:

Two Ancient Reads From One Number Set

Abu Mūsā Jābir ibn Hayyān explains how this number square was divided into various corners and gnomons. I show how the dotted points below were the options that were used for the appropriate Egyptian and Palestinian cubits. It was also used for builiding Stonehenge.

  • Multiply the 4 corner numbers: 5 x 7 x 1 x 6 = 210. The Palestinian cubit is 2.107 feet.
  • Multiply the remaining five numbers which are called the gnomon: 8 x 3 x 4 x 9 x 2 = 1728. The larger Egyptian cubit is 1.728 feet.

First we must see who gave rise to realizing this division of the square three code in the particular manner that I will present. Abu Mūsā Jābir ibn Hayyān (Arabicجابر بن حیان‎‎, Persianجابر بن حیان‎‎, often given the nisbahs al-Bariqi, al-Azdi, al-Kufi, al-Tusi or al-Sufi; fl. c. 721 – c. 815),[6] also known by the Latinization Geber, was a polymath: a chemist and alchemistastronomer and astrologerengineergeographerphilosopherphysicist, and pharmacist and physician. Born and educated in Tus, he later traveled to Kufa. He has been described as the father of early chemistry.[7][8][9]

Jabir ibn Hayyan.jpg

15th-century European portrait of “Geber”, Codici Ashburnhamiani 1166, Biblioteca Medicea Laurenziana, Florence

Three Square Code Uses Lower Right Corner and its Gnomon for Stonehenge

Numbers in a row are called a sequence. Sequence is also used in music and dance. Stonehenge uses 5,6,7, and 8:

  • 5 x 6 = 30. This numbers  inner stone circles.
  • 7 x 8 = 56. This numbers the outer holes.

 

Plan of the central stone structure.  The stones were dressed and fashioned with mortise and tenon joints before 30 were erected as a 108-foot (33 m) diameter circle of standing stones, with a ring of 30 lintel stones resting on top.

Three square code answers many questions.
Inner circles had 30 standing  megaliths. Outer Circle were dug with 56 pits. Above is a computer rendering.

For fun, add 5 + 6 + 7 + 8 = 26.  Now, let’s look at the two products and one sum we created from consecutive numbers 5,6,7 and 8: They are 30, 56 and 26. Any beginning student of chemistry knows these numbers define the most stable isotope of iron: (1) 30 neutrons. (2) atomic number 56 (3) Finally 56  – 30 = 26.  That is the atomic number of iron. Why is this important? Iron is the ash of nuclear fusion on stars. When enough iron is at the star’s core, it explodes. This creates all the heavier elements than iron.

Here’s the big question: Does Stonehenge represent the cosmic stellar process of creation? Was this known in the distant past? Or, is this just another numerical co-incidence?

 

Plus one factor is prominent

Two Ancient Reads From One Number Set

Two Ancient Reads From One Number Set. My intent is demonstrate how both the larger Egyptian cubit and the standard Palestinian cubit come from a certain division of these numbers. Above is the traditional arrangement of the 3 x 3 number square. There are many more solutions. With those, the following must be constant:

  1. Number 5 must occupy the center in all arrangements.
  2. Even numbers must occupy the four corners.
  3. Odd numbers must be set on the perimeter between two even numbers.
  4. However, even number can trade places with even numbers. Odd numbers can trad places with odd numbers.

For the blog of “two ancient reads” we consider only the traditional arrangement. First we must see who gave rise to realizing this division of the square of three in the particular manner that I will present. Abu Mūsā Jābir ibn Hayyān (Arabicجابر بن حیان‎‎, Persianجابر بن حیان‎‎, often given the nisbahs al-Bariqi, al-Azdi, al-Kufi, al-Tusi or al-Sufi; fl. c. 721 – c. 815),[6] also known by the Latinization Geber, was a polymath: a chemist and alchemistastronomer and astrologerengineergeographerphilosopherphysicist, and pharmacist and physician. Born and educated in Tus, he later traveled to Kufa. He has been described as the father of early chemistry.[7][8][9]

Jabir ibn Hayyan.jpg

15th-century European portrait of “Geber”, Codici Ashburnhamiani 1166, Biblioteca Medicea Laurenziana, Florence

Finding the Two Ancient Reads in the One Number Square

“Geber” divided that square of three in many ways. I merely found how ancient measures apply to his formulas. He developed the concept of corner v. gnomon. A corner is a particular set of four corner numbers, The corner we will consider today has numbers: 5,7,1 and 6. The gnomon is the five leftover numbers. They are 8,3,4,9 and 2. Perform the following operations:

  • Multiply the 4 corner numbers: 5 x 7 x 1 x 6 = 210. The Palestinian cubit is 2.107 feet.
  • Multiply the numbers of its gnomon: 8 x 3 x 4 x 9 x 2 = 1728. The larger Egyptian cubit is 1.728 feet.

The backbone of the former Golden Age was the 3 x 3 number square. When all know how it works, we will have another Golden Age of Plenty and Peace. It’s as simple as that!