ARTICLE 4The Godnames Prescribe the Inner Tree of Lifeby Stephen M. PhillipsFlat 3, 32 Surrey Road South. Bournemouth. Dorset BH4 9BP. England. Website: http://www.smphillips.8m.com
It was stated in Article 3 that a geometrical object or pattern
constitutes sacred geometry if the ten Godname numbers shown in Table 1 prescribe its properties. It was also said that the
historically known, outer Tree of Life has an inner form (Fig. 1) which, as my book The Mathematical Connection between
Religion and Science (1) proves, encodes the group parameters of E_{8} and E_{8}×E_{8}, the gauge symmetry
group associated with the socalled ‘heterotic superstring,’ as well as its
structural parameters 168, 336, 840, 1680 & 3360. It consists of two similar sets of
seven regular polygons: triangle, square, pentagon, hexagon,
octagon, decagon and dodecagon. The fourteen polygons share a common
side, which I have called their ‘root edge,’ socalled because they should
be
considered like a tree that grows out of its root, each polygon being analogous to a branch. The seven members of each set are enfolded in one another, those in one set being the mirror image of their counterparts in the other set. The four corners of the two joined triangles are shared with the Tree of Life because the endpoints of the root edge coincide with Daath and Tiphareth and because their other corners coincide with Chesed and Geburah — or, rather, the projections of their locations onto the plane containing the polygons, as it must always be kept in mind that the outer Tree of Life, although traditionally depicted in books on Kabbalah as 2dimensional, is really a 3dimensional object. This is why some of the Paths connecting two Sephiroth that appear to intersect another one are shown as broken lines in order to indicate to the eye of the reader that they are really behind it.
As the cosmic blueprint of the subatomic world, evidence for which is presented in my book, the inner, polygonal form of the Tree of Life possesses sacred geometry par excellence. Hence, the Godnames must define its properties. The manner of this prescription is indicated below, the two sets of polygons being considered both separately and enfolded in one another: 

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HOW GODNAMES PRESCRIBE (7+7) POLYGONS (all Godname numbers are written in boldface type)
The ten Godnames of the Sephiroth of the Tree of Life also prescribe various subsets of the seven (and fourteen) polygons, which encode different types of cosmic parameters. Amazingly, each subset is a holistic object in itself because it, too, is prescribed by the Godnames and therefore embodies the same information that larger sets do. One such subset is the two sets of the first six regular polygons (Fig. 2), which, as my book proves, encode a structural parameter of E_{8}×E_{8} heterotic superstrings, namely, the number 1680 (see earlier articles and Fig. 3). Some of their properties are worked out and listed below.
PROPERTIES OF (6+6) POLYGONS Separate 1. 6 regular polygons comprise 36 polygonal corners, 36 polygonal sides and 36 tetractyses with 42 corners and (36 + 36 =72) sides; 2. Number of geometrical elements in 6 polygons = 42 + 72 + 36 = 150 (=15×10); 3. Number of geometrical elements outside root edge of 6 polygons = 150 – 6×3 = 132; 

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4. Number of geometrical elements outside root edge of 6 polygons other than their centres = 132 – 6 = 126; 5. Number of geometrical elements in root edge and in polygons outside root edge other than their centres = 126 + 3 = 129; 6. Number of geometrical elements in root edge and 6 polygons = 3 + 150 = 153; 7. Number of yods in 6 polygons = 222. Of these, 6 are centres. Number of yods other than centres = 222 – 6 = 216. Of these, 36 are polygonal corners; 8. Number of hexagonal yods = 216 – 36 = 180. Of these, 36 are tetractys centres. Number of boundary hexagonal yods = 180 – 36 = 144; 9. Number of yods on sides of tetractyses = 144 + 42 = 186; 10. Number of yods on boundaries of 6 polygons = 2×36 + 36 = 108; 11. Number of yods in root edge and on boundaries of 6 polygons = 4 + 108 = 112. 12. (6+6) polygons comprise 72 polygonal corners, 72 polygonal sides and 72 tetractyses with 84 corners and 144 sides; 13. Number of geometrical elements in (6+6) polygons = 2×150 = 300 (303, including root edge); 14. Number of yods in (6+6) polygons = 2×222 = 444; 15. Of these 12 are centres. Number of yods other than centres = 444 – 12 = 432; 16. Of these, 72 are polygonal corners. Number of hexagonal yods = 432 – 72 = 360 (=36×10); 17. Of these, 72 are tetractys centres. Number of boundary hexagonal yods = 360 – 72 = 288; 18. Number of yods on sides of 72 tetractyses = 288 + 84 = 372; 19. Number of yods on boundaries of (6+6) polygons = 2×72 + 72 = 216; 20. Number of yods in root edge and on boundaries of (6+6) polygons = 216 + 4 = 220. Enfolded 1. 6 polygons have 26 corners, 31 sides and 35 tetractyses with 30 corners (28 outside root edge) and 65 sides (64 outside root edge); 2. Of the 26 corners, 5 are shared with 1tree, leaving 21 unshared corners; 3. Number of corners and sides of 35 tetractyses in 6 polygons = 30 + 65 = 95; 4. Number of geometrical elements = 30 + 65 + 35 = 130 (127 outside root edge; 127 = 31st prime number); 5. Number of yods in 6 polygons = 195. Of these, 191 are outside root edge, 12 of which are shared with Tree, leaving 179 unshared yods outside root edge, i.e., 179×2 + 2 = 360 (=36×10) unshared yods in (6+6) polygons; 6. Of the 195 yods, 30 are corners of tetractyses. Number of hexagonal yods = 195 – 30 = 165 = 1^{2} + 3^{2} + 5^{2} + 7^{2} + 9^{2}. Of these, 163 are outside root edge, 9 of which are shared with Tree, leaving 154 hexagonal yods outside root edge unshared with Tree. One hexagonal yod in the root edge is unshared with Tree, so that 6 polygons have 155 unshared, hexagonal yods; 7. Number of yods on boundaries of 6 polygons = 31×2 + 26 = 88 (84 outside root edge); 8. Number of hexagonal yods on boundaries of 6 polygons = 31×2 = 62. 9. (6+6) polygons comprise 50 corners (48 outside root edge), 61 sides and 70 tetractyses with 58 corners (56 outside root edge) and 129 sides; 10. Number of corners and sides of 70 tetractyses in (6+6) polygons = 58 + 129 = 187; 11. Number of geometrical elements = 58 + 129 + 70 = 257 (55th prime number), of which 17 are shared with Tree, leaving 240 elements unshared with Tree; 12. Number of yods = 191×2 + 4 = 386 (382 outside root edge). Of these, 58 are corners of tetractyses; number of hexagonal yods = 386 – 58 = 328 (326 outside root edge, of which 18 are shared, leaving 309 (including one in root edge) unshared with Tree); 
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13. Number of yods on boundaries of (6+6) polygons = 4 + 2×84 = 172 (168 outside root edge, of which 18 are shared with 1tree, leaving 150 (=15×10) unshared, boundary yods); These properties of the first six and (6+6) polygons are prescribed by the ten Godnames as follows: HOW GODNAMES PRESCRIBE THE (6+6) POLYGONS
The (6+6) enfolded polygons have 168 yods along their boundaries outside their root edge (Fig. 3). In other words, 168 yods create their shape (84 in each set of 6). This is remarkable, because 168 is the number value of Cholem Yesodeth (‘breaker of the foundations’), the Mundane Chakra of Malkuth (Mundane Chakras are the astrological bodies traditionally associated in Kabbalah with each Sephirah; the Mundane Chakra of Malkuth is the planet Earth). Moreover, as discussed in previous articles, the Theosophist C.W. Leadbeater used ‘anima,’ one of the yogic siddhis, or psychic faculties, to magnify the basic units of matter. His ‘ultimate physical atom’ (UPA) consists of ten helical coils, each with 1680 turns (Fig. 4). My book ESP of Quarks & Superstrings (2) has shown the tenfold UPA to be the subquark state of a superstring — the microscopic manifestation of the Tree of Life, each helix corresponding to one of the ten Sephiroth. As a Sephirah is itself tenfold, being represented by a Tree of Life, the number 168 is a structural parameter 

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of this
hadronic state of the
superstring. Moreover, each coil winds 2½ times around the outer surface of the UPA and
2½ times in a narrower spiral around its central axis. Each half of a coil comprises 840
turns of a helix, so that the number 84 is also a structural parameter of this state of
a superstring, being the number of coils in one quarter of a complete revolution of a
whorl, whilst the number 168 is the number of coils in half a revolution. The inner and
outer halves of a helical whorl — or, rather, an outer and
inner halfrevolution —
correspond in the inner Tree of Life to the two similar sets of the first six regular polygons, whose shapes are delineated by 84 yods along their sides outside their shared root edge. Earlier articles pointed out that the seven
cosmic planes of consciousness are represented by the Cosmic Tree of Life (CTOL). It
consists of 91 overlapping Trees of Life with 550 SLs. CTOL is encoded in a unique
subset of the (7+7) polygons constituting the inner form of the Tree of Life. The root
edge and a set of seven separate polygons have a yod
population that is equal to the number of SLs in the 49tree representing the
cosmic physical plane. The five separate polygons with most
corners have as many yods as there are SLs in the 42
Trees of Life in CTOL above the 49tree that map the six cosmic superphysical planes. Together with the root edge, these separate (7+5) polygons (Fig. 5) constitute sacred geometry because they are the polygonal representation of CTOL. Listed below are ways whereby the ten Godname numbers listed in Table 1 (shown in boldface type) prescribe properties of this holistic set of (7+5) polygons. Also displayed are the ways in which these properties are expressed by the Pythagorean Tetrad (the number 4), the Pythagorean Decad (the number 10) and the integers 1, 2, 3 & 4 symbolising the four rows of dots in the Pythagorean tetractys. PROPERTIES OF (7+5) POLYGONS Separate 1. (7+5) polygons comprise 89 polygonal corners (89 = 44th odd integer after 1 = (24=4!)th prime number), 89 polygonal sides and 89 tetractyses with 101 corners (101 = 26th prime number = 50th odd integer after 1) and 178 sides; 
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2. Including the root edge, number of yods = 550, number of polygonal corners = 91, number of polygonal sides = 90, number of tetractys corners = 103, number of tetractys sides = 179 = 41st prime number (41 = 21st odd integer = 15 + 26) and number of geometrical elements = 103 + 179 + 89 = 371 = 7×53, where 7 = 4th prime number and 53 = (16=4^{2})th prime number; 3. 65 polygonal corners outside root edge. Enfolded 1. (7+5) polygons comprise 67 polygonal corners (67 = 19th prime number, 19 = 10th odd integer), of which 65 are outside root edge, and 61 unshared with Tree (61 = 31st odd integer). 78 polygonal sides and 88 tetractyses (88 = 44th even integer) with 76 corners (74 outside root edge) and 165 sides (165 = 1^{2} + 3^{2} + 5^{2} + 7^{2} + 9^{2} = 3×55 = 3(1^{2}+2^{2}+3^{2}+4^{2}+5^{2}) = sum of 15 squares). Of these, 10 are shared with 1tree (apart from root edge), leaving 155 unshared sides; 2. Number of corners and sides = 67 + 78 = 145. Of these, 3 corners are centres of polygons and 12 corners and sides are shared with 1tree. Number of corners and sides which are not centres of polygons or shared with 1tree = 145 – 3 – 12 = 130 = 129th integer after 1. 21 geometrical elements shared with 1tree (1tree has 36 unshared elements); 3. Number of yods = 494
4. Number of yods outside root edge = 494 – 4 = 490 = 49×10; 5. Number of tetractys corners not centres of polygons = 76 – 12 = 64 = 4^{3}; 6. Number of tetractys corners not both polygonal corners and centres = 76 – 2 – 1 = 73. Of these, 6 are Sephirothic points of Tree of Life. Number of tetractys corners unshared with Tree and not both centres and corners of polygons = 73 – 6 = 67; 7. Number of hexagonal yods = 494 – 76 = 418. Of these, 88 are centres of 88 tetractyses; 8. Number of hexagonal yods on edges of 88 tetractyses = 418 – 88 = 330, of which 17 are shared with Tree, leaving 313 unshared hexagonal yods on edges of tetractyses (313 = 65th prime number) and of which 22 are shared with 1tree, leaving 308 hexagonal yods on edges of tetractyses unshared with 1tree. 328 hexagonal are yods outside root edge on sides of tetractyses (328 = sum of first 15 prime numbers). Some of these properties of the (7+5) polygons are prescribed by the Godnames as follows: HOW GODNAMES PRESCRIBE (7+5) POLYGONS


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In general, those different sections of the 7 and (7+7) polygons whose properties are defined by the set of Godname numbers constitute sacred geometry and therefore encode cosmic parameters such as numbers associated with bosonic and superstring theories. Article 1 proposed a new mathematical principle called the Tetrad Principle that governs the Tree of Life description of nature. Evidence for this principle was discussed in the form of the remarkable way the number 4 (Tetrad) and the numbers 1, 2, 3 and 4 symbolised by the Pythagorean tetractys define and express parameters of the theories of superstrings and bosonic strings. My book The Mathematical Connection between Religion and Science shows how Godname numbers prescribe these parameters. In fact, the Godname numbers (“even” or “odd” denote the type of arrowed number defined by the previous one in the sequence, e.g., 13 is the 7th odd integer and 25 is the 13th odd integer).
themselves are determined arithmetically by the Tetrad (Fig. 6). It illustrates one of the profound properties of the Pythagorean Tetrad as the root source of Godname numbers and hence of superstring parameters like 248 and 496 — the numbers of states of the particle that transmits the unified force between, respectively, superstrings of either ordinary or shadow matter and superstrings of both these kinds of matter. References1) “The Mathematical Connection between Religion and Science,” Stephen M. Phillips (Antony Rowe Publishers, England, 2009). 2) “ESP of Quarks & Superstrings,” Stephen M. Phillips” (New Age International, New Delhi, India, 1999). 
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