hi phive

“the numerical source of Great Pyramid chamber dimensions.”

M22 Hi Phive Chamber: lix dimension codes 

hiphivetitle

The following presentation applies the “lix” unit to a known measured structure,
the so called “King’s” Chamber at Gizeh.

chamberth

 All the dimensions relate to phi and the original position of the “Coffer” is located.

 “Pyramidologists have long known the Gizeh Pyramids were not designed with the British inch,
that the “primitive” inch was slightly larger.

Piazzi-Smyth, in the mid-nineteenth century, estimated the conversion to be 1.001. Dr Adam Rutherford, (1957),
using modern equipment, placed it at 1.00106.

“He brought the most advanced instruments and professional surveyors to measure and decode the Great Pyramid.
A sincere effort was applied to produce a cross-section with a coherent application of the measurements.
Rutherford and his team produced the most reliable dimensions to date.” ( jeb )

In 1980 Joseph Edward Batter determined the lix unit, 1 lix = 1.001006(153) Feet by way of the Astronomical Unit,
Light Speed and phi: the Golden Ratio, 1 : .6180339887+.
When he established the lix grid with the pyrameter triangle and plotted a 1/200th scale cross section of the Great Pyramid on it,
four codes of Kings’ Chamber dimensions were revealed.

The Great Pyramid was measured in British inches then converted, (divided by 1.00106), into primitive inches.
The key to decoding was to convert Rutherford’s Base 12, “primitive inch” measurements into Base “10 lix” then relate the chamber dimensions to one another.

No King or Pharaoh was ever interred in the Chamber. It was likely given the designation “King’s” because of its uppermost position within the Great Pyramid.
I believe the name should reflect the purpose behind the design and hereafter refer to it as the “Hi Phive” Chamber. You will soon understand why.

Table 1 is a comparison of the principal dimensions of the Chamber between Dr Rutherfords’ “primitive inch” and Joseph Edward Batters’ “lix” unit.
The conversion from the “measure” to the “code” is slightly larger than the “ancient” conversion due to the settling effects of earthquakes over geological time .

“Ancient” Conversion = measure (p.i.) x 1.00106 / Code x 12

line code (lix) “lixins” (lix x 12) measure (p.i) measure (pr.ft)
width 17.17300207  206.0760248  206.06593  17.17216
height  19.2  230.4  230.38871  19.19906
length  34.34600414  412.15204968  412.13186  34.34432


phive and point phive

5.5 x .5 = 1.1180339887 = 1.25.5

5.5 x .5 + .5 = 1.6180339887 = phi

hi5th

Chamber height = 19.2 lix = (26 x .3)
19.2 / 1.25.5 = 17.17300207 = Chamber width = [Y]
19.22 x 5 = cubic diagonal squared = 1843.2 lix = [V2]
19.23 x 1.6 = Chamber volume = 11324.6208 cubic lix

M22#1 Proportion 17.17300207: [Y] code of lix measure

8 principle dimensions, 3 sides, 4 diagonals and the perimeter are functions of
the chamber width: [Y] = 17.17300207 lix

hi5star

hiphveflat

The ceiling diagonal is twice the height and the length is twice the width.

The width times (phi minus .5) equals the height.
The width times 5.5 equals the ceiling diagonal.

The lix “Royal Cubit”

When Chamber width, [Y] = 1, Chamber volume = 5.5
[Y] x [S] x [U] = 1 x 1.1180339887 x 2 = 2.236067977

and the seven squared dimensions add up to 25.

prop1

When [Y] = 1 the sum of the squared dimensions minus [Y] = 24
24 divided by 1.25 = 19.2 = [S] = height
24 / 1.11803398873 = 17.17300207 = [Y] = width, the “Royal Cubit”.
1 cubit = [Y]/10 = 1.717300207 lix

[Y] proportion code

line symbol formula = n[Y] lix measure
width [Y]  1 17.17300207
north wall diagonal [X] 5.25.5 39.34829094
west wall diagonal [W]  1.5 25.75950310
cubic diagonal [V]  2.5 42.93250517
length [U]  2 34.34600414
 ceiling diagonal [T] 5.5 38.4
 height [S]  1.25.5  19.2
horizontal perimeter [M]  6 103.0380124
north wall diagonal [X] ([Y] x 4.2.5) x 1.25.5 39.34829094

[Y] x 6 = [M]

[M] is the perimeter of the floor or ceiling and the sum of the sides
of the largest 3 – 4 – 5 triangle in the chamber:

[W] + [U] + [V] = 103.0380124 = [M]

Joe originally derived [M] numerically from the formula:
(64 / 513).5 x 105

I’ve since found a more direct route:
(25 x .3)2 x 1.25.5 = 103.0380124


M22 #2 Proportion 19.2: [S] code of lix measure

width  [S] x .8.5 17.17300207 [Y]
north wall diag = [S] x 4.2.5 39.34829094 [X]
end wall diag = [S] x 1.8.5 25.75950310 [W]
cubic diag = [S] x 5.5 42.93250517 [V]
length = [S] x 3.2.5 34.34600414 [U]
ceiling diag = [S] x 4.5 38.4 [T]
 height = [S] x 1 19.2 [S]
perimeter = [S] x 2.88.5 103.0380124 [M]

8 main dimensions as functions of the chamber height
sequenced by the factors 8 through 1

line symbol formula lix measure
width as a function of phi [Y]  [S] / (phi – .5) 17.17300207
width2 [Y2] [S2] x 8 x 0.1 294.912
 north wall diagonal2 [X2] [S2] x 7 x 0.6  1548.288
 west wall diagonal2 [W2]  [S2] x 6 x 0.3 663.552
cubic diagonal2 [V2]  [S2] x 5  1843.2
length2 [U2]  [S2] x 4 x 0.8  1179.648
magnum [M]  [S] x 3 x 3.2.5  103.0380124
ceiling diagonal [T] [S] x 2  38.4
 height [S] [S] x 1 19.2

 

M22 #3 Hi Phive Chamber: lix number codes

chamber dimensions squared and reduced to their smallest factors.

eg) cubic diagonal: [V] = 17.17300207 x 2.5 = 42.93250517 lix

42.932505172 = 1843.2 = 211 x 0.9

(211 x 0.9).5 = 42.93250517

atri

squaring the width, height and length transforms the cubic rectangle:

1 x 1.25.5 x 2 into 1 x 1.25 x 4

line squared symbol = lix measure = formula
width
17.173002072		 [Y2] 294.912 215 x 0.009
north wall diagonal
39.348290942		 [X2] 1548.288 213 x 0.9 x 0.21
west wall diagonal
25.759503102		 [W2] 663.552 213 x 0.081
cubic diagonal
42.932505172		 [V2] 1843.2 211 x 0.9
length
34.346004142		 [U2] 1179.648 217 x 0.009
ceiling diagonal
38.42		 [T2] 1474.56 214 x 0.09
height
19.22		 [S2] 368.64 212 x 0.09
total 7372.8 213 x 0.9
horizontal perimeter
103.03801242		 [M2] 10616.832 217 x 0.092 x .1
chamber volume
[Y] x [S] x [U]		 11324.6208 222 x .33 x .1

eg) width = (215 x 0.009).5 = 17.17300207 lix

The sum of the 7 squared dimensions = 7372.8 = 213 x 0.9

[Y] x .5 = 73.728.5
[S] x [T] = 737.28
[S2] /5 = [X2] – [T2] = 73.728
[M2] / 73.728 = 144 = phibo #12

an intriguing relationship occurs with the squared dimensions and 5:

[S2] x 5 = [V2]
[T2] x 5 = 7372.8
[U2] x 5 = 7372.8 – [T2]
[V2] x 4 = 7372.8
[W2] x 5 = [S2] x 32
[X2] x 5 = [S2] + 7372.8
[Y2] x 5 = [T2]

and i finally realized what it is:

01 13 ’08

The Resolution of [G]

“If you’re out to describe Truth leave elegance to the Tailor.” AE

hi5g

7 principle dimensions of the Hi Phive Chamber, squared and reduced to common factors: 2, 3, 5, 7
213 x .009 = 73.728 = [G]

([T]/10) x [S] = 3.84 x 19.2 = 73.728 lix

([Y]/10) x [V] = 1.717300207 x 42.93250517 = 73.728 lix

symbol formula = = n[G] (n[G]).5 =  symbol line
[Y2] (28 x .03)2 x 5 294.912 4[G]  17.17300207 [Y]  width
[X2] (213 x .33) x 7 1548.288 21[G] 39.34829094 [X] N wall diag
[W2] (27 x .32) x 5 663.552 9[G] 25.75950310 [W] W wall diag
[V2] (26 x .3)2 x 5 1843.2 25[G] 42.93250517 [V] cubic diag
[U2] (29 x .03)2 x 5 1179.648 16[G]  34.34600207 [U] length
[T2] (28 x .03)2 x 52 1474.56 20[G] 38.4 [T] ceiling diag
[S2] (213 x .009) x 5 368.64 5[G]  19.2  [S]  height
total 213 x 0.9 7372.8 100[G]  lix

4, 21, 9, 25, 16, 20, 5

The seven principle dimensions squared form seven right angle triangles:
four on the perimeter walls and three sharing a common axis, the cubic diagonal: [V2]

Cubic Diagonal Triangles

4[G] + 21[G] = 25[G]
[Y2] + [X2] = 294.912 + 1548.288 = 1843.2 = [V2]

9[G] + 16[G] = 25[G]
[W2] + [U2] = 663.552 + 1179.648 = 1843.2 = [V2]

20[G] + 5[G] = 25[G]
[T2] + [S2] = 1474.56 + 368.64 = 1843.2 = [V2]

cubic diagonal triangles                perimeter triangles

lix proportion code and [G]


02 20 ’08

The resolution of [G] provides a key to the middle chamber and beyond:

midth

M22 #3.5 “Point Phive” Chamber: lix number code (pt 2)

M22: The Brain Elevator

 

 

M22 #4 lix Coffer Code

“Ancient” conversion = measure x 1.00106 / code x 12

code (lix) X 12 (lixins) measure (primitive inches)
width 3.22539960 38.7047952 38.69843
height 3.43460041 41.21520492 41.21319
length 7.48380124  89.80561488  89.80560

flatphive1


symbol formula lix dimension line
[C3] 6.66 – [C2] 3.434600414 coffer height
[C3] [Y] / 5 3.434600414  access passage height
[C4] [C3] + ([C3] / 100) 3.468946418 access passage width
[C2] [R] – [A] 3.225399590 coffer width
[C1] ( [Y] x 0.6) – 2.82 7.483801240 coffer length
[C] ( [Y] x 0.2) + 1.41 4.844600414 end faces from S and N wall
[R] [Y] + 6.66 23.83300207 offset of centre line of main passageways from Pyramid c/l, locates coffers west face
[M] [Y] x 6 103.0380124 horizontal perimeter of chamber: Magnum
[A]  [M] / 5 20.60760248  C/L of main passageway to coffers east face.
[A]  36/1.11803398875  20.60760248 magnum module
[E] [Y] + [U] + [S] /
[C1] + [C2] + [C3]		 5 phive
[X]  [Y] x (6.66 – 1.41).5  39.34829094 north wall diagonal

The phi – nominal Hi Phive and Point Phive Chambers are herein resolved!

Go back and take a closer look into these seemingly empty chambers.
Such constructs do not appear from trial and error nor are they merely the funerary whims of long dead Pharaohs.
The Great Pyramid at Gizeh is a repository of “Earth Measure”; a song of Joy to Number,
where the lix unit and the scale lixcaliber have unlocked and revealed
a timeless treasure of Golden Proportions.

lix start          lix unit            lix grid

and in case you missed it:

Point Phive “Queen’s” Chamber: lix number codes (part 2)

“King’s Chamber dimensions” google images

joeybeephilixa joey bee philix production

© stephen langton goulet
all rights reserved

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updated August 2011

copyright 2012 stephen langton goulet. all rights reserved.