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CLIVE ROSS' RESEARCH
______________________________________________________________

How the ancients designed the Giza Complex

Presented to the American Research Center in Egypt (ARCE 2001
annual meeting, PRI, USA)

Contents:

1 Linear and angular dimensions for the three large pyramids at
Giza, Egypt.

(Calculated by Sir W. Flinders Petrie)

2 Linear distances to each pyramid.

(Calculated by Sir W Flinders Petrie and confirmed by J. H. Cole)

3 New format and dimensions for the Giza complex.

(The site coordinates are rotated to accommodate the south side of
Khufu's pyramid.

This represents Earth's possible east-west orientation during
construction.)

4 Linear alignment involving the three pyramids.

(Basic geometric analysis indicates the misalignment of the three
pyramids at Giza)

5 Linear alignment, including a circular pyramid format.

(Closer investigation reveals the intended geometry required to
align the three pyramids)

6 Extended circular and triangular development, utilizing the
complex.

(A "mirror" image of the pyramid complex indicates advanced
knowledge in geometry) 

7 The third circle and the 2:1 ratio revealed.

(Three large circles are related to each other mathematically.

Two circles demonstrate the identical ratio equal to the two large
pyramids)

8 Relationship to the "Sphinx", "valley temples" and "boat pits".

9 The "mirror" image for the complex with Earth's angular tilt and
the number pi revealed.

1.      Linear and angular dimensions for the three large pyramids
at Giza, Egypt.

Sir William Matthew Flinders Petrie (1852-1942), a man who devoted
most of his mature life in search for the truth; a man who had no
former education in the field of Egyptology, became the first
Egyptological Chair in Britain.

Single-handed, this gentleman created a new approach to Egyptian
archeology by dissecting archeological sites in a scientific and
systematic manner. His tools for measure were calibrated to the
most accurate standard. The linear measuring instruments used were
based on the English inch, and meticulously he divided each into
decimal format.

His measures have been challenged on several occasions, however in
1925 AD his calculations were confirmed to be true within one inch,
when the Egyptian Government Survey Department appointed J. H. Cole
to perform this confirming survey.

There are three large pyramids at the Giza site, and to eliminate
confusion, the largest (Khufu's Pyramid) is referred to as P1,
followed by the center and almost equal in height being P2, leaving
the third and smallest pyramid noted as P3.

Petrie encountered difficulty while measuring the north end and
west side of P3, resulting in neither a true length of measure for
the north side, or the azimuth with reference to the west side. To
accommodate, the average measure has been applied (bracketed) to
complete the dimensions for this pyramid (Chart 1 and Ill. 1).

From Petrie, the length measures and individual azimuth for each
pyramid are as follows:

P1

Length

Azimuth

North

9069.4

-3' 20"

East

9067.7

-3' 57"

South

9069.5

-3' 41"

West

9068.6

-3' 54"

P2

Length

Azimuth

North

8471.9

-5' 31"

East

8475.2

-6' 13"

South

8476.9

-5' 40"

West

8475.5

-4' 21"

P3

Length

Azimuth

North

-4153.6

+16' 48"

East

4149.2

+12' 23"

South

4157.8

+12' 57"

West

4153.9

(+14' 03")

(INCHES)

Chart 1.

Sir William Petrie's measures for the three large pyramids at Giza,
Egypt

[INLINE]

Illustration 1.

Sir William Petrie's measures for the three pyramids on the Giza
Plateau, Egypt.

2. Linear distances to each pyramid:

Not excluding the works by J. H. Cole and the Egyptian Survey
Department, the following measures indicate the center location for
these three large pyramids on site.

North - South East - West

Center of P1 to center of P2 13932 13166

Center of P2 to center of P3 15170 9450

Center of P1 to center of P3 29102 22616

(Converted to English inches)

[INLINE]

Illustration 2.

J. H. Cole confirmed Petrie's measures for the pyramids, with
reference to each other.

3. New format and dimensions for the Giza complex:

From the above illustrations, the minor discrepancies in azimuth
measure are most evident. However, when viewing P3 compared to P1
and P2, its four sides are drastically misaligned with our true
celestial coordinates. This issue prompted an investigation into
analyzing the possibility that the builders may have constructed
the smaller pyramid further from the true north-south axis with
intent.

Before construction commenced, the foundation for P3 required
little preparation; an observation noted by Petrie while surveying
this structure. P3 is positioned in the most ideal area within the
complex, yet the larger foundations for both P1 and P2 involved
extensive engineering skills to prepare.

The two extremely large and complex pyramids are built directing us
closer to true north than the smaller pyramid. Did the designers
misalign P3 for us to consider viewing the pyramid complex
"regardless" of our present measure for true north, and only
compare their distances to each other?

Since we cannot verify Earth's axial motion over the past 5,000
years, we cannot assume that the ancient Egyptians built the
pyramids "offset" from true north. If we consider Earth's present
true north direction "irrelevant", then a new survey position can
be selected with reference to any given side from the three
pyramids. The issue to be resolved is; what side do we choose as
the reference?

Although true north can be calculated from celestial observations,
it requires full knowledge of Earth's daily orbital position with
respect to the Sun and the stars being observed. There is a far
simpler procedure to measure Earth's axis utilizing the Sun's rays.
The Sun rises from the east then sets in the west, and the ancient
Egyptians built obelisks for observing the shadows cast by these
monoliths. Using this basic ancient monitoring technique for the
Sun, prompted this writer to implement the east-west coordinate for
the south side of P1, it "possibly" being the designers true
reference line.

Using computer aided drafting (CAD), the complete site is rotated
showing the south side of P1 aligned with east to west (Ill. 3).

[INLINE]

Illustration 3

A new dimension format is created by choosing the south side of P1
to represent the designer's true reference line for Earth's
east-west axis.

4. Linear alignment involving the three pyramids.

The debate continues, whether the pyramids are built in a haphazard
fashion, or geometrically aligned. However, a straight line, marked
L1, appears to eliminate any alignment possibility (Ill. 4).

The single and closest alignment, from all linear combinations, is
demonstrated when a line is drawn from the southwest corner of P1
to the northwest corner of P3. This line passes close to, but not
actually intersecting the northeast corner of P2. From this
observation, it is obvious for us to safely assume that the Giza
complex involves three pyramids positioned in "random" locations.

L1, the single line drawn from P1 to P3, is the basic evidence used
by those disbelieving the existence of geometric alignments within
the Giza complex. Unfortunately, it has become the "barrier" in
debate for those attempting to prove otherwise.

[INLINE]

Illustration 4.

A single line (L1) indicates the misalignment of the three
pyramids, while a second line almost intersects three corner
locations, missing the northeast corner of P2 by several meters.

5. Linear alignment, including a circular pyramid format.

Where we have failed is our assuming the ancients not having gained
advanced mathematical and geometric skills. However, Egyptian
sculptures and art forms were far advanced for this era in ancient
history, and sculpturing requires geometrical mathematics. We
continue focusing on the mathematical complexity utilized in their
art form, yet we avoid the mathematical implications within the
pyramids.

Each structure has a square base, but true geometry is not
restricted to squares; it also implements triangles and circles. By
drawing the diagonal lines from each corner of the pyramids, their
centers are located. These diagonal lines represent triangles,
while the intersect location can be assigned as the center point
for a circle inscribed within the squares.

The south side of P1 was elected as the reference line by choice,
knowing that the ancients used the Sun for daily measure of time
and direction, and the Sun is circular.

By applying an inscribed circle to each pyramid, a second attempt
demonstrates a complete different set of linear alignments (Ill.
5).

From illustration 4, it was demonstrated how one line almost aligns
with one corner from each pyramid; when the same line is drawn
tangent to the circle C3, it intersect the corners for the two
large pyramids perfectly.

[INLINE]

Illustration 5.

Inscribing circles within the squares provides evidence of
geometrical alignments between the three pyramids and the tangents
to the circles C1 and C3.

The entrances to the pyramid passages are located on the lower
north face of each structure, and their locations from ground level
vary considerably. Another oddity is their position being offset
from center; there are no coherent theories explaining why the
ancients elected to place the passages at various distances from
the north-south axis. When these locations are connected linearly,
then we witness two additional geometric correlations (Ill. 6).

[INLINE]

Illustration 6.

Two geometric lines indicate the entrance locations for the three
pyramids.

6. Extended circular and triangular development, utilizing the
complex.

In April 2000 AD, Mr. M. Kodera of Japan introduced to the ARCE
2000 convention a proposal suggesting that the complete Giza
pyramid complex was mathematically pre-designed prior to
construction.

His means for demonstration included the Sphinx and a "mirror"
image of the lines drawn from the dimensioned pyramid locations.
The theory is most impressive, and the mathematical aspect
correlates within inches of Petrie's true measures; this minor
error instigated a closer review of his findings.

The following illustrates Mr. Kodera's proposal, including the
Sphinx, boat pits, valley temples, and the main causeway on site.

NOTE: Precise dimensional locations for these additional structures
were not available at the time of this writing. From scaled
drawings, produced by the Survey of Egypt, they are positioned to
the greatest possible accuracy (Ill. 7).

[INLINE]

Illustration 7.

A "mirror" image triangle formed using the south side of P1
representing Earth's true east-west axis; included are the Sphinx,
valley temples, main causeway, and boat pits.

L1 was the original line introduced, and its mirror image created
to the east of the complex. It can be noted how L1 intersects the
center portion of the Sphinx, then continuing through the southern
valley temple. It may also be noted how the main causeway ends
abruptly on the horizontal line drawn from P2.

Illustration 8 demonstrates other unique geometric formations
within this newly formed triangle.

Two vertical lines are drawn in the south direction from P1 and P2
to the horizontal line formed by P3; their intersects are marked as
J1 and J2.

From J2, a circle is drawn having a radius from J2 to the southeast
corner of P2, and noted as C4. This circle intersects the southern
corners of P2 and both western corners of P3, a perfect geometrical
formation, using circular geometry (Illus. 8).

[INLINE]

Illustration 8.

Circle C4 has a center location (J2) forming a circumference
intersecting the southern corners of P2 and the western corners of
P3.

Did the designers elect to utilize the corner positions for these
two pyramids to demonstrate their geometric knowledge? This clearly
indicates the precise geometrical locations for P2 and P3, but an
imagined triangle design was required to reveal the center position
for C4. This may provide an answer to the possible reason why P3
was constructed offset from true north more than the two larger
pyramids; it actually prompts the inquisitive to investigate
various locations for measurement references.

In an attempt to confirm the designer's intentions, an additional
circle is drawn from J1 to the southeast corner of P1, and marked
C5 (Illus. 9).

Now it is most evident that geometry was implemented to position
the three large pyramids on site. Circle C5 intersects the southern
corners of P1; similar to C4, it also passes the western corners of
P3. The designers duplicated this mathematical circular arrangement
in their original planning.

[INLINE]

Illustration 9.

A second circle (C5) is drawn using J1 as the center reference
location, having a circumference intersecting the southern corners
of P1. This circle also cuts through the western corners of P3.

7.      The third circle and the 2:1 ratio revealed.

Although C4 and C5 intersect the west side of P3, there still
remains a possible coincidence. However, one additional circle is
most obvious to construct, and we are guided to this circle by the
extents forming the "mirror" image triangle.

The original three circles (C1, C2 and C3) were inscribed utilizing
the square pyramid bases; now a third large circle (C6) is drawn
using the three point locations formed by L1 and the two secondary
lines L4 and L1 (Illus. 10).

The remarkable aspect to C6 is the size ratio compared to C4; it is
exactly twice the diameter of C4. These two circles have a size
ratio equal to 2:1, yet their center locations are completely
unrelated to each other (Chart 2).

From chart 2, an additional phenomenon is recognized; the size
ratio between C1 and C2, formed from the largest pyramids on site,
is identical to the ratio for the two large circles C5 and C6
respectively (1.07:1).

[INLINE]

Illustration 10.

Using the three points formed by the "mirror" image triangle, a
third large circle is inscribed (C6). Comparing circle C6 to circle
C4 produces a 2:1 ratio.

C1

C2

C3

Measure

9,070

8,477

4,158

C1

9,070

1

0.935

0.458

C2

8,477

1.070

1

0.491

C3

4,158

2.181

2.039

1

C5

C6

C4

Measure

49918

46716

23432

C5

49,918

1

0.936

0.469

C6

46,716

1.069

1

0.502

C4

23,432

2.130

1.994

1

Chart 2.

The extrapolated dimensions are listed for each circle,
demonstrating the mathematical ratios between the three pyramid
circles: C1, C2 and C3. These ratios are then compared to the
ratios for C4, C5, and C6.

To incorporate these circular elements, within the Giza complex,
required advanced knowledge in mathematical geometry. However,
without computer aided drafting programming, their designed
measures may have escaped detection indefinitely.

Before venturing further, we must consider why the designers would
chose a 2:1 ratio within the pyramid complex design. Since three
pyramids are constructed, then a 3:1 ratio would prove more
convincing.

It is obvious that the 2:1 ratio is being presented to us, but only
after discovering this circular geometry, and realizing the
designer's built several other indicators to confirm their intent,
as follows:

There are the two large pyramids compared to one smaller pyramid,
or simply stated, two pyramids verses one pyramid (2:1). Introduced
are the two boat pits and two valley temples. Although it is not
illustrated, there is a poorly constructed causeway leading from
P3, in the east direction, toward other smaller temples, but no
causeway was constructed for P1, therefore, there are two
causeways.

The most well known demonstration for this ratio is the King's
chamber within P1; its rectangular shape has sides measuring 20
cubits by 10 cubits, another 2:1 ratio. The designers are
indicating their primary objective being to emphasize the number
two; it is observed throughout the complete complex.

We are intelligent individuals; it is for us to investigate deeper
into the complex and discover the reason why.

9.    The "mirror" image for the complete complex with Earth's
angular tilt and the number pi revealed.

Three addition structures have been introduced, showing or
indicating mirror-image mathematics; what have not been analyzed
are the three pyramids themselves. The illustration below
demonstrates the location for P2 and P3 when their transferred
image is also included (Illus. 13).

[INLINE]

Illustration 13.

Similar to line L1, the "mirror" image of P2 and P3 are transferred
to the east side. The vertical line drawn from P2 passes through
the Sphinx and intersects L1 at the exact center of the sculpture.

The north-south axial line, drawn from P2, cuts through the direct
center portion of the Sphinx, remarkably, it also intersects L1 at
this very location. The probability for these two lines
intersecting at this location is extremely small. Combining this
geometric event with others previously introduced gives greater
support to the concept that the Giza site has been prepared using
advanced mathematical knowledge.

Referring to the initial proposal that the south side of P1 was
prepared by aligned it east to west; the designers actually confirm
this in the complete format, by utilizing two of the newly formed
circles.

Illustration 14 demonstrates a line (L5) drawn from the center
location of C4, through the center of C6 and continuing to the
frontal section of the Sphinx. The remarkable aspect of this newly
formed line is the angular measure with reference to L4 (23.44
degrees); it is equivalent to Earth's angular tilt with respect to
the Sun (23.433 degrees).

[INLINE]

Illustration 14.

Line L5, drawn from C4 through C6, continues and intersects the
horizontal line of the Sphinx, located between the constructed
"paws". The angle formed by L4 and L5 is 23.44 degrees, equal to
Earth's angular tilt (23.433 degrees).

The above illustrations confirm why the builders elected to
construct the Sphinx where positioned; it confirms their wanting us
to expand the dimensions for the Giza complex using "mirror" image
mathematics.

The original line L1 is the single line used by archeologists and
Egyptologists to confirm that the three pyramids at Giza are not
geometrically aligned. However, it was illustrated how C4
intersects the corner points of P2 and P3. This same circle is
mathematically associated with C6, resulting in a 2:1 ratio.

A circle drawn tangential to the three sides of the formed
triangle, created the smaller circle C7. From chart 4, we note how
the three circular ratios compare to each other.

[INLINE]

C4

C6

C7

Measure

23,457

46,716

14,868

C4

23,457

1

1.992

0.634

C6

46,716

0.502

1

0.318

C7

14,868

1.578

3.142

1

Chart 4.

The measures and ratios between the three circles C4, C6, and C7

From Chart 4, the size ratio between for C6 and C7 is 3.142:1, the
numerical value for the number pi measured to three decimal places.
The angle measure between L1 and the east-west direction is 52.09
degrees. To draw two circles having a ratio of 3.141592654:1, and
the smaller circle positioned within to form the triangle as shown,
the angular measure is 52.10 (0.02% error)....no other angle will
produce this ratio !!

These three circles were specifically designed within the Giza
complex to indicate the builder(s) full knowledge of circular
measure.

The formula for calculating the circumference of a circle is 2
times the number pi, and we are shown their ingenious mathematical
method used by incorporating the circular ratios of 2:1 and pi:1.

10. Conclusion.

Over two thousand five hundred years have elapsed since the
religious sector in Greece declared that all revolved around Earth.
It was a concept that created friction between the intellectual
philosophers and common man.

....Too difficult to understand, therefore impossible to perceive.

Are we continuing this identical ideology, by applying mythical and
legendary events to realistic and/or factual evidence? Are we to
continue displaying our arrogant attitude and supremacy in
knowledge, an attitude declaring that others before us could not
have known what we are learning today?

We have much to learn, and the above paper is no more than the
first and most basic step to unraveling the true reason why the
ancients constructed the Giza pyramids. The designers had a higher
intelligence level than we assume possible. For over four millennia
they successfully concealed this information from us, remaining
openly and daringly visible to all who visit.

Coincidences occur frequently, but not to the extent as displayed
from the above proposal. The Giza complex is a mathematically
designed array of stone monuments; no intellectual issues that can
alter this simple fact.

The time has arrived; we must begin to open our eyes, ears, and
mind; failure to do so will only prove our continuing journey along
the pathway of ignorance.

Petrie was not an Egyptologist when he first visited Egypt, yet his
systematic approach in archeology continues to this day.

Similar was Jean-Francois Champollion, the first to decode ancient
Egyptian hieroglyphs. He dedicated fourteen years of his life,
attempting to unlock the stories and historical events held within
the limited supply of ancient Egyptian papyrus script.
Unfortunately, the hand of death reached out prematurely for this
young man, while he witnessed his compiled notes and findings being
prepared for first publication.

Champollion was neither an archeologist nor an Egyptologist; he was
a Petrie, a Davidson, and a Lockyer. These individuals did not go
"against the grain" of Egyptology, they simply assisted those who
were confused or lost for reasoning.

We must ask ourselves...do we know the truth, or are we lost for
reasoning?

11. References.

Paper by M. Kodera, Comet Research Institute. [Presented to the
51st annual meeting of the American Research Center in Egypt (ARCE
2000)].

The pyramids and Temples of Gizeh, W. M. Flinders Petrie, 1883.

Discovering Ancient Egypt, R.F. MCKenty, 1997

General Map of the Giza Necropolis, Survey of Egypt

The Pyramids of Egypt, I.E.S. Edwards, 1988 revised pbe.

"106" The Dawn of Man, C. Ross, 1999 pbe.

[1][LINK] 

References

1. file://localhost/www/jnocook.net/saturn/files/giza/index.html