Egypt: Official survey of space under the Sphing by Japanese scientists 3. part

05. 01. 2024
6th international conference of exopolitics, history and spirituality

Third part of a brief lift from a report by the Japanese scientists from the Waseda University, conducted in Giza

Architectural assessment of the complex organization of the Great Pyramids

Takeshi Nakagawa, Kazuaki Seki, Shinichi Nishimoto

45 Section Section - Prospect of the Great Pyramid in GizaThe construction of the interior of the Cheops Pyramid, in terms of complex organization, is particularly unique in the history of the pyramids, but it is not unique. The Pyramid of Cheops should be considered the pinnacle of their complex organization and also the largest in scope and the most skilful construction. The inner complex of the Cheops Pyramid is much more clearly articulated, in terms of the construction of the three inner chambers, than the Bent Pyramid and the Red Pyramid in Dahshur. In the symbolic sense of detail, the Pyramids of Chefrén and Menkaure are more minimized and simplified than the Pyramid of Cheops. Therefore, the significance of the Pyramid of Cheops and its inner complex can be said to be universally valid across the pyramids. For the above reason, we must be very interested in filling three granite stones, at the intersection of the ascending corridor and the descending corridor. There is no gap (free space) between the stones and the wall, but a filling, so that the filling must have been there at the time when the ascending corridor was constructed. In keeping with this filling of stones, the Pyramid of Cheops was able to provide a jointed inner complex.

The real pyramid is not only a huge tomb of the pharaoh, but also a symbol of royal authority itself. On the other hand, the traditional significance remains that the pyramid was the tomb of a pharaoh. Cheops shuddered this tradition first, and then it was possible to perfect the radically inner complex. The sense of the unknown hollow space and detailed data should be considered within this thinking. So, the Queen's Chamber should correspond to this world, or the Royal Palace, and the Royal Chamber and the Upper Construction to the World Outside, in Heaven, and the Great Gallery links them to ceremonial spaces. The Pyramid would make significant progress in symbolic power if it could gain an invisible inner complex, including both known and unknown spaces.

Fig. 46 - Installation of the Royal Chamber            Isometric representation of the Kralova chamber

Fig. 47. - The construction of the hall of the Royal Chamber    Development of the Hall of the Royal Chamber II. part

Fig. 48. - Installation of the Great GalleryThe construction of the Great Gallery - II. part

Fig. 49. - The Queen's Chamber building   Building the Queen's Chamber - II. part

Fig. 50. - Installation of the Horizontal Passage leading to the Queen's ChamberHorizontal passage leading to the Queen's Chamber - II. part

Fig. 51. - Installation and part of the North EntranceBuilding and part of the North Entrance - II. part

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Our architectural survey has shown that the following should be included in comprehensive research:

  1. Details of the inner space of the pyramid. In particular, system analysis and masonry surface dimensions.
    Analysis by design method. Renovation of design dimensions and scales and relative proportions.
  2. Restore considerations for each part of the pyramid and interpret functions.
  3. Identify the location of unknown indoor spaces.
  4. Consider the pyramid building theory, a complete and comparative study including accurate and detailed measurements of the inner site, its history.
  5. A - experimental model of the whole superstructure of the Great Pyramid by the light-flexible method.
  6. Re-exploration of the Pyramid of Giza in terms of Necropolis planning.

Fig. 52-53 - Axonometric views of a large pyramid created by a computer

Fig. 54-55 - Big pyramid from bird and axonometric view

Fig. 56. Big pyramid from the bird's eye view of the ZSZ

Fig. 57 - View from a bird's perspective on the Great Pyramid

 

Physical properties and microscopic sand observations inside

Great pyramids

Shoji Tonouchi

X-ray analysis and microscopic observation of sand, limestone and granite often show recrystallization from corals and shells. Generally, observation under the microscope shows a strong recrystallization. The limestone of the Pyramid of Giza contained mostly calcite (CaCO3 - calcium carbonate), partly planktonic and binary foraminifera, quartz and plagioclase. The result is a muddy, brown limestone, and it appears to cause electromagnetic wave attenuation.

Granodiorite, pinkish granite, contains minerals such as quartz, biotite, hornblende, plagioclase, magnetite and K-feldspar. This rock belongs to the usual, except for the aluminum-rich granodiorite. According to the result of the experiment, the relative dielectric constant shows a value of 5, like the other granites in the world. But the value of the degree of attenuation is small, around 2,3.

We obtained the following important facts, namely that the sand found by a French reconnaissance mission inside the Great Pyramid is completely different from that of the Giza Plateau and the Saqqara district. However, sand is now found in the process of mineral analysis. The sand, found by the French mission, is composed mostly of quartz and a small amount of plagioclase. Quartz is composed of more than 99% and is generally called quartz sand. The grain size is large, which is from 100 to 400 microns. The sand, collected from the area south of the pyramid, contains minerals, mostly limestone, quartz, and plagioclase. It is characterized by the size of sand grains. These are mostly small, from 10 to 100 microns and each grain is square, original (autochthonous). This shows us that the sand originated in the same place where it was found. The sands on the east side of the Sphinx and in the desert behind the pyramid are almost the same as the one on the south side of the pyramid. The sand samples from Saqqara are also the same as those above, and there is a clear difference from the sand found inside the pyramid.

The sand, found inside the Great Pyramid, has lines (lines) formed by the wind on the surface of the quartz grain. The important thing is why this particular sand exists inside the pyramid. It is believed that the sand was used to build or maintain the pyramid. I think this fact means a lot to find the key to building a pyramid. The question is, does this type of sand exist in another part of the world? I have found from the literature that it is distributed in several parts of the world. It is also found in some places in Japan, and is called "weeping sand" because it makes a sound when the wind blows or when you walk on it. The reason for the sound is thought to be that the sand rubs against each other, and this is called "singing sand" in other parts of the world. Singing sand is made up mostly of 00% quartz and has a relatively large grain roughness. It is difficult to separate it from the eruption even by modern technology. It is not possible, given the ancient Egyptians, to have such a technique. So I tried to seek help in literature and found singing sand in Abswell, near Tur on the Sinai Peninsula. A survey of the place was carried out because the Bedouins said the sand made a sound. The property of the sand found here is the same as the sand inside the pyramid. From this I deduce that the granite on Mount Sinai has weathered and gradually moved towards the sea. As a result, quartz has separated from other minerals, according to its density and size. Then, the seabed rose and moved it in the sediment. The sediment continued to weather and quartz sand formed.

At present, we are going to do a mineral analysis to see if the sand from the Great Pyramid has the same characteristics as the singing sand. Besides, it is necessary for us to explore the Aswan district that distributes the granite.
I think this is important for a pyramid construction study.

 

CONCLUSION

Sakuji Yoshimura

We, the researchers of the Waseda University Pyramid mission, were assigned to clarify the "Giza Plateau Burial Project." At the beginning of the first research, we focused on "clarifying the purpose of building the Great Pyramid." tombs of kings ”, and therefore one's own treasure should remain hidden in the Great Pyramid, as in the other pyramids. Unknown chambers should therefore be used to store their own treasures, in addition to chambers that have already been found. In contrast, there is a belief that the Great Pyramid was looted in a pirated manner, before the invasion of Al Mamuna in the ninth century, and that the treasure itself had already been stolen. This belief is based on the belief that the Great Pyramid is the tomb of the king, as are the tombs of the New Kingdom period in the Valley of the Kings. Our theory abolishes such a belief, and we begin with the purpose for which the Great Pyramid was built. This does not mean a bold project to rethink the pyramids across Egypt, but the project will use the approach to the next step, to clarify the most complex internal structure of the Great Pyramid. Of course, needless to say, when comparing with other pyramids, observation is essential.

The discoveries of amateurs tend to be overlooked by experts. But even the experts originally knew nothing. They use the accumulation of ideas of amateurs in history. Therefore, as our start, we first addressed such unclear areas. Among them, there are many facts that have been discussed in a conventional manner. For example, that the actual northern entrance deviates to the east a little less than 8 meters from the central axis of the base, that the stone hiding the entrance is abnormally small, and why the underground chamber is unfinished. These as well as other facts have not been fully explained, but discussed. was completed in the middle. Thus, we began our survey by accurately re-measuring the interior spaces that have been found so far and entering data into a three-dimensional computer reconstruction system for study from various perspectives. We conducted the study in collaboration with experts from various fields, including those in the history of architecture, architectural structure and rock mechanics. At the same time, we have developed a technology that allows us to explore the interior of the Great Pyramid. Various experiments have shown that research by electromagnetic waves seems to be the best method. Therefore, we conducted the first survey in January 987 in the Giza plateau. After that, we improved the performance of our devices in the corresponding areas. The second survey was conducted in September 1987. The report from the second survey follows.

Why we put so much emphasis on the transfer of the inner part of the Great Pyramid is that we think there should be many chambers and corridors, in addition to those found to date. The originator of the idea is the fact that the right northern entrance deviates a little less than 8 meters east of the central axis. The discovery of a large space behind the wall, at the western end of the north wall, the so-called Queen's Chamber, which was found in the first research, had a great impact.

We had hope for the future when we discovered in this survey that the cavity is a passage similar to a horizontal passage parallel to it that ends at a point near the junction of the Horizontal Passage with the Great Gallery. Therefore, we can assume that there are passage bends in the west, which means that there is a very high possibility of the existence of a chamber or passage in the west. In other words, it means that a chamber or passage similar to those we already know on the west side. To identify it, we need to create a system of electromagnetic waves that can penetrate at least to the depth of 100 meters. Because viewing takes a lot of time, as a next step for the transient time, we think we should first explore, using the tomographic method, areas around 30 meters. Issues arise such as whether or not there is a chamber or passage between the entrance and the Grand Gallery, as well as whether there is a chamber or passage between the so-called Royal Chamber and the so-called Queen's Chamber. At the same time, the area between the two chambers and the underground chamber is clarified. This is because these problems will be clarified by the structures between the existing spaces in the Great Pyramid. In addition, the internal structure of the Great Pyramid will be clarified.

Apart from clarifying the internal structure of the Great Pyramid, the existence of the Great Sphinx is also important to us. All local scholars, including Petrie, who led the excavation and research work on the Giza plateau, are interested in the origin of the Great Sphinx, and are discussing it. However, discussions continue until today, without a definitive conclusion being reached.

We have set aside the conventional approach. The Great Sphinx is attached to the Pyramid of King Chefren, and we intend to consider a period of construction. It would be possible that the existence of the Great Sphinx was related to the construction of the Great Pyramid, and that the Great Sphinx and its temple were the first structures built on the Giza plateau. We want to clarify, based on the study of observations from the history of architecture, the plan of the now existing buildings on the Giza plain, according to accurate measurements of its orientation axes and distances between them, directions and angles, and analyze them using a computer. We believe that this is very important, given the cultural background in which religion to the sun god Ra, in the fourth dynasty, has rapidly intensified. In addition, as far as the Great Sphinx is concerned, we believe it will be important to identify the potential risk of the Sphinx's head collapsing, as there is a possibility that groundwater may rise under the rock deposit on which the Great Sphinx is built. It is also important to determine whether the metal reaction under the rock deposit at the left front paw found in the first and second surveys is a natural object or an artificial one. It is also necessary to explore the underground around the funeral route connecting King Chefren's pyramid and the temple opposite, using electromagnetic waves to understand the natural and artificial environment on the Giza plateau when the Great Pyramid was built. If we cannot determine the underground structure by any means other than ordinary excavation, the time and work required to carry it out will be enormous. However, the underground radar that we have developed is effective because it reduces resources in every aspect. The survey of a wide area will be carried out using an off-road vehicle. This is how we will conduct the survey in the near future. If we further develop this technique, it will be possible to explore the entire Giza platform by loading a research instrument onto a helicopter.
Above are the significance, methods and development of the survey we conducted on the Giza Plateau. Our motto is not to destroy traces and to find the truth from the beginning about things that have only been theorized in the past, and thus to use high technological equipment to reduce time, work and costs. It should be added that we do not intend to conduct research only for entertainment that ignores the essence of ancient Egyptian civilization, with a history of more than 5000 years, but strives every day to conduct some integrated research, at the highest level of each field, in collaboration with scientists. Worldwide.

END
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Footnote.

The research mission of French engineers is often mentioned in the above-mentioned research work of Japanese scientists, so I cannot fail to mention it briefly. From May 1986, for several months, a French expedition of engineers and technicians examined the Cheops Pyramid, using a micrographic metric study, as well as boreholes in a horizontal passage leading to the Queen's Chamber. Japanese scientists obtained samples of sand from a French well from the above well and found by physical analysis that it was quartz sand -99% quartz, specially imported from a quarry called Tura in the Sinai Peninsula or from Aswan quarries. There is no kind of sand around the Cheops Pyramid.

The use of the micrographic metric method by the French expedition allowed us to see small differences in the weight and density of the buildings inside the entire pyramid. It also includes the detection of empty interior spaces. For many months, French technicians performed thousands of measurements inside and outside the pyramid. The above team micrographically discovered a hidden Hosokawa spiral cavity, starting inside the Great Pyramid at its foundations and extending along the walls of the pyramid (observing 90% right angles) at a slight incline, turning the entire pyramid to its top. An unknown cavity could be a hidden corridor - an inner ramp - used inside the pyramid to build it. It could also be a light guide, a sound guide or a magnet guide, or just a way to other hidden chambers inside the pyramid. The cavity was partially filled with quartz sand - 99% quartz - the so-called singing sand, as determined from a well in the French expedition and also confirmed by Japanese scientists with their electromagnetic scanner and subsequent microscopic analysis of the sand found here.

A micrograph of a metric study shows that in terms of the volume of the pyramid, 15% of its mass is lost in empty spaces inside the monument. However, the French mission failed completely in its efforts, as scientific publications containing its studies have so far gone unnoticed by the scientific and lay public.

You can see more about this topic in the following video, in which French architect John Peel tries to discover how the Pyramid of Cheops was built and on that occasion visits a former participant in the French mission who, together with young engineers, participated in research and drilling inside the Great Pyramid. in 1986. This scientist works at the Polytechnic Institute of the French Academy of Sciences and in the following video (from his 29th minute) he tells about what their mission found inside the Great Pyramid.

 

Survey space under the Sphing

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