Great Pyramid of Giza

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The Great Pyramid of Giza, in 2005. Built c. 2560 B.C., it is the oldest and largest of the three pyramids in the Giza Necropolis.

The Great Pyramid of Giza (also called the Khufu's Pyramid, Pyramid of Khufu, and Pyramid of Cheops) is the oldest and largest of the three pyramids in the Giza Necropolis bordering what is now Cairo, Egypt, and is the only remaining member of the Seven Wonders of the Ancient World. It is believed the pyramid was built as a tomb for Fourth dynasty Egyptian King Khufu (Cheops in Greek) and constructed over a 20 year period concluding around 2560 BC. The Great Pyramid was the tallest man-made structure in the world for over 3,800 years. Originally the Great Pyramid was covered by casing stones that formed a smooth outer surface, and what is seen today is the underlying core structure. Some of the casing stones that once covered the structure can still be seen around the base. There have been varying scientific and alternative theories regarding the Great Pyramid's construction techniques. Most accepted construction theories are based on the idea that it was built by moving huge stones from a quarry and dragging and lifting them into place.

There are three known chambers inside the Great Pyramid. The lowest chamber is cut into the bedrock upon which the pyramid was built and was unfinished. The so-called[1] Queen's Chamber and King's Chamber are higher up within the pyramid structure. The Great Pyramid of Giza is the main part of a complex setting of buildings that included two mortuary temples in honor of Khufu (one close to the pyramid and one near the Nile), three smaller pyramids for Khufu's wives, an even smaller "satellite" pyramid, a raised causeway connecting the two temples, and small mastaba tombs surrounding the pyramid for nobles.

Contents

Building the pyramid

It is believed the pyramid was built as a tomb for Fourth dynasty Egyptian pharaoh Khufu and constructed over a 14[2] to 20 year period concluding around 2560 BC.[3] Khufu's vizier, Hemon, or Hemiunu, is believed by some to be the architect of the Great Pyramid.[4] It is thought that, at construction, the Great Pyramid was 280 Egyptian royal cubits tall, 146.6 meters, (480.97 feet) but with erosion and the loss of its pyramidion, its current height is 138.8 m (455 feet). Each base side was 440 royal cubits, with each royal cubit measuring 0.524 meters.[5] The total mass of the pyramid is estimated at 5.9 million tonnes. The volume, including an internal hillock, is believed to be roughly 2,500,000 cubic meters.[6] Based on these estimates building this in 20 years would involve installing approximately 800 tonnes of stone every day. The first precision measurements of the pyramid were done by Egyptologist Sir Flinders Petrie in 1880–82 and published as The Pyramids and Temples of Gizeh.[7] Almost all reports are based on his measurements. Petrie found the pyramid is oriented 4' west of North and the second pyramid is similarly oriented.[8] Many of the casing stones and interior chamber blocks of the great pyramid were fit together with extremely high precision. Based on measurements taken on the north eastern casing stones, the mean opening of the joints are only 1/50th of an inch wide. [9]

Great Pyramid of Giza from a 19th century stereopticon card photo

The pyramid remained the tallest man-made structure in the world for over 3,800 years,[10] unsurpassed until the 160 meter tall spire of Lincoln Cathedral was completed c. 1300. The accuracy of the pyramid's workmanship is such that the four sides of the base have a mean error of only 58 millimeter in length, and 1 minute in angle from a perfect square. The base is horizontal and flat to within 15 mm. The sides of the square are closely aligned to the four cardinal compass points (within 3 minutes of arc based on true north not magnetic north). The completed design dimensions, as suggested by Petrie's survey and later studies, are estimated to have originally been 280 cubits in height by 440 cubits in length at each of the four sides of its base. These proportions equate to π/2 to an accuracy of better than 0.05% which some Egyptologists consider to have been the result of deliberate design proportion[11]. Verner wrote, "We can conclude that although the ancient Egyptians could not precisely define the value of π, in practise they used it".[12] Petrie, author of ‘The Pyramids and Temples of Gizeh', who was the first accurate surveyor of Giza and the excavator and surveyor of the Pyramid of Meidum, concluded: "but these relations of areas and of circular ratio are so systematic that we should grant that they were in the builders design" [13] Earlier in the chapter he wrote more specifically, that: “We conclude therefore that the approximation of 7 to 22 as the ratio of diameter to circumference was recognised” [14]

Materials

The Great Pyramid consists of more than 2.3 million limestone blocks. The Egyptians shipped the limestone blocks from quarries all along the Nile River. The stone was cut by hammering wedges into the stone. Then, the wedges were soaked with water. The wedges expanded, causing the rock to crack. Once they were cut, they were carried by boat either up or down the Nile River to the pyramid.[citation needed]

Casing stones

casing stone

At completion, the Great Pyramid was surfaced by white 'casing stones' – slant-faced, but flat-topped, blocks of highly polished white limestone. Visibly all that remains is the underlying step-pyramid core structure seen today. In AD 1301, a massive earthquake loosened many of the outer casing stones, which were then carted away by Bahri Sultan An-Nasir Nasir-ad-Din al-Hasan in 1356 in order to build mosques and fortresses in nearby Cairo. The stones can still be seen as parts of these structures to this day. Later explorers reported massive piles of rubble at the base of the pyramids left over from the continuing collapse of the casing stones, which were subsequently cleared away during continuing excavations of the site. Nevertheless, many of the casing stones can be seen to this day in situ around the base of the Great Pyramid, and display the same workmanship and precision as has been reported for centuries. Petrie also found a different orientation in the core and in the casing measuring 193 centimeters ± 25 centimeters. He suggested a redetermination of north was made after the construction of the core, but a mistake was made, and the casing was built with a different orientation.[8]

Construction theories

Many alternative, often contradictory, theories have been proposed regarding the Pyramid's construction techniques. Not all even agree that the blocks were quarried, they might conceivably have been cast. However, most accept it was built by moving huge stones from a quarry, being only unable to agree whether they were dragged, lifted or even rolled into place. The Greeks believed that slave labour was used but modern Egyptologists accept that it was built by many tens of thousands of skilled workers. They camped near the pyramids and worked for a salary or as a form of paying taxes until the construction was completed[citation needed]. Their cemeteries were discovered in 1990 by archaeologists Zahi Hawass and Mark Lehner. Verner posited that the labor was organized into a hierarchy, consisting of two gangs of 100,000 men, divided into five zaa or phyle of 20,000 men each, which may have been further divided according to the skills of the workers.[15]

One of the mysteries of the pyramid's construction is how they planned its construction. John Romer suggests that they used the same method that had been used for earlier and later constructions, laying out parts of the plan on the ground at a 1 to 1 scale. He writes that "such a working diagram would also serve to generate the architecture of the pyramid with a precision unmatched by any other means." He devotes a chapter of his book to the physical evidence that there was such a plan.[16]

Interior

The Great Pyramid is the only pyramid known to contain both ascending and descending passages. There are three known chambers inside the Great Pyramid. These are arranged centrally, on the vertical axis of the pyramid. From the entrance, an 18 meter corridor leads down and splits in two directions. One way leads to the lowest and unfinished chamber. This chamber is cut into the bedrock upon which the pyramid was built. It is the largest of the three, but totally unfinished, only rough-cut into the rock. The other passage leads to the Grand Gallery (49 m x 3 m x 11 m), where it splits again. One tunnel leads to the Queen's Chamber, a misnomer, while the other winds to intersect with the descending corridor. The Grand Gallery itself features a corbel haloed design and several cut "sockets" spaced at regular intervals along the length of each side of its raised base with a "trench" running along its center length at floor level. What purpose these sockets served is unknown. An antechamber leads from the Grand Gallery to the King's Chamber.[3]

Diagram of the interior structures of the great pyramid. The inner line indicates the pyramid's present profile, the outer line indicates the original profile.

King's Chamber

At the end of the lengthy series of entrance ways leading into the interior is the structure's main chamber, the King's Chamber. This chamber was originally 10 × 20 × 11.2 cubits, or about 5.25 m × 10.5 m × 6 m, comprising a double 10 × 10 cubit square, and a height equal to half the double square's diagonal. Some believe that this is consistent with the geometric methods for determining the Golden Ratio φ (phi), which can be derived from other dimensions of the pyramid, such that if φ had been the design objective, then π automatically follows to 'square the circle'.[17]

The sarcophagus of the King's Chamber was hollowed out of a single piece of Red Aswan granite and has been found to be too large to fit through the passageway leading to the chamber. Whether the sarcophagus was ever intended to house a body is unknown. It is too short to accommodate a medium height individual without the bending of the knees, a technique not practiced in Egyptian burial, and no lid was ever found. The King's Chamber contains two small shafts that ascend out of the pyramid. These shafts were once thought to have been used for ventilation, but this idea was eventually abandoned, which left Egyptologists to conclude they were instead used for ceremonial purposes. It is now thought that they were to allow the Pharaoh's spirit to rise up and out to heaven.[18]

The King's Chamber is lined with red granite brought from Aswan 935 km (580 miles) to the south. There are 5 relieving chambers above the kings chamber. The first one is reached through a breach in the wall at the upper end of the Grand Gallery, this was named the Davidson chamber. Howard Vyse suspected there was another chamber above this when he found that he was able to thrust a long reed through a crack in the ceiling. He blasted through to find 4 more relieving chambers. These chambers were named the Wellington, Nelson, Lady Arbuthnot and Cambell's chambers. The kings chamber and the first 4 relieving chambers have roofs made out granite. Each roof includes 8 or 9 granite slabs weighing 25 to 80 tonnes each. Cambell's chamber has a pented roof made of large limestone slabs. [19] [20] Egyptologists believe they were transported on barges down the Nile river.[21]

Queen's Chamber

The Queen's Chamber is the middle and the smallest, measuring approximately 5.74 by 5.23 meters, and 4.57 meters in height. The chamber is lined with fine limestone blocks and the pented roof is made of large limestone slabs.[22] Its eastern wall has a large angular doorway or niche. Egyptologist Mark Lehner believes that the Queen's chamber was intended as a serdab, a structure found in several other Egyptian pyramids, and that the niche would have contained a statue of the interred. The Ancient Egyptians believed that the statue would serve as a "back up" vessel for the Ka of the Pharaoh, should the original mummified body be destroyed. The true purpose of the chamber, however, remains uncertain.[18] The Queens Chamber has a pair of shafts similar to those in the King's Chamber, which were explored using a robot, Upuaut 2, created by the German engineer Rudolf Gantenbrink. In 1992, Upuaut 2 discovered that these shafts were blocked by limestone "doors" with two eroded copper handles. The National Geographic Society filmed the drilling of a small hole in the southern door, only to find another larger door behind it.[23] The northern passage, which was harder to navigate due to twists and turns, was also found to be blocked by a door.[24]

Unfinished chamber

The "unfinished chamber" lies 27.5 meters below ground level and is rough-hewn, lacking the precision of the other chambers. Egyptologists suggest the chamber was intended to be the original burial chamber, but that King Khufu later changed his mind and wanted it to be higher up in the pyramid.[25] Egyptologist Bob Brier believes it was an insurance policy in case Khufu died early. When he was still alive and healthy after about 5 years of construction, the second (Queen's) chamber was begun. Sometime around the fifteenth year this chamber was abandoned unfinished and the last or King's Chamber was built high up in the center of the pyramid.[26]

Pyramid complex

Map of Giza pyramid complex

The Great Pyramid of Giza is the main part of a complex setting of buildings that included two mortuary temples in honor of Khufu (one close to the pyramid and one near the Nile), three smaller pyramids for Khufu's wives, an even smaller "satellite" pyramid, a raised causeway connecting the two temples, and small mastaba tombs surrounding the pyramid for nobles. One of the small pyramids contains the tomb of queen Hetepheres (discovered in 1925), sister and wife of Sneferu and the mother of Khufu. There was a town for the workers of Giza, which included a cemetery, bakeries, a beer factory and a copper smelting complex. A few hundred meters south-west of the Great Pyramid lies the slightly smaller Pyramid of Khafre, one of Khufu's successors who is also commonly considered the builder of the Great Sphinx, and a few hundred meters further south-west is the Pyramid of Menkaure, Khafre's successor, which is about half as tall. In May 1954, 41 blocking stones were uncovered close to the south side of the Great Pyramid. They covered a 30.8 meter long rock-cut pit that contained the remains of a 43 meter long ship of cedar wood. In antiquity, it had been dismantled into 650 parts comprising 1224 pieces. This funeral boat of Khufu has been reconstructed and is now housed in a museum on the site of its discovery. A second boat pit was later discovered nearby.[27]

Thieves, tourists and excavators

Although succeeding pyramids were smaller, pyramid building continued until the end of the Middle Kingdom. However, as authors Briar and Hobbs claim, "all the pyramids were robbed" by the New Kingdom, when the construction of royal tombs in a desert valley, now known as the Valley of the Kings, began.[28][29] Joyce Tyldesley states that the Great Pyramid itself "is known to have been opened and emptied by the Middle Kingdom", before the Arab caliph Abdullah Al Mamun entered the pyramid around 820 A.D.[30]

See also

Notes

Group photo of Australian 11th Battalion soldiers on the Great Pyramid in 1915.
Aerial photography, taken from Eduard Spelterini's balloon on November 21, 1904
  1. ^ John Romer, in his The Great Pyramid: Ancient Egypt Revisited notes "By themselves, of course, none of these modern labels define the ancient purposes of the architecture they describe." p. 8
  2. ^ John Romer, basing his calculations on the known time scale for the Red pyramid, calculates 14 years — pp.74, schedule on pp 456-560.
  3. ^ a b Oakes & Gahlin (2002) p.66.
  4. ^ Shaw (2003) p.89.
  5. ^ Dilke (1987) pp.9,23.
  6. ^ Levy (2005) p.17.
  7. ^ http://www.ronaldbirdsall.com/gizeh/petrie/index.htm
  8. ^ a b Petrie (1883).
  9. ^ Dr. I.E.S. Edwards: "The Pyramids of Egypt" 1986/1947 p. 285
  10. ^ Collins (2001) p.234.
  11. ^ Lightbody (2008) p.24.
  12. ^ Verner (2003) p.70.
  13. ^ Petrie Wisdom of the Egyptians 1940: 30
  14. ^ Petrie Wisdom of the Egyptians 1940: 27
  15. ^ Verner (2001) pp.75-82.
  16. ^ Romer, John, The Great Pyramid: Ancient Egypt Revisited, p. 327, pp. 329-337
  17. ^ Calter (2008) pp. 156-171, 548-551.
  18. ^ a b Oakes & Gahlin (2002) p.67.
  19. ^ Lehner (1997)p. 44,51-53,108-115
  20. ^ Scarre (1999)
  21. ^ Romer (2007) pp.187-195
  22. ^ Lehner (1997)p. 112
  23. ^ Gupton, Nancy (2003-04-04). "Ancient Egyptian Chambers Explored". National Geographic. http://news.nationalgeographic.com/news/2002/09/0910_020913_egypt_1.html. Retrieved on 2008-08-11. 
  24. ^ "Third "Door" Found in Great Pyramid". National Geographic. 2002-09-23. http://news.nationalgeographic.com/news/2002/09/0923_020923_egypt.html. Retrieved on 2008-08-11. 
  25. ^ "Unfinished Chamber". Public Broadcasting System. http://www.pbs.org/wgbh/nova/pyramid/explore/khufuunfhi.html. Retrieved on 2008-08-11. 
  26. ^ Hidden ramps may solve the mystery of the Great Pyramid's construction Archaeological Institute of America, Volume 60 Number 3, May/June 2007.
  27. ^ Clayton (1994) pp.48-49.
  28. ^ Brier 1999, p. 164 [1]
  29. ^ Cremin 2007 p.96.[2]
  30. ^ Tyldesley, 2007 p.38

References

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  • Calter, Paul A. (2008). Squaring the Circle: Geometry in Art and Architecture. Key College Publishing. ISBN 1-930190-82-4. 
  • Clayton, Peter A. (1994). Chronicle of the Pharaohs. Thames & Hudson. ISBN 0-500-05074-0. 
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  • Cremin, Aedeen (2007). Archaeologica. Frances Lincoln. ISBN 978-0711228221. 
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  • Levy, Janey (2005). The Great Pyramid of Giza: Measuring Length, Area, Volume, and Angles. Rosen Publishing Group. ISBN 1404260595. 
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  • Petrie, Sir William Matthew Flinders (1883). The Pyramids and Temples of Gizeh. Field & Tuer. ISBN 0710307098. 
  • Romer, John (2007). The Great Pyramid: Ancient Egypt Revisited. Cambridge University Press, Cambridge. ISBN 978-0-521-87166-2. 
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  • Verner, Miroslav (2003). The Pyramids. Atlantic Books. ISBN 1843541718. 

External links

Preceded by
Red Pyramid of Sneferu
World's tallest structure
2570BC—~1300AD
146.6 m
Succeeded by
Lincoln Cathedral

Coordinates: 29°58′45.03″N 31°08′03.69″E / 29.979175°N 31.1343583°E / 29.979175; 31.1343583

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