Bryn's drawings may unlock pyramid's construction secrets.
According to a Norwegian architect, researchers have been so preoccupied by the weight of the stones comprising Egypt’s ancient pyramids that they’ve overlooked two major problems: How did the Egyptians know exactly where to put the enormously heavy building blocks, and how was the master architect able to communicate highly precise plans to a workforce of 10,000 illiterate men?
These were among the questions that confronted Ole J. Bryn, an architect and associate professor of Architecture and Fine Art with the Norwegian University of Science and Technology when he began examining Khufu's Great Pyramid in Giza. Khufu's pyramid ~ better known as the Pyramid of Cheops ~ consists of 2.3 million limestone blocks weighing roughly 7 million tons. At 146.6 meters high, it held the record as the tallest structure ever built for nearly 4,000 years.
According to ScienceDaily:
What Bryn discovered was quite simple. He believes that the Egyptians invented the modern building grid, by separating the structure's measuring system from the physical building itself, thus introducing tolerance, as it is called in today's engineering and architectural professions.
Bryn has studied the plans from the thirty oldest Egyptian pyramids, and discovered a precision system that made it possible for the Egyptians to reach the pyramid's last and highest point, the apex point, with an impressive degree of accuracy. By exploring and making a plan of the pyramid it is possible to prepare modern project documentation of not just one, but all pyramids from any given period.
As long as the architect knows the main dimensions of a pyramid, he can project the building as he would have done it with a modern building, but with building methods and measurements known from the ancient Egypt, Bryn says.
If the principles behind Bryn's drawings are correct, according to ScienceDaily, then archaeologists will have a new "map" that demonstrates that the pyramids are not a "bunch of heavy rocks with unknown structures" but, rather, incredibly precise structures.
Click here for the complete article.