Constructed by ancient Egyptians, the Great Pyramid has survived multiple earthquakes through the ages—now researchers think they know why

By Jackie Flynn Mogensen edited by Claire Cameron

The Great Pyramid of Giza, also known as the Khufu pyramid, is among the most famous wonders of the ancient world. It is also a wonder that the structure is still standing—given that it was erected some 4,500 years ago and has had to withstand significant weathering and seismic activity over that time, including earthquakes in 1847 and 1992. Why the pyramid could withstand such trauma hasn’t been fully understood, but now scientists are beginning to unearth some answers.

In a new study published on Thursday in Scientific Reports, researchers took dozens of measurements from inside the Khufu pyramid to characterize its “fundamental frequency,” a measure that can inform how a building might respond during an earthquake.

You can think of a building’s natural frequency like the sway of a swing, says Mohamed ElGabry, the study’s lead author and a professor at Egypt’s National Research Institute of Astronomy and Geophysics. It might take a lot of force to move the swing from a still position. But at a certain point, even just a small push to a moving swing can send it flying. A similar effect happens in structures—a building’s natural sway affects how it responds during “pushes,” or in other words, earthquakes. If a structure has the same frequency as the ground below it, that can amplify the effects of an earthquake, he says.

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That’s not the case for the Khufu pyramid, ElGabry and his colleagues found. They discovered that most of the structure has around the same frequency, an average of about 2.3 hertz (Hz). That’s much higher than the ground’s frequency of about 0.6 Hz.

Today engineers often make similar measurements to assess the earthquake safety of buildings. But the new findings are “very important,” ElGabry says, because nobody had made such measurements for the Great Pyramid before.

In this case, the Khufu pyramid’s natural frequency, aided by “pressure-relieving chambers” within the pyramid, appear to have protected it from earthquakes for thousands of years. It was also built on a limestone plateau, “a very strong and massive stone,” which helps the pyramid resist damage from earthquakes, ElGabry says.

“I was not surprised, but I was impressed,” he adds.

There is no indication, however, that the ancient Egyptians who built the pyramid were aware of these dynamics. “It doesn't mean they knew at that time all the physics we know today. For sure they didn’t,” ElGabry says.

But if you look at the design of the Great Pyramids, as well as other ancient structures such as the Bent Pyramid in Dahshur, which, as the name suggests, has a “bend” in its shape, as well as the Step Pyramid of Djoser, it’s clear that ancient pyramid builders were “learning by doing,” ElGabry says, adapting to their surrounding environment and using the resources they had on hand to build as strong structures as possible.

“They used it very wisely to build in a very efficient way that survived,” he says.