The 4-Ton Steel Ball That Produces Artificial Earthquakes

mintrop-ball-12 (600 x 450)Interesting News
In the wooded hillside of Hainberg, near Göttingen, Germany, stands an old seismological station. The Wiechert Earthquake Station was built in 1902 by the noted German physicist and geophysicist, Emil Wiechert, to carry out research in the emerging field of geophysics. Wiechert built several seismographs there to record tremors. These instruments have been recording data uninterruptedly since then, becoming the world’s oldest, still functioning seismograph.
Emil Wiechert was interested in learning about the structure of the earth. A few years prior, he had published the first verifiable model of the Earth’s interior as a series of shells. He argued that since the density of the Earth’s surface rocks was different from the mean density of the Earth, the earth must be made of different layers of rocks of different densities. He concluded, correctly, that the earth has a heavy iron core.
Ludger Mintrop was an able student of Wiechert, and one of the founders of modern geophysics. In 1908, Mintrop devised a method to produce earthquakes artificially and use the data recorded by seismographs to determine the geological structure underneath the surface. Mintrop built a steel scaffolding, 14 meters tall, from which a 4-ton steel ball was dropped into the bedrock of shell limestone.

Portable seismographs were used to register the resulting artificial seismic ground waves at various distances from the drop site. The experiment was a resounding success.

Mintrop successfully created a three-dimension image of the immediate area below the surface of the earth. Through this experiment, Mintrop demonstrated that by producing small, localized, artificial earthquakes, it was possible to identify distinctive boundaries in rock, and between solid and liquid rock layers, and draw conclusions about the nature of geological structures near the surface. Eventually, Mintrop founded the company Seismos GmbH for the purpose of exploring tappable deposits of minerals and rock by using seismic waves, although he replaced heavy iron balls with dynamite. This so-called “seismic exploration” is still used by the crude oil industry to search for deposits of crude oil, natural gas and minerals by inducing artificial shock waves and recording and interpreting the results.