On 8 October 1909 an earthquake occurred with its
epicenter in the
Pokuplje region, 39 km southeast of Zagreb. A number of
seismographs, installed beforehand, provided invaluable data, which led Mohorovičić to new discoveries. He concluded that when
seismic waves strike the boundary between different types of material, they are reflected and refracted, just as light is when striking a prism, and that when earthquakes occur, two waves—
longitudinal and
transverse—propagate through the earth with different velocities. By analyzing data from more observation posts, Mohorovičić concluded that the
Earth has several layers above a core. He was the first to establish, based on the evidence from seismic waves, the
discontinuity that separates the Earth's
crust from its
mantle. This is now called the
Mohorovičić discontinuity or (because of the complexity of that name)
Moho. According to Mohorovičić, a layered structure would explain the observation of depths where seismic waves change speed and the difference in chemical composition between rocks from the crust and those from the mantle. From the data, he estimated the thickness of the upper layer (crust) to be 54 km. Geophysicists subsequently determined that the crust is 5–9 km below the ocean floor and 25–60 km below the continents, which rest on
tectonic plates. Subsequent study of the
Earth's interior confirmed the existence of the discontinuity under all continents and oceans. Mohorovičić assumed that the velocity of seismic waves increases with the depth. The function he proposed to calculate the velocity of seismic waves is called the Mohorovičić law. He developed a method for determining earthquake epicenters and constructed curves giving the travel-times of seismic waves over distances of up to 10,000 miles from their source. He also proposed the construction of a new type of
seismograph for recording ground horizontal movement, but due to lack of funds the project was never realized. As early as 1909 Mohorovičić started giving lectures recommending standards that both architects and building contractors should follow - he was ahead of his time in setting some of the basic principles of
earthquake-resistant design. Mohorovičić's theories were visionary and were only truly understood many years later from detailed observations of the effects of earthquakes on buildings,
deep focus earthquakes, locating earthquake epicenters, Earth models, seismographs, harnessing the energy of the wind, hail-defence and other related elements of the geological body of knowledge known as
geoscience. == Legacy ==