After several acoustic simulations and calculations, they showed that while exact prediction of the resulting sounds was probably impossible, the peculiar construction of the pyramid was carried out intentionally, so that it produced surprising sounds.

The secret of the pyramid's edge is due to the long, strange stairs, in which the steps are much higher than normal and with a base much smaller than the size of a person's entire foot today. This combination of measurements makes the steps a kind of acoustic filter that emphasizes some frequencies while suppressing others. It then follows that when a loud sound is produced, it travels colliding with multiple “walls” separated by a few centimeters of base, creating a multiple echo, which returns with a small gap with respect to the previous sound. The result of this game of acoustic geometry is the succession of almost glued echoes of different tones (the lower tones are given by the rebound of the higher steps and vice versa).

The human ear does not discern the different sound waves that stimulate it and therefore assimilates them as a continuous sound that changes tone, creating the song of the Quetzal. With this, the staircase acts as a giant sound diffractor.

Although it is scientifically impossible to prove whether the construction of the pyramid was really an intentional project of architectural acoustics, and the idea that the main idea behind the construction was the play of light during the equinox is more plausible, the idea that the construction of such uncomfortable steps had a higher purpose cannot be ruled out.

Likewise, the existence of other sites with similar effects in Mesoamerica, such as Teotihuacán, gives rise to the study of the existence of an explicit relationship between the buildings in which this phenomenon occurs, especially because the Quetzal had an important religious-mythological role throughout the region. The study of the specific elements for the production of the acoustic phenomenon could lead to comparison between archaeological sites, and the result could both support or rule out the hypothesis that the effect was intentionally incorporated by the builders.

Another fascinating acoustic phenomenon was discovered by UNAM archaeologist Francisca Zalaquett, who discovered that the temples and plazas of the Mayan city of Palenque in Chiapas had as a secondary function the amplification of sound waves, to project them clearly at a distance of at least one hundred meters. An archaeoacoustic analysis of the public rituals that took place in the plaza area was carried out, which suggested that the buildings functioned as sound amplifiers and that the layer of stucco that covered them was especially used to stimulate said acoustic effect, since it alters the reflection and absorption of sounds.

Likewise, Zalaquett and his team identified rooms that were used exclusively by musicians, priests and orators. These compartments played a key role in the sound structure of the buildings, since any sound that was produced in them was projected with much greater intensity and clarity than if it were emitted from another point of the construction.

Likewise, some of Palenque's multiple plazas seem to be designed in such a way that they function as sound receptors and are somehow destination niches in the journey of sound waves.

This effect is a high-pitched sound, similar to the song of a Quetzal, the sacred bird of the Mayans. At first glance, the peculiar acoustic effect at Chichén Itzá seems to be the product of luck and coincidence, however in 2004 Nico Declerq and several Belgian scientists from the University of Ghent demonstrated the way in which sound waves bounced around the staircase produced sounds that had been interpreted in ancient times, such as the song of a Quetzal or the pattering of raindrops.

After several acoustic simulations and calculations, they showed that while exact prediction of the resulting sounds was probably impossible, the peculiar construction of the pyramid was carried out intentionally, so that it produced surprising sounds.

The secret of the pyramid's edge is due to the long, strange stairs, in which the steps are much higher than normal and with a base much smaller than the size of a person's entire foot today. This combination of measurements makes the steps a kind of acoustic filter that emphasizes some frequencies while suppressing others. It then follows that when a loud sound is produced, it travels colliding with multiple “walls” separated by a few centimeters of base, creating a multiple echo, which returns with a small gap with respect to the previous sound. The result of this game of acoustic geometry is the succession of almost glued echoes of different tones (the lower tones are given by the rebound of the higher steps and vice versa).

The human ear does not discern the different sound waves that stimulate it and therefore assimilates them as a continuous sound that changes tone, creating the song of the Quetzal. With this, the staircase acts as a giant sound diffractor.

Although it is scientifically impossible to prove whether the construction of the pyramid was really an intentional project of architectural acoustics, and the idea that the main idea behind the construction was the play of light during the equinox is more plausible, the idea that the construction of such uncomfortable steps had a higher purpose cannot be ruled out.

Likewise, the existence of other sites with similar effects in Mesoamerica, such as Teotihuacán, gives rise to the study of the existence of an explicit relationship between the buildings in which this phenomenon occurs, especially because the Quetzal had an important religious-mythological role throughout the region. The study of the specific elements for the production of the acoustic phenomenon could lead to comparison between archaeological sites, and the result could both support or rule out the hypothesis that the effect was intentionally incorporated by the builders.

Another fascinating acoustic phenomenon was discovered by UNAM archaeologist Francisca Zalaquett, who discovered that the temples and plazas of the Mayan city of Palenque in Chiapas had as a secondary function the amplification of sound waves, to project them clearly at a distance of at least one hundred meters. An archaeoacoustic analysis of the public rituals that took place in the plaza area was carried out, which suggested that the buildings functioned as sound amplifiers and that the layer of stucco that covered them was especially used to stimulate said acoustic effect, since it alters the reflection and absorption of sounds.

Likewise, Zalaquett and his team identified rooms that were used exclusively by musicians, priests and orators. These compartments played a key role in the sound structure of the buildings, since any sound that was produced in them was projected with much greater intensity and clarity than if it were emitted from another point of the construction.

Likewise, some of Palenque's multiple plazas seem to be designed in such a way that they function as sound receptors and are somehow destination niches in the journey of sound waves.