Schumann resonances can be vividly compared to the sound of a giant gong gently struck with a
soft blow.
Imagine yourself in a large room where this gong stands. When the gong is struck, we don't hear the individual
strikes directly, nor can we precisely determine where and when the blow touched the metal surface.
Instead, we perceive the slow rise and fall of the deep sound that fills the entire room.
This continuous, fundamental sound pattern corresponds to the Schumann resonances – the fundamental frequencies of the Earth,
generated by strong sferics discharges (electromagnetic impulses from lightning) around the globe.
These strong sferics discharges are distributed worldwide and stimulate the Schumann resonances, similar to the
permanent strikes on the gong that create a uniform sound carpet. We can infer the general lightning activity on
Earth from this continuous sound, without having to perceive the individual lightning strikes.
In contrast, there are smaller sferics discharges, which in our example correspond to hitting a cymbal in a drum set.
When a drummer hits the cymbal with a wooden stick, we hear each individual strike clearly. The sound of the cymbal gives us
clues about where it was hit and how hard the strike was. If the drummer puts his hand on the cymbal after the strike and
dampens it, the sound fades quickly, and it is quiet again. These smaller, precise sound events symbolize the
tweeks – weaker sferics that represent locally confined electromagnetic phenomena and do not influence the global
sound picture of the Schumann resonances.
Most living beings, including humans, are unable to perceive these electromagnetic waves directly. You might be thinking,
"But I hear thunder during a thunderstorm!" It's important to understand that thunder is not a result of electromagnetic waves,
but rather caused by sound waves. Thunder is created by the explosive expansion of air, caused by the extreme heat of over
30,000 °C (54,000°F) in the plasma channel of a lightning bolt. This sudden heating of the air generates a shock wave that we hear as
thunder. The actual electromagnetic phenomena of sferics and Schumann resonances remain hidden from our senses.
Exploring the Earth's Invisible Symphony
Through these musical analogies, we aim to provide you with a deeper understanding of the complex electromagnetic processes constantly occurring around us. While the Schumann resonances literally form the omnipresent hum of our Earth, comparable to the sustained sound of a gong, the sferics and especially the tweeks are the fine, local accents, similar to the clear sounds of a cymbal, adding dynamism and variation to the whole.
These electromagnetic oscillations subtly influence our environment and can have an impact on our well-being, mood, and biological clock. Although we cannot perceive them directly, our bodies respond to these invisible frequencies.
The T.S.T.S. Generator makes it possible to emulate these natural phenomena and make them tangible for us. By replicating both the fundamental Schumann resonances and the variable sferics, it creates an environment that utilizes the harmonizing effects of these frequencies. This allows us to not only intellectually grasp the invisible symphony of the Earth, but also experience it on a deeper, more intuitive level.
The T.S.T.S. Generator makes it possible to emulate these natural phenomena and make them tangible for us. By replicating both the fundamental Schumann resonances and the variable sferics, it creates an environment that utilizes the harmonizing effects of these frequencies. This allows us to not only intellectually grasp the invisible symphony of the Earth, but also experience it on a deeper, more intuitive level.