The next question is: okay, so the musical theory makes sense, but why bother tuning to 432 Hz in the first place? Scientific pitch, also known as Sauveur pitch or Verdi tuning, is an absolute concert pitch standard which is based on middle C (C4) being set to 256 Hz rather than 261.62 Hz, making it approximately 37.6 cents lower than the common A440 pitch standard. So 432 Hz and 8 Hz are intrinsically linked in this way. This frequency of 8 Hz – which is at the top end of the Theta brainwave state – is the brainwave state that makes us feel relaxed but conscious and open to intuitive learning. So, when we tune an instrument to 432 Hz, we get a C note at 256 Hz, which, due to the sympathetic resonance of the note overtones, will produce another C at exactly 8 Hz. It is those awkward decimals he alluded to that make conventional music tuning (440 Hz) not sound as nice as music played at 432 Hz. Rather than tuning music at 440 Hz or other variations, he noted that by placing middle C at 256 Hz, you could create a system where each octave (or factor) of C lands on an even integer (whole number), instead of containing awkward decimals. In 1713, a French physicist named Joseph Sauveur came upon a new concept: Here's a fairly simplified explanation of how this came about, without too much math. Well, musically speaking, the two resonate with each other. So what's 432 Hz got to do with the Schumann Resonance of 7.83 – 8 Hz? This frequency range is referred to as the Earth’s heartbeat, or vibration. The Earth used to resonate at a steady average of 7.83 Hz, but in recent years we've seen a shift more towards an average of 8 Hz. He determined that the frequency of these electromagnetic waves is very low, ranging from 7.83 Hz to 8 Hz. He understood that global electromagnetic resonances exist within the cavity between the Earth’s surface and the inner edge of the ionosphere. This will ultimately explain the number’s importance.Ī German physicist, Winfried Otto Schumann, documented the Schumann Resonance in 1952. To understand the popularity behind 432 Hz, we need to first learn about the Schumann Resonance. The Schumann Resonance – The Earth's Heartbeat This simple theory will help you understand why 432 Hz is said to make for a better listening experience. The way we feel, and the way the brain responds when we listen, depends on the combination of sound frequencies in the composition. And Hertz (Hz) is the measurement we use. Sound is what is heard when sound waves (vibrations) pass through the ear. I mean, what is music made of?Īll sound is made by vibrations. What most people don’t know is how it does this. Science shows us that it affects internal functions like blood pressure and heart rate, can reduce anxiety, and even help with digestion and pain relief ( 1). Music affects more than your psyche, too. People create playlists for when they’re downhearted, happy, and almost every emotion in-between. In this post, we'll explore how this alternative tuning is related to our planet, how it almost became the standard pitch many years ago, why it's popular for healing, and the conspiracy theories behind its oppression.Ĭertain songs bring us to tears while others get us exhilarated and inspired for a once dreaded workout. What is it about music made in the frequency of 432 Hz that makes us feel so relaxed? Why is it that country music makes some want to throw the CD out of the nearest window? What is it about electronic music that makes it impossible for some to stand still?
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