The Scientist - Coldplay's Song Recorded at a Potentially Harmful 440 Hertz

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Most music is recorded at a frequency of 440 Hertz which is stressful and potentially harmful to the mind, spirit and body. Listen to the entire song and pay attention to how it makes you feel. Then listen to The Scientist recorded at 432 Hertz in the video listed above and see how this frequency makes you feel relaxed, peaceful and loving.

The frequency of all things does matter and can either heal our biofield or kill our biofield. Remember, that you are a biofield with a body NOT a body with a biofield.

Learn more at: www.drrobertyoung.com

Music Tuned to 440 Hz Versus 432 Hz and the Health Effects: A Double-blind Cross-over Pilot Study - https://www.sciencedirect.com/science/article/abs/pii/S1550830718302763

Introduction

Music has always been perceived as having special healing powers in people. The whole history of human civilization shows evidence of connections between music and physical and mental healing.1,2

From the point of view of physics, music is made up of sounds that are generated by waveforms whose frequency is expressed in Hertz (Hz). The Hz express the cycles per second (1 Hz = 1 cycle per second).3

Specifically, the frequency values determine the tonality and influence the timbre of the sounds.4

The current reference frequency for tuning musical instruments is 440 Hz, which corresponds to the musical note A4 (LA3) in the central octave of the piano.4 This frequency value was established in the 1950s5 and confirmed in 1975 as the standard tuning for music worldwide.6

So, nowadays, all the music we generally listen to is tuned to the 440 Hz frequency.4

The 432 Hz tuning is sometimes used in the New Age genre (meditation music)4 and by some musicians. Furthermore, on the web (YouTube) there are music tracks that have been transposed to 432 Hz from their original 440 Hz tuning.

The transposition of music from 440 Hz to 432 Hz is obtained by imperceptibly slowing down (by 32 hundredths of a tone) the execution of a song originally tuned at 440 Hz, using music editing software.7 The transposition process can also be viewed in different videos on the web (YouTube).

The frequency of 432 Hz music, as already mentioned for 440 Hz, refers to the value of the note A4 (LA3) of the central octave of the piano, which is taken as a reference to tune all the other notes in the time system.4

Currently, musicians using 432 Hz, as well as opera singers in the 1980s, declare that when musical instruments are tuned to 432 Hz, music becomes “hotter” and the perceived volume seems higher at parity of Decibel (dB).5,8

Italian opera singers in 1988 proposed to modify the tuning-fork for tuning the orchestras of the opera houses to 432 Hz, and the composer Giuseppe Verdi had already requested this in 1884; his request was granted in a decree which, however, was never applied.5,9

In fact, in 1989, in line with the 1975 European directives, the A was also legally fixed in Italy at 440 Hz.10

Maria Renold explains in her book describing some experiments,11 that when listening to a piano concert with a standard pitch based on a 440 Hz LA, the listeners present in the room during the performance assumed polemic, aggressive behaviors.

When the tone of the same instrument was brought to 432 Hz, the same people, once again invited to listen to the same concert, perceived the music as being better, and showed much more attention in listening.

Renold has described these behaviors for over twenty years, interviewing and testing the two different frequencies on more than two thousand people.11

In an article by the Schiller Institute12 it was stated that the most scientifically correct tuning is 432 Hz.13 This article explains the mathematical calculations by which this conclusion was arrived at, referring to historical figures such as Leonardo da Vinci, Johannes Kepler and Leonardo Pisano (known as Fibonacci).13

NASA (National Aeronautics and Space Administration) shows us in real time that the terrestrial frequency is about 8 Hz (“Schumann resonance”).14 This would therefore be in mathematical relation with 432 Hz, since 8 Hz is a submultiple of 432 Hz for the ratio between frequency and octave music.

In fact, it can be calculated starting from the octave of the A4 = 432 Hz in which the C4 (DO3) corresponds to 256 Hz. The following is the mathematical relation: 256/2 = 128 Hz (C3); 128/2 = 64 Hz (C2); 64/2 = 32 Hz (C1); 32/2 = 16 Hz (C0); 16/2 = 8 Hz (C-1).4 This same mathematical relationship does not exist in 440 Hz because the C4 (DO3) corresponds to 261.63 Hz.4

Because of this harmonic misalignment, listening to 440 Hz music would seem to make people anxious, nervous, or aggressive, because it is not in harmony with the natural frequency of the planet earth.

These same effects would have repercussions on human health since our DNA is sensitive to frequencies, as stated by the Professor Carlo Ventura's team.15

Human DNA is sensitive to music and its relative frequencies to the point that it can even be reprogrammed through them. In fact, by subjecting stem cells to various frequencies it has been possible to modify their natural organic function.15

There are several publications on the web16,17,18 and some books,5,11,19 but there are no scientific publications on the presumed benefits of tuning at 432 Hz.

It seems that the benefits of music tuned at 432 Hz are not related to the musical genre (classical, jazz, rock, pop, etc.), but exclusively to the frequency and relative tonalities of the music.4

Di Nasso et al.’s study suggests that music tuned to 432 Hz can be used as a remedy for anxiety and pain in dental treatment. However, the effects of listening to music tuned to 432 Hz have not been compared to the effects of listening to music tuned to 440 Hz in this context.20

Any type of music could be produced at and/or transposed to frequencies of 432 Hz with specific music editing software.7

In the complete absence of scientific evidence regarding the beneficial effects hypothesized by listening to tracks recorded at 432 Hz compared to the 440 Hz standard, a pilot study was designed to identify the effects and possible differences between the two frequencies on human vital parameters.

Furthermore, the perceptions of the subjects were explored during and after listening to music recorded at the two different frequencies, together with the general level of appreciation of the listening experience.

References (21)

1. L Di Nasso et al.
Influences of 432 Hz music on the perception of anxiety during endodontic treatment: a randomisez controlled clinical trial
J Endod
(2016)

2. The Republic by Plato. Book III
N Wallin et al.

3. The Origins of Music
(2000)
U Bottazzini et al.

4. The Symbolic Universe Geometry and Physics 1890–1930, Jeremy JG, ed
(1999)

5. The Oxford Dictionary of Music
(2012)

6. TR. Tuis
432 Hertz: la Rivoluzione Musicale
(2010)

7. International Organization for Standardization. ISO 16:1975. Acoustics-standard tuning frequency (standard musical...
Rudolph TE, Leonard AV. Recording in the digital world: complete guide to studio gear and software. 2001....

7. MusicainArmonia. Il canto a 432. (https://www.youtube.com/watch?v=rt1vZge-Bo4). Accessed 25 November...
Senato della Repubblica N. 1218.
8. Normalizzazione dell'intonazione di base degli strumenti musicali....

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