Vibrational Frequency List Thursday, March 13, 2008

[broken.english]

Update to my above post.

A short check about Gary Young, the apparent source of the body and food frequencies, yielded devastating results. There is not much recognition for his doctorate in naturopathy nor his education in this field. He has a company, which sells essential oils based on a MLM business model and by now has moved some, if not all, activities to Ecuador. I could not find any accessible information on the body frequencies but the company website offers some books, which may or may not contain these.

In the following links there is more detailed information. Out of caution all links are deactivated.

_http://www.jonnsaromatherapy.com/pdf/Briggs_Real_Story_of_Gary_Young_2013.pdf
_http://en.wikipedia.org/wiki/Young_Living
_http://www.thedailybeast.com/articles/2014/12/05/honey-boo-boo-snake-oil-and-ebola-the-weird-world-of-young-living-essential-oils.html
_http://www.dgaryyoung.com/

 

[Sol Logos]

Certain sounds or colours might then correspond in frequency mathematically with optimal frequencies for particular organs say. What I mean is that they would produce resonance in the same way that a note is in harmony with the same note one octave up. Staying on the sound analogy, diseased organs as a treatment could be nudged into harmony by creating a sound resonance then somehow shifting that resonance to the frequency of the optimal health for that particular diseased organ - in theory.

This picture shows how sound and light corresponds (creates resonance) at certain frequencies. Potentially it could be mapped to correspond to what the body at different zones would operate in at perfect health or something like that.

Thank you for giving me a food for thought.
Right now I am researching the relationship between the frequency of colors and music. Pythagoras addressed this issue.

Where did you get this info about how sound and light corresponds at certain frequencies?
I would like to know more about that.

I've heard about it before so just wanted to describe it better with an image, so I just did a google image search to find that image. I've found a site that could be of interest and it seems like there's a reasonable correspondence on the connection between sound and light frequencies there. Here's a quote from it:

"The octave of visible light, extending from the color red to the color violet, is forty octaves higher than the middle audio octave, that which you would hear on a piano keyboard. Light, however, is measured by its wavelength, whereas sound in measured by its frequency."

"Waves of light are quite short. For example, the center frequency of the color green has a wavelength that is 0.0000005132 meters long (0.5132 x 10-6meters). To make this easy, we measure visible light in a unit called the Ångstrom (Å) (that is a capital A with a little circle on top). One Ångstrom = 1 x 10-10 meters (that is 0.1 nanometers). The colors of the visible spectrum are measured in thousands of Ångstroms. As show in the following chart, the visible spectrum of light extends from about 7000 Å (red) to about 4000 Å (violet). Also shown in the chart are the center wavelengths for each of the seven basic colors; their corresponding audio frequencies; and the location of the musical notes of an audio octave translated to the the visible spectrum."

"Thus, when we raise each note in middle audio octave by forty octaves we find its corresponding color harmonic. As shown in the chart below, the note "G" lies in the red area of the color spectrum. The note "A" raised forty octaves lies in the orange part of the spectrum. The note "B" lies in the lemon (yellow-green) part of the spectrum. The note "C" in the green band; the note "D" in the turquoise-blue band; and the note "E" lies in the violet band. Notice that the note "F" lies in the far violet area of the visible spectrum. This is near where the human eye range of color perception begins to drop off (although unique to each person). Also notice that the note F# lies even further from violet, in the near-UV (ultra-violet) area of the spectrum. Thus (when raised 39 octaves rather than forty octaves), it also it resides in the far-red (or near infra-red). Because of this, the note F# embraces the visible spectrum, and thus has some red and some violet, a combination that produces more of a purple color."

_http://www.roelhollander.eu/en/tuning-frequency/sound-light-colour/#lunarplanner

 

[Εἰρήνη]

I am still investigating this issue, but here is a good video on this topic that appeared today on SOTT:
https://www.youtube.com/watch?v=QV9dhGv_tTs