Adano Ley (Swami Nitty-Gritty) advised, “Use scarlet as a sex builder.â€
,
Scarlet as a trauma is associated with “scarlet woman†and “scarlet letter†value judgments.
.
The trauma of scarlet isn’t about physiological sexual excess; it’s about the societal value judgments about sexual “appropriateness†in relation to cultural “norms.â€
.
According to Colonel Dinshah P. Ghadiali’s principles of color therapy, which Adano subscribed to with reservations, scarlet is associated with the kidneys and gonads.
.
It’s a vasoconstrictor that stimulates the genitals, kidneys, adrenal glands, and arteries.
.
Scarlet is a therapeutic “sex builder†in cases of impotency and frigidity, and is color therapy’s answer to Viagra or maca supplementation.
.
Scarlet is an aphrodisiac whereas purple is an anaphrodisiac.
.
The butterfly is one of the rarest insects that can perceive scarlet.
.
Like the hummingbird, the butterfly is attracted to scarlet-colored tropical flowers.
.
Bees don’t perceive scarlet but are compensated by their ability to perceive ultraviolet from 400-300 millimicrons as a color tone.
.
The scarlet-colored poppy, unlike many tropical flowers, also reflects ultraviolet rays as well as scarlet rays, thus attracting bees.
.
Karl von Frisch (The Dancing Bees: An Account of the Life and Senses of the Honey Bee, New Revised Edition, 1966) wrote …
.
“Those flowers, few in number, which approximate to a ‘true red’ coloration in our native flora, like red campion and some of the Dianthus family, are, to a great extent, pollinated, not by bees, flies, or beetles, but by butterflies, whose long tongues enable them to suck up nectar from the bottom corolla tubes which, in these species, are particularly deep. Such great depth seems to indicate a special adaptation on the part of these plants or pollination by these long-tongued insects.â€
.
.
.
'The Scarlet Woman (& Man Too)' has 1 comment
November 11, 2012 @ 3:55 am atomb
Throughout the text of Butterflies Need No Taxidermist, chemical elements are listed by single color spectral predominance only.
Darius Dinshah (Let There Be Light, 1985) wrote …
“Fraunhofer Lines are seen in a spectroscope as bright, colored bands of differing intensities. However, if a beam of white Light is passed through the element under activation, the bright bands disappear and in their place are dark bands. Where the element had been emitting energy of certain frequencies (the Fraunhofer Lines) it is now absorbing the Light energy of the same frequencies; the dark bands are appropriately called ‘absorption lines.’ Dinshah [Ghadiali] reasoned: Since energy can be absorbed by shining Light on elements when they are in a ‘live’ state, should it not follow that the live human body with its electro-chemical emanations (its aura) would be influenced by the application of Colors similar to those seen in Fraunhofer Lines? He then examined the Fraunhofer spectrum of each element, and with his thorough background in chemistry and medicine, assigned each element to the Spectro-Chrome Color which most closely represents its chemical effect on the body.”
Jacob Liberman, O.D., Ph.D. (Light: Medicine of the Future, 1991) wrote …
“… he [Ghadiali] studied the Fraunhofer spectrum for each element in the body to determine its predominant color and then matched each element’s primary color emission with its known physiological function. He theorized that the major color emitted by an element was related to that element’s function in the body; therefore, when used therapeutically, this color would aid the activity of this element in the body. Combining his extensive research with sound intuition, Dinshah developed a mathematically precise set of twelve attuned color filters to be used with the Spectro-Chrome system of healing [red, orange, yellow, lemon, green, turquoise, blue, indigo, violet, purple, magenta, and scarlet].”
In place of single color spectral predominance, future scientists will analyze the Fraunhofer color spectrum in totality, including the width and left-to-right location of the individual lines of an element’s spectra.
Future spectroscopic analysis will also account for how much ultraviolet, infrared, and other wavelengths of radiation an element absorbs, not just the visible light spectrum.
Dwight L. McKee, M.D. (Emanuel Revici, M.D.: A Review of His Scientific Work, 1985) wrote …
“Further study of the phenomenon of emission of energy shows a correlation with the appearance of fluorescence in ultraviolet light. Its appearance and measurement using radiofluorescence (comparing the fluorescence of a sample to the fluorescence of uranium in ultraviolet) for agents was used as a means to investigate this specific character of substances. The emission of energy was thus found to be a property of anabolic agents. Also shown was that the quenching of fluorescence corresponds to an absorption of energy, and consequently to a catabolic character. Measurement of fluorescence and of absorption of energy (quenching of fluorescence) thus was used as a means of establishing the anabolic or catabolic properties of substances and constitutes an important addition to classification in pharmacology.”