Light & Color Theory of the Magnetic Spectrum _ Art-Of-clay-taylor

11/23/2016

Light & Color Theory of the Magnetic Spectrum | artofclaytaylor

Light & Color Theory of the Magnetic Spectrum November 21, 2016 | Clay Taylor We live in a day an age of interesting contrasts. We are surrounded by incredibly high technology, yet most do not comprehend how it functions. You are reading this on a screen that accurately reproduces light and color in a way that can be nearly photorealistic, so clearly we as a civilization understand the principles of light and color, right? Well, "we" absolutely do have a working knowledge and faith in our measurements, but how clear is our foundational understanding? What process is at the very heart of our perception of color? Still to this day, theories and debates regarding the base nature of light and color abound. It is a tale as old as time. Color theories existed in all cultures as it is a prime metaphysical and scientific question at the heart of the human experience. Many luminaries have provided inspiring explanations that would guide all thoughts on the subject to follow. Isaac Newton had his, Goethe had his, Walter Russell had his... the list goes on. Who was right? Has anyone provided a physically consistent, logically sound, scientifically correspondent answer to the question “what is light?” “What is the base cause of its colors?” In approaching this question, I will look for validation on several different levels. First off, how does light behave with a prism and through all manner of optics? What are the measured values of the various colors within the electromagnetic spectrum? How does color and the process of refraction correspond to harmonic ratio and music theory? How does light and refraction correspond to the principles of magnetism and the energy fields?

Lights Optical Behavior with the Prism: Prism a piece of polished transparent glass with an angle between at least two surfaces. Refraction the fact or phenomenon of light, radio waves, etc., being deflected in passing obliquely through the interface between one medium and another, or through a medium of varying density. Spectrum an array of entities, as light waves or particles, ordered in accordance with the magnitudes of a common physical property, as wavelength or mass: often the band of colors http://www.artofclaytaylor.com/singlepost/2016/08/22/TheMagneticSpectrumofInertialPolarization

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produced when sunlight is passed through a prism, comprising red, orange, yellow, green, blue, indigo, and violet. Emission the production and discharge of something, especially gas or radiation. Absorption the removal of energy from a beam by the medium through which the beam propagates. It was the refraction of light through a prism which first led Newton to realize white light was seemingly composed of 7 discernible colors. Much has been written about this so I will spare the full details of his theories regarding this process. Newton contributed much, but missed out on identifying many operational characteristics (he more or less figured light was a linear process.) Over 100 years later, Goethe remedied some of Newton’s oversights with the simple observation that color behaved differently when refracted light was being emitted as opposed to when refracted light was being absorbed. This is what is typically described as additive and subtractive color. Newton's Model White light fans out in a linear fashion due to increasing refraction angle as wavelength decreases.

Goethe's Model Goethe observed distinguishable ray bands and their interplay with light and darkness and the results of their blending with one another.

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The Newtonian and Goetheian models seem as if to be incompatible and at odds with one another (Goethe actually vehemently decried Newton's explanation throughout his life) but in my view both understandings have important and relevant interpretations and ingenious observations and observations regarding the nature of electromagnetic refraction. Neither however is totally accurate. Both are leaving out key factors, understandings and measurable observations. Here of course is where I should provide you with some resources to study Newton and Goethe further. Ok, here you are: www.google.com ;) So what is really happening?

Additive Color: When you shine emitted white light through a prism of optical glass, the electromagnetic radiation we perceive as light deflects from its original incoming angle. This is the result of the electromagnetic wavelengths passing through a medium more dense than the air and striking at least two different angles on its way in and out. This process is known as refraction. Visible light is a range of electromagnetic wavelengths rather than any single one wavelength and the process of refraction is more extreme for smaller wavelengths than the longer wavelengths. This results in the disassociation and fanning out of what we perceive as the white light into the wavelengths that compose it, which we perceive as separate individual colors. In the process of white light being emitted through a prism, 3 primary wavelengths of color result. These are red, green and blue. When all three of these primary color rays are blended into the same space we perceive white light. When two of these primaries are blended into different combinations, they form the secondary colors of yellow, magenta and cyan. (Note, magenta is not typically visible from a prism because the blue and red rays are not able to mix due to the green ray naturally presiding between them. Magenta is however capable of being generated by manually mixing the corresponding wavelengths, as can be demonstrated by a television set, or a special prism arrangement.) The process of color mixture blends further in different ratios from there into the total spectrum of all possible configurations of color.


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(Above is an actual image of white light refracting through a prism. Notice how the color green is not visible in the spectrum until the white light ceases. This is due to the red and blue ray bands which are refracting in opposite directions from the same original surface having finally separated from the central green ray. Up until this point, all 3 primary colors are blending, resulting in white light. Image credit: http://fineartamerica.com/featured/whitelightsplit intocoloursbyaprismpasieka.html )


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(At distances far enough away from the refracting source, or through a special prism arrangement, only the 3 primary colors will be visible once the rays are no longer in close enough proximity to blend with one another, resulting in secondary colors no longer being visible. This Xcube prism of mine separates the 3 primary rays at 90 degrees from one another. Green is always parallel to the incoming white light. Watch video here: https://youtu.be/BOmQUyrtKN0 ) Subtractive Color: When you stare at a shadow surrounded by light while looking through a prism however, the color relationship is exactly reversed. Here the primary colors appear to be Yellow, Magenta and Cyan which seemingly combine to form secondary subtractive colors of Red, green and Blue the color mixture goes on from there. This is subtractive color. What is happening in subtractive color is the subtraction from white light. For instance, cyan is the subtraction of red from white. Yellow is the subtraction of blue from white and magenta is the subtraction of green from white. The secondary colors in the subtractive color process are thus the subtraction/ absorption/ negation of 2 primary colors from white. Red would be the subtraction of green and blue. Blue would result from the subtraction of red and green. Green would result from the subtraction of blue and red from white.

(An example of subtractive/ absorbed light in my photograph of a setting sun as seen through a prism. Note the tree which is a shadow absorbing the light of the setting sun which surrounds it. The shadow of absorption also refracts into three primary directions resulting in the cyan, yellow and magenta bands of color.)

Another example of subtractive/ absorbed light is the result of the process you are perceiving when you look at a colored object. A red ball for instance appears red because the blue and green color wavelengths are being absorbed by the magnetic geometry of the atomic structure composing the object while the red wavelengths are free to reflect. The relationship between these two sets of 3 primary colors is well understood in this day and age. All emitted colors and saturations possible exist as different ratios of blends between the 3 primary colors of emission (look closely at your screen you are reading this on and you will see its image is composed of nothing but red, green and http://www.artofclaytaylor.com/singlepost/2016/08/22/TheMagneticSpectrumofInertialPolarization

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blue lights.) All absorbed colors (colors that reflect off of surfaces we then perceive to have color, such as a red apple) exist as different ratios and blends of the subtractive primaries, which are a result of the negation of a primary color from white. While we differentiate the two as separate processes, additive and subtractive color is truly one and the same. Ultimately you perceive the colors that are present for your perception, and that depends entirely upon which combinations of primary colors are available to resonate with your eyes.

(This chart is a final overview of color logic. Black is the absence of all 3 primaries, white is the presence of all 3 primaries. With the black background (absence of RGB,) the presence of any one emitted primary will result in that primary alone. So red upon black is simply red. Red plus green is thus yellow. This is additive color. From a white background (presence of RGB,) the primaries are subtracted (absorbed) towards the black shadow. Notice in the top right of the chart, blue = (white (RGB) minus red,) minus (white (RGB) minus green.) Thus subtracting green and red from white (RGB) leaves you with blue. This is subtractive color. Ultimately the color you perceive exists solely upon the ratios of the primary colors which are present. This is color logic, but not an answer to what color or light is in truth. Next we must ask what these primary colors truly are in terms http://www.artofclaytaylor.com/singlepost/2016/08/22/TheMagneticSpectrumofInertialPolarization

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of energy fields.)

Many special prisms went into this ongoing research project of mine. Here a prism displays the correspondence of the middle colors of additive and subtractive light. Green being the negation of red and blue retaining green, magenta being the negation of green, retaining red and blue. When these two rays are combined, we have red, green and blue present and white light is retained. Here are some video demonstrations of this prism of mine: Magenta and green combinations https://youtu.be/cPSGac5Qhpk RGB https://youtu.be/BOmQUyrtKN0 The key observations here to note is that the light is being refracted into 3 primary rays in each instance. The 3 primary colors we perceive as red, green and blue are the base components of all color possibilities, whether additive or subtractive. Another key observation is that the center color for emitted light is green and the center color of absorbed light is magenta (the negation of middle green.) The big question for all should be WHY 3? Also, what are these 3 core components of light (and thus electromagnetic radiation) really? What is it exactly that these 3 primary colors represent, which controls and manages all forms of energy?

Why are there 3 Primary Colors/ Angles of Refraction in electromagnetic radiation? Well... that question has been one for the mystics since time immemorial ;) Every person must answer this for themselves ultimately. I will say that entire religions have been anthropomorphized upon this subject matter in an attempt to answer this for you, since time immemorial, over and over again! http://www.artofclaytaylor.com/singlepost/2016/08/22/TheMagneticSpectrumofInertialPolarization

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There are some important key characteristics and observations I will discuss from here though, all of which center upon the most important work of Jon DePew regarding magnetism. >>www.coralcastlecode.com<<

Image credit Jon DePew www.coralcastlecode.com Jon DePew's work (as well as others such as Edward Leedskalnin before him) proved through physical experiments and geometric reasoning, that magnetism and all its possible energy field arrangements (which are ultimately functions of magnetism) are composed of 3 irreducible base components. Jon often describes these as the "two opposing magnetic currents and the neutral particles of matter." Ultimately, he is talking about the base triangulation/ polarization of dimension into positive, negative and neutral. This simple premise quickly evolves into the deepest thread of interconnected logic concerning the codefinitive relationship between particles of matter and the energy fields, which is far beyond the scope of this writing, much less my authority or ability to effectively cover it, but I will attempt to summarize some key points that relate most specifically to this article's exploration of color and light so that we may move on from here with necessary context. This may be the most complex section of this article for those unfamiliar with electromagnetic theory, but this can be understood by everybody with some familiarization, do not be discouraged. What is important to understand is that light itself as "electromagnetism" IS magnetism. The ELECTRO in electromagnetism as I understand it, is essentially simply referring to the fact that the magnetic field is alternating/ rotating/ orbiting at a relative frequency and can induce relative motion among its own continuum. (Do not think of a magnetic field as something that ever ends. Every atom/ particle of matter is sustained and connected via magnetic field to every other in the universe as an alternating and neutralizing continuum.) The prime mover of magnetic field alternation and polar interchange is not electricity as an independent force, but the requirement of the dynamic universal magnetic field to redistribute relative inertia (induce motion) and polar orientation in order to maintain magnetic equilibrium. There is a relative magnetic pressure (electromotive force, aka voltage) in what we consider a "positive electrically charged" object and its field and a "negatively charged" object and its field, with potential to induce motion and redistribute polarity through resistance, relative to the base inertia of the static dominant magnetic field (that of the Earth and solar system for instance) as a function of pressure mediation in circuit. This is true for gravity and all other characterizations of force. There are no separate forces, they are all behaviors of the same base magnetic system that is required of dimension for the same purposes the golden http://www.artofclaytaylor.com/singlepost/2016/08/22/TheMagneticSpectrumofInertialPolarization

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ratio of Phi is required of dimension (Phi is the ratio of 1 to itself) and at least a triangulation of vectors is necessary to define a point in space and time or give a sphere its dimension. It is no coincidence that electromagnetic waves are traditionally represented with a triangulation of dimensional qualities signified by the 3 primary colors. In the standard diagrams of electromagnetic waves, 2 linear waves are oriented to each other at 90 degrees along an axis and a spiral may be traced to unify their alternating vectors through time. Ultimately this triple relationship may be represented at any point in time by a right angled triangle (which should bring to light a most compelling function of the Pythagorean Theorem.) The opposite and adjacent vectors at 90 degrees are traditionally distinguished as the electric and magnetic waves, to which we must say the hypotenuse would signify the path of no resistance between the 2 as angular momentum. We must disagree however that the right angled phase relationship should be distinguished as electricity and magnetism separately. Truly this is simply a manifestation of dimensionally requisite polarity. Is the input force upon a gyroscope electricity to the magnetism of the output force at 90 degrees, or is this simply another manifestation of dimensionally requisite polarity distribution? In what position are you most stable in regards to gravity, at right angles such as standing perpendicular or lying parallel to the ground, or at any other angle in between these? (Good luck trying to remain standing at anything other than multiples of 90 degrees.) Altogether, these 3 base factors of every possible wave are the base necessities of all dimensional logic, for endless reasons. Note these 3 axes are in every north and south pole of a magnet, they are just diametrically opposed.

The white light which we find to have 3 core indivisible components in its primary colors of red, green and blue, is an effect of perception of the very same truth of a magnetic field/ magnetic http://www.artofclaytaylor.com/singlepost/2016/08/22/TheMagneticSpectrumofInertialPolarization

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wave being composed of a triangulation of positive, negative and neutral axes of relative dimensional orientation and pressure. Not only this, it is a result of the process of magnetic induction and magnetic resonance, whose value is ultimately Phi (the "Golden Ratio.") This is a key discovery of Jon DePew. The whole universal magnetic continuum is reducible to a dimensional triangulation, neutralizing/ balancing at the Phi ratio, always. We will find this truth on display in the measurement of light! So as an overview of the key takeaways of our brief foray into magnetism: There are 3 magnetic axes at the heart of every field of energy and particle of matter, or given segment of dimension. These correspond to the following, and much more: Positive, neutral and negative in the broadest sense. Micro scale, you, macro scale. X,Y,Z axes the 3 dimensions. Positive curvature, no curvature, negative curvature. ( http://abyss.uoregon.edu/~js/images/universe_geometry.gif ) Right angles and their hypotenuse. ( https://en.wikipedia.org/wiki/Pythagorean_theorem ) ( http://www.sricfca.org/paper1.htm ) North and south pole magnetic currents and their neutral partitions. The opposing ends of a sphere and their neutral partitions such as the equator, rotational axis, processional axis and the boundary condition at the hemisphere of sight. Right handed chirality, neutral chirality (no curvature) and left handed chirality. ( https://en.wikipedia.org/wiki/Chirality_(electromagnetism) ) Counter clockwise, static, clockwise rotation/ spin. Rotational axis, input axis and output axis of a gyroscope. Positive, negative and neutral coriolis forces. ( https://en.wikipedia.org/wiki/Coriolis_force ) Increasing cold/ decreasing heat, average temperature, increasing heat/ decreasing cold. The Doppler Effect. Incoming compressing energy, moment of fundamental tone, outgoing expanding energy. ( https://en.wikipedia.org/wiki/Doppler_effect ) 3 Phase alternating current. ( https://en.wikipedia.org/wiki/Threephase_electric_power ) As colors, these magnetic axes literally correspond to Red, Green and Blue. The inherent value of magnetic induction between these 3 things in all cases is Phi. Additional resources: http://magneticuniverse.com/discussion/98/edleedskalninmagneticcurrentillustratedpdfversion www.coralcastlecode.com http://www.artofclaytaylor.com/sciencediagrams http://www.artofclaytaylor.com/magneticfieldstudies


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My image of white light being refracted radially into the primary colors. Magnetic Polarization of the "Fundamental Tone" Polarization: (Optics) a state, or the production of a state, in which rays of light or similar radiation exhibit different properties in different directions. Compare circular polarization, elliptical polarization, plane polarization. (Electricity) a vector quantity indicating the electric dipole moment per unit of volume of a dielectric the induction of polarity in a ferromagnetic substance. the production or acquisition of polarity. (In most of my references to polarization, I will simply be referencing this definition.) Tonic: (Music) the first degree of the scale; the keynote; the fundamental tone.

Here is a diagram detailing an actual experiment of mine which proves the magnetic triangulation at the heart of color logic. A magnet is held to a cathode ray tube that is set to project a chromatic scale of colors. Each color projected was found to be polarized at a constant ratio by the magnet, unveiling both the otherwise invisible geometry of a magnetic field, as well as its consistent polarizing effect upon fundamental wavelength and frequency (aka, the color that was being projected onto a screen.) http://www.artofclaytaylor.com/singlepost/2016/08/22/TheMagneticSpectrumofInertialPolarization

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We find that the magnetic field literally equilaterally triangulates the projected colors. If either red, green or blue is projected, the other two primaries will appear when the magnet polarizes the screen. If one of the secondary colors, yellow, cyan or magenta are projected, the other 2 secondaries will appear when the screen is polarized, and so forth.

Above is a graph with the colors accurately distributed in a linear logic. Red, green and blue are equal thirds apart. A 3 phase sine wave upon this graph effectively describes the ratios of color mixing within the spectrum. From here, the graph may be projected full circle into a color wheel. The 3 phase sine wave now appears as three circles. One could literally draw an equilateral triangle onto this color wheel and have an understanding of the base function of magnetic triangulation manifesting as polarity.


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This method is equally effective at mapping musical logic as it is at mapping color logic. The circle may represent the octave, or more precisely, the escape from and return to the fundamental through all its ratios of disassociation away from the fundamental. If red at the top of the circle were a tonic/ fundamental note, like middle C, you could strike every possible other note that exists by placing yourself elsewhere along the circle/ spectrum, to return to the fundamental again at red, at the point of its octave. But the octave and the fundamental, while carrying the same tonal quality do not carry the same size and scale, it is either doubled or halved at this point. So what is being effectively represented by this linear graph is actually a process of diminishing or expanding scale. So what happens when you divide this circle/ whole/ octave by 3, as a magnet does? In the linear respect, you get 33.333..% and 66.666% and 100% (1/3, 2/3 and 1.) In actuality, you get PHI.


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If one were to divide this color wheel into 12 equal segments as a chromatic scale does (think piano keys or guitar frets) the equilateral triangulation would correspond to the tonic, the major 3rd and the minor 6th intervals. The minor 6th is the ratio 8/5 which is literally the first approximation of the golden ratio with whole numbers. The minor 6th and major 3rd are both approximations of the golden ratio of phi from the fundamental if you consider both ascending and descending directions of movement within the scale. If one were traveling left from middle C on a keyboard, the Ab would be two whole steps (4 half steps) away. If you were traveling right on the keyboard, it would be 4 whole steps (8 half steps) away. And alternatively, if you were traveling right on a keyboard form middle C, E would be 2 whole steps away, as opposed to 4 whole steps away if traveling left. This equilateral triangulation of the octave contains the inherent value of PHI, the ratio of 1 to itself! In knowing how geometry behaves, I divided this triangulated circle into the most basic semicircle based waveform and found the ratios between the triangulated points to literally be Phi. Geometry is happy to teach us of the one great miracle ;) Another core component of music theory is the correspondence between intervallic ratios (like the relative length of strings producing notes at different ratios) and beat ratios. A drummer drumming to a 3:2 beat while another plays a 1:1 beat is essentially matching the vibrational patterns of a pianist playing a tonic and perfect fifth note. As a matter of fact, if one were to increase the speed of the drum beat to the same frequency as the piano notes being played, the 1:1 and 2:3 notes would play the same chord tones as the piano! Rhythm becomes pitch, different pitches have rhythm, they are one in the same. Here is an example if this principle https://www.youtube.com/watch? v=P3hdTbtLra4 Of course, light and color operate on the same harmonic/ mathematical principles as sound. While sound is operating in the hundreds of vibrations per second, visible light and color is operating in the hundreds of trillions of vibrations a second. The ratio correspondences of perceived color are like the beats as pitches in the example above. Red, green and blue colors are the perceived effect of the extremely fine texture of these ratios of electromagnetic waves. The secondary colors and onward that result by the blending of any of these primary colors at different ratios correspond to the textural patterns of different notes being played at once and forced to be processed by your eyes and brain together. All perceptions are ultimately different textures of magnetic interactions.

Here we have an example of the simplest ratio reductions to fit into space, using a plane of triangles, as well as their color correspondences. A ratio of 8:5 for instance would mean two different triangles that would fill the same space at a ratio of 8 to 5. 8 smaller triangles would fit into 5 larger triangles. With the octave ratio involved (halving or doubling) these ratios can be reduced to display http://www.artofclaytaylor.com/singlepost/2016/08/22/TheMagneticSpectrumofInertialPolarization

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even more mathematical symmetry. Ultimately, you can see how these ratios produce different patterns and textures. This is very similar to what is happening at the very fine scales of light when you percieve color. Measuring Light Lets apply some measurement and see if we may find more validation within the published and standardized measurements of color. Light is a range of electromagnetic radiation (a magnetic wave) that is resonant with our eyes and our visual processing functions of our brains. As with any wave, light is measured by the inverse relationship of wavelength and frequency. The shorter the wavelength is, the more frequent its alternations will be within a second of time. The longer a wavelength is, the less frequent its alternations will be. In the case of visible light, the magnetic waves will alternate between approximately 425,000,000,000,000 and 768,000,000,000,000 times a second. We use Terrahertz (1 THz= 1 trillion vibrations a second) for ease of discussion. What this range of alternations per second (time) corresponds to as far as meters (space) goes, is .000,000,390 and .000,000,705 of a meter. We use Nanometers (1 nm= 1 billionth of a meter) for ease of use. I collected all the published color wavelength values from every reputable source, established study and equated simulation I could find and averaged them out for every color. This left me with the best overall global consensus as to what the central wavelength value is for each color. In analyzing the values, the first two things I realized was that center green was right in the center of the visible light range, as predicted. When plotted on a linear graph, center green partitioned center blue and center red by a ratio of 1 to 1.618... the golden ratio of Phi once again!

I then analyzed the wavelengths between the secondary colors of magenta, cyan and yellow. These also were separated by a ratio of phi, just in an inverse direction as the primaries of R,G,B! Moving further through the branches of colors and several other color groupings, I continued to find phi values in the NM scales between them. This is measured validation that Phi is the inherent value of induction and polarization, emission and absorption of the 3 dimensional axes of magnetic fields, first proposed by Jon Depew.


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This is a chart of my color center averages and a list of some of the phi relationships I found within the spectrum. Energy Refraction as the Doppler Effect Let us move now toward the Doppler Effect. This is best explained by the sensation of a fire truck passing you by while ringing its siren. As the truck is approaching you from a distance, the sound wavelengths being emitting are compressed by the relative velocity of the vehicle towards you, resulting in a higher pitch. Then as the truck passes you by, its sound waves are being expanded as the truck suddenly has a velocity escaping you. This results in the pitch of the tone expanding and getting deeper. So at what point do you hear the true fundamental tone of the siren? The tone which the driver of the fire truck himself hears? The answer is when the fire truck is directly even with, and neither has velocity towards nor away from you the perceiver. Consider astronomy. Astronomers use a function of the Doppler Effect to determine the relative velocity of stars and celestial objects. Objects moving away from us exhibit what is called "redshift," which is the phenomena of the light of the object increasing in wavelength and shifting towards the red end of the spectrum. Conversely, "blueshift" is what is exhibited when objects are moving towards us and the wavelength of their light is compressed and shifted towards the blue end of the spectrum. So where is the "greenshift?" There is no phenomena of greenshift. An object travelling in unison, or at rest with a perceiver is not shifted at all, it remains fundamental. While we are on the subject of stars, another physical behavior to consider is "blackbody radiation." There are no green stars as perceived by our eyes. The heat map moves from red, orange, yellow, to white and then on to blue in ascending temperature. Read more about this here: ( https://en.wikipedia.org/wiki/Green_star_(astronomy) ) and here: ( https://en.wikipedia.org/wiki/Blackbody_radiation ) http://www.artofclaytaylor.com/singlepost/2016/08/22/TheMagneticSpectrumofInertialPolarization

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Note while there are no green stars to be perceived, you can directly witness the magnetic alternation of large enough stars when they are low enough on the horizon, where the atmosphere is able to refract their light enough to separate their 3 rays as a prism does. This will appear as rotating red, green and blue colors around the circumference of the star. My favorite thing to witness on a clear night sky! Looking at the behavior of refracted light, we see a phenomena with much in common to the Doppler effect. We see a literal redshift and a literal blueshift of the refraction angle. The middle green ray would be a balanced angle of refraction between the two. I like to call it the fundamental angle of refraction. Like the hypothetical "green shift," this balanced/ fundamental angle of refraction implies it is in some way static/ in unison/ neutral with some principle value of the visible light. As demonstrated above, there is a phi ratio relationship existing between the wavelengths of the primary colors which is retained through the following orders of color logic beyond the primaries. The fact that the three primary colors are the fundamental result of electromagnetic refraction implies that these angles of refraction (and their resulting effect upon wavelength) are stabilized at the golden ratio. Again, this holds true for both emission and absorption. This of course should be obvious to us when we are reminded that 3 magnetic axes are the irreducible base components of any possible energy field or particle of matter. When electromagnetic waves refract, it is these 3 magnetic axes which are being deflected at different angles hence the fanning out of three primary color rays from white light. The fact that Phi results as the output ratio of this refraction upon wavelength demonstrates that these 3 magnetic axes exist at this inherent ratio in relation to one another, as Jon Depew has long claimed. If we continue with the theme of "greenshift" as that which is at rest, or inertial, we could then consider the refraction of light to be in essence inertial refraction (or the refraction of neutrality,) whose fundamental stability is the golden ratio of Phi. Another insight into this phenomena comes from Richard Merrick. In his book "Interference Theory," Merrick discusses Phi as the most effective dampening ratio. Dampening is the effect upon or within an oscillatory system to reduce or prevent its oscillations. Dampening has the effect of bringing a vibration towards or to stillness. In light, dampening is often associated with absorption. I think of the 3 rays resulting from refraction as a triangulated stabilization through phi dampening of equal and opposite magnetic pressures. I highly recommend Richard Merrick's work http://www.interferencetheory.com/index.html I next sought out to find viable correspondences of the measured value of green light.


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Universal Neutralization at the Golden Ratio At the heart of all electromagnetic waves exist one of the universe's most illuminating equations (see what I did right there?) This is the equation that states the velocity of the speed of light equals the frequency multiplied by the wavelength of electromagnetic waves. This defines the inverse http://www.artofclaytaylor.com/singlepost/2016/08/22/TheMagneticSpectrumofInertialPolarization

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relationship of frequency and wavelength (as one goes up, the other goes down and vice versa) as tied to the speed of light. We traditionally measure the speed of light in meters per second (299,792,458 space time,) the frequency of light in hertz (vibrations per second time) and wavelength in meters (space.) Typically, when one is referencing any given frequency or wavelength, we will be dealing with 2 different numbers due to their inverse relationship. Let us take our nm value for red for instance. Center red has a wavelength of approximately 679 nanometers. This wavelength would equate to the frequency of 441 terahertz. Blue on the other hand, with a frequency of approximately 466 nm would correspond to a frequency of 643 thz. See how red and blue seemed to teetertotter in scale there? At green however, we find the electromagnetic equation perfectly balances the wavelength and frequency units at 547.533 Nm/THz. It is more than a curious coincidence that the center value of visible light has this unifying effect to our units of measurement at the scale of light and its velocity of causality. Note this value of green light is not the square root of the speed of light, it is rather the ratio of a +trillion (hz time in seconds) to a billion (space in meters) in our units of measurement for time and space. The same number does result as the square root of the (speed of light divided by 1000.) Aka, 547.53307 = square root of 299,792.458 (This would be the square root of the speed of light in kilometers.) This exposes a brilliant underlying mathematical harmony inherent to our units of measure and a symmetry of scale wielded by our decimal number system that effectively computes the universal mechanics of dimension and causality, manifested in the velocity of light. Our units of measure and our number system are the astounding gifts passed down by the collective genius of entire civilizations that preceded us. Their purpose was to be as harmonious as possible with one another and the measure of the Earth and the cycles of timing within our solar system. To many of these civilizations, their units of measure and number system were nothing less than their grand unifying equations and philosophical answer to the great question. Right at about this very same figure is another key component of light perception, the human eye! The human eye is composed of rod and cone cells. We have 3 types of cone cells that are responsible for our color perception. These three cones of course are tuned to detect... you guessed it, red, green and blue light only. The peak sensitivity of the human eye has been established to be an average of about 555 nm. This is extremely close to the balancing figure above, especially when considering the breadth of the electromagnetic spectrum which we are capable of interacting with. Read more here https://www.ecse.rpi.edu/~schubert/LightEmittingDiodesdotorg/Sample Chapter.pdf Next up we have the sun, giver of light and life for all of Earth and central fulcrum of our entire solar system. The sun radiates a massive range of electromagnetism, from radio, through visible light, through Xrays. The peak output of the sun overall is the visible light spectrum there are no coincidences here. The peak wavelength of the sun specifically is just over 500 nm. Read more here: ( http://www.windows2universe.org/sun/spectrum/multispectral_sun_overview.html) Wien's Displacement Law gives our suns peak wavelength as just over 500nm: ( https://en.wikipedia.org/wiki/Wien%27s_displacement_law ) So out of the massive range of frequencies emitted by the sun, green light is once again the central figure. Once again, this is very close to our balancing figure for green, as well as the peak sensitivity of the human eye. It seems our eyes and our sun are tuned to some principle at work in the speed of light... and perhaps the scale of our universe? The electromagnetic spectrum goes on for a theoretical infinity in wavelength scale beyond visible light in both directions. The same can be said of scales of space relative to the scale of a human http://www.artofclaytaylor.com/singlepost/2016/08/22/TheMagneticSpectrumofInertialPolarization

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being for instance. Consider the Doppler effect, the same could be said of relative speeds towards or away from the inertial stillness of a perceiver correct? What is the value that must be retained in these triple relationships? What geometric/ numerical/ mathematic constant must be at work to balance these opposing infinites of inverse pressures? Hint the answer has been told to you throughout your childhood. Goldilocks didn't like the porridge that was too hot from papa bear, or the porridge that was too cold from mama bear. She liked the porridge that was just right from baby bear. Goldilocks is of course Phi, our golden ratio the ratio of 1 to itself, the great neutralizer of infinity and 1 throughout the resultant space and time. Above us is a macrocosm of lengthening wavelengths with lessening energies, below us is a microcosm of shortening wavelength, increasing energies, and here we are within our neutral environment, walking the middle path at our room temperature, working with masses and energies which will not overly exert force upon our inertia and therein destroy us. There is a requisite magnetic correspondence and perfect energy exchange between all of these scales. A force which, according to Obi Wan Kenobi "surrounds us and penetrates us and binds the galaxy together." The particle scales at the quantum level that compose our atomic matter correspond in synch with the visible "age of the universe" losslessly, in THE only way possible, so that energy need not be created, nor destroyed. Ahh, the Egyptians worshiped this as the "most perfect triangle" for it is truly the holy trinity; the irreducible ratio between unity and infinity from the inertial reference point of the here and now. The electromagnetic spectrum is the resonance of the magnetic system in all of its over/ undertones which binds all of these scales into a continuum. The speed of light is the speed of the neutralizing wave vibration of the magnetic string of inductive correspondence that is strung throughout the eternity of this continuum. What we perceive as visible light seems to be the scale of vibration that resonates with and effectively induces the fulcrums of our atomic magnetic structure in this scale and pressure of environment in which we are magnetically neutral.


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Here is a wonderful graphic of note from Scott Onstott. He depicts the phi ratio between human scale, the scale attributed to the visible universe at the macro scale, and the scale attributed to what scientists consider the "proton" at the micro scale. This goes hand in hand with the ratio between the NM values of the primary colors of visible light. I highly recommend Scott's absolutely fantastic work which can be found at his website, www.secretsinplainsight.com Below is a portion from my favorite diagram of the electromagnetic spectrum. Read more about it here http://physicsbuzz.physicscentral.com/2013/09/makingchartofelectromagnetic.html It shows the EM spectrum from 10 hz to the 2 power, to 10 hz to the 25th power. Green visible light fits right at the golden ratio in this diagram. I am not sure exactly how the author picked this range to display for the EM spectrum, or whether or not he purposely chose visible light to sit snugly at the golden ratio for a reason, but in principle, the fact that it does is philosophically sound ;) Also, perhaps there is another interpretation to be considered now in the famous "G" symbol of the Freemasons? 33rd Degree anyone? And you recall 666 being attributed as the number of man? 666 referring most likely to 66.6...%. Remember, as we have just learned, these percentages represent a triangulation of the 100% whole, which when applied to the Octave give us the value of phi when their scales are accounted for, and Phi truly is the number of life.


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I hope this article has assisted the clarity of your sight and your understanding and appreciation of this miraculous nature of ours and the eternal dance between darkness and light which composes you, in whichever colors you wish to express. Thank you for your time and attention. Be here now and act accordingly friends, Clay Taylor


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Light & Color Theory of the Magnetic Spectrum _ Art-Of-clay-taylor

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