Explaining Light and Vision

Explaining Light and Vision Mechanics

By: Miles Pelton, Jan. 2014

            

            Photons are a component of the lines of force produced and emitted by protons that provide binding force for the assembly of atoms and molecules. When those bonds are fragmented the released photons radiate in all directions from that point until they impact pigmented matter and produce illumination. As currently explained the radiating photons are called light. When released from a fragmented bond, photons radiate from that point at a constant rate where the rate of expansion is explained by the equation that defines the volume of a sphere (V = 4/3 pi r^3), which has been measured as approximately 186,000 miles per second. While light can be reflected and focused into a beam, it is still radiating photons. As can be seen (literally), radiating light is not visible, which drives the conclusion that it is a component of the energy carried by each photon that produces illumination when that energy is released upon impact with pigmented matter. When radiating photons impact pigmented matter (atoms and molecules) the energy of which photons are made is deposited upon that matter where it not only produces illumination but heat and electro-magnetic radiation as well.

The accompanying photograph will provided help to illustrate that the mechanics involved with light radiation and vision are not the same. By current definition, light involves the radiation of photons of energy from a point in all directions as though to fill a sphere. By current definition vision involves the reception of radiating photons at a point, the eye or a camera.

            It is from this point that the current explanation of light and vision is challenged. Textbooks explains that illuminated objects reflect or emit light (photons) that travels to the eye or camera and produces an image of objects in the range of vision. There are a number of problems with that explanation. First: Radiation, even when focused into a beam, expands as the radius distance increases, which in the case of light transmission means the intensity (density) decreases exponentially to a point where it no longer has the power to produce illumination. Consider that the range of a flashlight to produce illumination is limited by distance while the glow of that flashlight can be seen for a considerably greater distance. Second: photons reflected off or emitted by an object cannot possibly carry an image of the object from which reflected or emitted. Furthermore, if photons could carry an image, the image they carry would, by the time the photons reach the eye or camera, have increased in size to the point any image carried would be a blur. Consider how large the image of an object, even the glow of a star, would be after having radiated millions of light years. Not only would any photon radiating that distance have insufficient power to produce illumination all detail would be lost on any image they carried. The image would be too large to fit in the field of vision. Third: Photons carry energy that if any substantial amount entered the eye or a camera it would cause serious damage.

            The demonstration shown by the accompanying photograph illustrates the mechanisms involved in light radiation and vision. In this photograph the candle is illuminated by sunlight and as expected casts a shadow, except for the flame. The flame is clearly visible but does not block the passage of photons and does not produce a shadow. Radiating photons (light) are blocked by pigmented matter but while clearly exhibiting color the flame does not block the passage of light. There is only one logical conclusion; the flame although seen to have color is not pigmented matter but rather a concentration of the illuminating energy carried by photons released in the course of combustion. The various frequencies (or wavelength) of energy, which relates to the intensity of the energy involved in producing a bond, causes the perception of a different color. Therefore, recognize that vision occurs because the energy that produces illumination is visible and thereby makes the object illuminated visible but, in concentration, illumination energy is itself seen as a glow.

             Further; the photograph shows that the wall beyond the flame cannot be seen through the flame, which demonstrates that photons of light reflected or emitted by the wall are not the mechanism involved in vision. As demonstrated by the sunlight passing unblocked through the candle flame, vision does not penetrate the flame. Clearly, vision involves a different mechanism than light transmission. A priori reasoning drives the conclusion that vision involves detection of the energy field of a form of the energy released by photons and that it is a form of energy other than produces heat and electro-magnetic radiation. (The author of Fundamental Physics recognizes three forms of energy are involved in making Elementary Particles, the particles of which all things are made, from which protons acquire the energy to encapsulate into photons).

            Through the application of a priori reasoning it is recognized there is a significant behavioral difference between energy encapsulated in the form of a photon (a particle) and energy that has been “freed” from containment as when deposited upon matter. The freed illuminating energy does not radiate but forms an energy field. The deposited illuminating energy interacts with the energy field of an object of matter upon which deposited that is unique in each instance and reflects that unique configuration as a signature. The uniqueness of an object of matter is reflected in the frequency or wavelength of the bonding energy that establishes the force that binds its components. Recall that each bonding energy frequency or wavelength, when reflected as illumination energy, is perceived as a unique color, which then makes the viewed object’s signature and thereby the viewed object, visible. Illumination energy, like the energy that powers gravity, is a fundamental singularity form of energy. That is; there is no physical presence, it exists everywhere simultaneously with no time expended in radiation, therefore instantaneous. However, because the intensity of a singularity energy field decreases with radius distance, the intensity of the image, for example the glow of a distant star, diminishes with distance. (This is the same phenomena associated with gravity).

            There are two significant ramifications exposed by this a priori reasoning of the behavior shown by the photographic demonstration of the mechanisms of light radiation and vision. First: the glow of a distant star or galaxy does not entail the transmission of photons by radiation therefore no time delay. Star light is the instantaneous perception of the glow produced by the concentration of illuminating energy released by the photons that are fragmented by the star or galaxy’s behavior. Therefore, it does not take millions of light years for the glow of a distant star or galaxy to reach earth rendering use of the speed of light to establish distance, flawed. Second: photons are made of at least three forms of fundamental energy that exist in a singularity state. One produces heat, one electro-magnetic radiation and one light. These three forms of energy supplied by the elementary particles of which protons are made, are encapsulated into a common photon particle by the behavior of protons and are the instrument in bonding elementary particles to form matter. By this analysis, the current theories relating to the method by which energy is delivered to make and sustain matter is flawed.