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UV Air & Water Disinfection Technologies and Licensors |
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M o l e c u C a r e ® DISEASE PREVENTION |
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the world leader in ultraviolet DISINFECTION research & application |
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The source therefore is by definition, at the center of a sphere measured at the point of detection and is located as the radius by the measured equal intensities, e.g. radial distance. It follows that the sphere increases IN DIAMETER AS A SPHERICAL OUTPUT, WHEN MEASURED further FROM THE SOURCE and of a value of equal intensity of the spherical distribution emanating from that source measured at the same radial distances. The nature of light occurring is clearly a spherical phenomena as the light energy ‘spreads’ from that source. Intensity value is less as measured at greater radial distant from the source, indicating a greater sphere dimension. Conversely the intensity increases as the radial distance is decreased distance {radius} from the source. Clear also is the ratio of the intensity as measured at the surface of the sphere of this value detected, as geometrically comparable to the original irradiation intensity at the source. The ratio of intensity at any distance from the source to that value at the source, is a square value; the spherical spread of that energy being detected as a spherical radius by definition. The ratio is of unity value with and of the energy spread from that point source as the surface of the sphere is established by a measured distal radius from the source. This ratio must be that of the radius of a sphere to its surface area, and is as we all know, a radius squared ratio, as the radius of a sphere surface area is to its diameter 4 Ψ r2, e.g., the radial distance change affecting intensity is a function of the square of that sphere radius – the distance from the source. The reason being that the light irradiation intensity spread over the spherical surface is a function of that radial distance and sphere size, or distance from the source. This property, often ignored in light intensity expectation, is defined as the Inverse Square Law in optical Physics. The ‘Kill-Dose' for any specific microbe varies from a small Dose to many times that Dose as this kill-value varies greatly and accounts for missed kill such as in the example of the parasites. These ‘Dose’ values are established for the intensity of the light reaching the microbe for a specific period of time (UV kill = Intensity X Time). MolecuCare technology invention establishes super-consistent ultraviolet irradiation power without Inverse Square affect, on a fixed capture microbe and for a fixed period of time measured in milliseconds, to enable required microbe kill in thousands of cubic feet of air per minute or tons of water for that period.
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