The Universal Mechanics of Vision

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Scientific Paper
Title The Universal Mechanics of Vision
Author(s) Robert A Kerr
Keywords {{{keywords}}}
Published 2010
Journal None


Vision results from the reflection of light. Light energy is transmitted by impulse to stationary or slower moving mass particles. The energy transmitted reduces photon velocity and reflects slower visual images. Visual mass images impact the electrons of the millions of retinal photons. The photon energy output is transmitted to the brain which deciphers the reflected images. We see the reflected images traveling at subluminal velocity. The mechanics seems unbelievable, but consider the visions of a huge mountain image passing through the pupil of the eye that can be enlarged from a subluminal volume increment. The calculated particulate mass is 7.375x10-48 grams. The particulate density is 4.1245x1028 particles/cm3. The mass density is 6.83x10-15 grams per mole. This is Maxwell's so-called "vacua". This is about 10-14 the density of Hydrogen at Standard Day Conditions. Since energy transfer requires mass, wave energy transmission mus transpire in a particulate fluid medium.

The pressure of photon fluid at standard day conditions is temperature. No other behavior can account for photon fluid pressure and its capability to penetrate all other materials with the exception of an electron. The concentration of accumulated mass sequence is that electrons are composed of photons and protons are composed of electrons. Particles are spherical. They accumulate spherically until they are no longer penetrated by like particles which are then reflected. The sequence of particle mass is photon,electron and proton. Greater mass accumulation is the realm of chemistry.

The photon population is virtually infinite. The Hologram Paradox arises from the fact that there are enough photons to produce an image of any scale or in region of space so that enlarging any increment of of an image can be expanded to form the complete image. The resolution maximum is 37,000 by 37000 pixels per square centimeter. This is about 2.097x10^5 times the resolution of the infrared Hubble Telephone camera (NICMOS). This explanation is the only concept that account for subluminary behavior.