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Light - Waveform or Particle? Mankind alone amongst the beasts demonstrably examines and actively seeks to understand and quantify his existence. Until he examines the physical, spiritual and mental as an integrated whole, the Question will not be answered. Until viewed wholistically, any answers can make no sense because the Questions themselves are not understood. -- Craig Berry |
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Craig Berry - 2004, |
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Psi Field *
Preface *
Jealousy & possessiveness Shamanism Light Work Shadow Work Dark Work |
It is long demonstrated that light, like sound, demonstrates characteristics of waves travelling in an accommodating medium. Sound is easily demonstrated as needing a suitable tangible environment (quantity of matter) to support its component wave form. The more constant that medium, as a rule of thumb only and the less compressible, the faster the speed of sound. Example – Sound travels roughly four times faster in water than in air. Light is described in as an outpouring of photon particles from a source. Photons are described as having energy but not mass. The theoretical photon particle, once released from its source, travels across a void at a constant velocity. The speed of light is regarded as a relative constant (It is a contradictory description, but that is a close as we can come). As a particle without mass, it can not be subject to gravity. Gravity acts upon mass. A major argument [mainstream] science has against a wave form model of light concerns the lack of a proven, consistent and universal medium which is apparently capable of carrying waves of light. Photon particles will justify light’s ability to traverse the ‘void’ of space. Logic would suggest also that if light is a wave form, then the speed of light should vary as light passes into different media of conduction. It is proposed that it is in fact the Psi Field which is the media of conduction of light; it is both essentially omnipresent and quasi-independent of other media. It is proposed that the Psi field is the media carrying light waves, rather than light particles. Waves of energy are subject to speed change depending on media. Light has been slowed, even trapped in recent experiments as well as bent, diverted and reflected as well as split. If light is a resonant wave form in Psi, then by increasing or decreasing the frequency of the waveform, we should see an alteration to the nature and energy of the waveform. Witness the electromagnetic spectrum in all its glory! Cool Cosmos also has an extensive discussion of wavelength theory and nice practical exercises to learn more about the fascinating subject. The electromagnetic spectrum makes no differentiation of particle type or mass (or particle for that matter), just the resonant frequency. It is the frequency of the wave form that makes light act as light and x-rays act as x-rays. If Psi is in fact the medium for the electromagnetic spectrum, then we should see similar transmission rates for all phenomena of similar frequency within that medium. As a wave form within Psi, anything that can act upon the Psi must also logically act upon any effects traversing that Psi at the same time. Wave form also allows energy without mass (something hard to explain in particles). Rather than seeing particles bouncing off a surface (mirror), we observe reciprocal waves receding from a barrier surface like water borne waves from a pier wall. Wave form would also allow the bending or redirection of light in an optical fibre far more effectively than would photon particles traversing long and short axis corners. In wave form, the waves should maintain energy and cohesiveness directed through the "liquid" Psi field and contained within the boundaries of the optic fibre. In particle form, the more curves in the fibre, the less cohesiveness should remain due to the different path lengths traversed by the particles within the fibres boundaries. Particle light theory and quantum meet up very nicely, each proving the other with the Young's famous "double slit" experiment. Using a wave form theory, the rather famous double slit experiment which is often used to evidence quantum states can be explained in a simple experiment with wave form. The dappling which occurs can be modelled (as per figure 4 below) using wave form. This experiment in wave form can be duplicated easily with water and suitable barriers by the reader.
Figure 4
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