Light, when viewed as a particle, reacts in a determinable manner with reference to the gravitational potential existing within the reference frame viewed. The elementary quanta of light, expressed under the terms of Planck, and as derived via the expressions of Einstein as a particle, may not reach a speed exactly equating to the speed (electromagnetic) of light of c. Here c is viewed as an electromagnetic constancy in any gravitational frame of reference. The theory is that a relative particle of mass may not achieve the speed of light, for the energy of that particle would then equate to infinity or in that the force required allowing the relative particle to reach c would then be infinite. The theory is then totally reliant upon the tenants of what has become to be known as the Special Theory of Relativity. As per the General Theory, light would be “bent”, more or less, from one gravitational reference frame as compared to another gravitational reference frame. The theory then evolves that light, when viewed as a particle, forms a curvilinear light path through the gravitational reference frame viewed. However, until now, the light path has been solely described on a linear basis. It is the result of the theory that the light path may be described on a curvilinear basis, under the method of Lagrange. This method, or model, allows a particle of light (viewed as a projectile of mass under a constant velocity, therefore under a constant acceleration) to achieve Newton's description of the path of a projectile. Note that the following paper is applicable to a previous paper, which proposes a displacement of light within the gravitational field.
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1 October 2003
Conceptual Paper|
October 01 2003
The light path in three‐dimensional space
B. Paul Gibson
B. Paul Gibson
Davis and Elkins College, Parkersburg, West Virginia, USA
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Publisher: Emerald Publishing
Online ISSN: 1758-7883
Print ISSN: 0368-492X
© MCB UP Limited
2003
Kybernetes (2003) 32 (7-8): 1083–1098.
Citation
Paul Gibson B (2003), "The light path in three‐dimensional space". Kybernetes, Vol. 32 No. 7-8 pp. 1083–1098, doi: https://doi.org/10.1108/03684920310483199
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