Waves, Energy, And Particles

A phenomenon is what it is when it is what it is. The wave-based evaluation of a particle as a wave is an extrapolation that works to describe certain characteristics of the particle as behaving as a wave. These are called De Broglie Waves. When one considers what would normally be thought of as a wave as a particle, again, this is an evaluation of a wave as behaving via a certain extrapolation of consideration as a particle. When one considers a certain quantum of energy as a wave, again, this is based on a certain context that is used to denote various given arbitrary characteristics of the said quantum of discrete energy as behaving in a certain specific situation as a wave. One step further, the conceptualization of the various substringular phenomena as waves -- when under specific given arbitrary conditions, is an evaluation that is used under a certain given arbitrary pretext -- in such a manner in so that a specific condition may help to be determined in an effort to better explain a specific observed characteristic that is needed under a given arbitrary determination. Yet, a phenomena in a given specific situation is what it is when undergoing a specific condition or set of conditions when that specific condition is pertainent at a given extrapoloatory scenario at a given framework of either timelessness (Laplacian-based conditions) or, at a given framework of time-oriented conditions (Fourier-based conditions). None the less, phenomena may, over certain various changes in conditions, often convert from a basically wave-like phenomenon into a basically particle and/or energy-like phenomenon. Such changes happen all of the time at one spot or another in the Continuum. Much of such interchanges and evaluations are determined in multi-consideration of a phenomenon's relationship to light and its motion. This is because all motion, mass, and length of physical phenomena bears characteristics that are based upon their relationship to light and the motion of light (E.M. more specifically. I will continue with the suspense later! Sincrerely, Sam Roach.