Posts Tagged ‘waveforms’

Waves That Arrive May Pulsate

Waves that arrive may pulsate. Waveforms in excess of 284 cubic meters in volume may encapsulate interior particulates by a special means of adhesion. When an adhesive wave manifests an apparition exceeding 284 cubic meters, new measurements are required to determine the wave and adhesion ratio vis a vis its interior particulates. All particles, by nature, demonstrate the state of being particulates. In this dimension, certain matter can be measured using quantitative particulate measurement. In the 5th and 7th dimension, adhesion waves become the prima facie method of measuring special particles. One may keep in mind that exceeding 300 cubic meters would result in qualitative, rather than quantitative, conclusions.

Using careful particulate-based apparati, the list of interior constructs becomes evident when adhesion between special particles is calculated. The previously mentioned cubic meter reference becomes non sequitur when operating in a dimension higher than 10 (e.g. the 11th dimension, the 32nd dimension, etc.). There is no place for cubic meters in some of the higher dimensions, as planar references are often used in both quantitative and qualitative particulate measurements. Often, the curvature of space will envelope both the first and second cubic meter in both the highest, and second-to-highest dimension when qualitative particulate measurements demonstrate their states of being. Building of sample adhesive waves requires a carefully considered understanding of particulate formulas, not to mention waves and cubic dimensions.

A final thought regarding the movement of the aforementioned waveforms: when sampled in an indeterminate space plane (either inside or outside the universe), some textbooks on adhesion waves might indicate travel both to, and from, their centers causing random confusion amongst the particles. This is sometimes remedied by using more accurate measurements. Intertwining more than 284 cubic meters with exterior particulates adheres to non-informative analysis when dimensions “11″ to “32″ are observed.