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Monday 29 June 2015

Namli

A namli is a generic term for a very small embropheme, usually of specialised and/or limited functionality. They tend to exist in comparatively large numbers (the plural of namli is also namli), and are found throughout the entire class of prelentic fenduments. As such, they are very much an integral part of our studies of the periclentious fendument.

Phlaba

Phlaba are namli that transport particular classes of daerthropes around the globinscular region. These are sometimes – but very rarely – referred to as daerphores. We will encounter generalised phlaba (sometimes abbreviated to gephs) and phlaba which are more prescriptive in their tasks. A umicrophene is an example of the latter class.

Generalised Phlaba

Within the periclentious fendument, generalised phlaba are produced by two types of neulones. Each phlabum may carry more than one type of daerthrope simultaneously.
Once a daerthrope has entered the globinscular region, borne by a generalised phlabum, it has an associated globinscular density.

Umicrophenes

(Unitising micro-phlaba; holdings enclosed non-evident)
These namli bring together specified daerthropic elements into a single type of daerthrope. They are comparatively small phlaba, and shield their payload from the globinscular region. As such, any daerthrope carried by a umicrophene does not have an associated globinscular density.

Within the periclentious fendument, umicrophenes are limited to the viscinity of the Khryban Cube and are essential for the continuity of Tridelic Exchanges. This will be discussed elsewhere in some detail.

Taebrites

Taebrites are produced by the Asceguum and are directed towards the canortic bodies. The canortic bodies use indexes on the taebrites to meniate them with the appropriate ethroceles, at which point they become indethrocelic taebrites that are directed to the other canortic body. In this manner, a canortic body becomes aware of the assorted properties of its counterpart. When the indexes are exhausted, the taebrites return to the Asceguum.

When they have a presence within the Khryban Cube, they affect the Obel Ristor Valve, preventing umicrophenes from leaving this node.

Gylons

These namli are only found within the gylonic body, so will be discussed in more detail as part of the Gylon Theory eliset.

It is sufficient to say that gylons are broken down within the gylonic body and form part of the autoglobic daerthrope gylon concentrate – a primary mover in the eliset of Corlex Theory.

Sunday 28 June 2015

Snedril Vasque Theorem

This theorem relates to a class of daerthropes within the periclentious fendument.

First, two definitions.
  • Vasque is used to relate to a restricted area within the fendument.
  • Snedril is an acronym - "sub-namli enabling daerthrope ranking in localised"
Sometimes "Snedril Vasque" is abbreviated further to SV.

Basic Theorem

Within a specified vasque, the presence of an ebaschulent embropheme ensures  that the quessivity property is enabled in all daerthropes within the same vasque.

N.B. The adjective ebaschulent itself is a partial acronym - "Enabling a  Base Activant Setting Creating a Hierarchy Under Limits".

Example
The volume bounded by the concave part of the plaurioa, containing the corlex region and egloberal strands, is an example of such a vasque to which the Snedril Vasque Theorem applies. Within this vasque, the pendiphlabatic neulones are ebaschulent.

Two daerthropes compete to react within the corlex squamata. These are
  • Gylon Concentrate
  • Chysanthrone Synthetase.
Chysanthrone Synthetase is superquessive to Gylon Concentrate, which means that chysanthrone synthesis occurs in preference to xebosynthesis.

Corollary to the Snedril Vasque Theorem (in relation to the corlex region)

If the ebaschulent embropheme is endocyclonous, egloberin will be restricted making its superquessivity to gylon concentrate an irrelevance.

This is the original wording of the corollary. Egloberin is another term for chysanthrone synthetase, reflecting the source of the daerthrope (i.e. the egloberal nodes). Whilst still accurate, the term is rarely used these days. as fendumentologists usually wish to stress the before/after relationship between the daerthropes involved in chysanthrone synthesis.

Endocyclon affects the permeability of the hystelcium layer to chysanthrone synthetase, so the latter is unable to enter the corlex squamata. Consequently, gylon concentrate may be processed without any quessivity issues. In other words, Xebofactor Precursor (XFP) can be formed, providing the trigger for xebosynthesis.