An Overview of Daerthropes (Part One)

This post is intended to provides high level documentation of information regarding daerthropes.

1. Daerthropes are a class of activants - something that causes a change within an embropheme.
   
2. Daerthropes have numerous properties which have a bearing on their functionality and their range of influence.
   
3.  One such property is the globic property, also known as the caenic property. There are three mutually exclusive globic properties as follows.
   
   (a) An autoglobic (autocaenic) daerthrope is capable of traversing the globinscular region unaided.
   (b) A phlabaglobic (phlabacaenic) daerthrope requires a phlaba to transport it about the globinscular region. A phlabum (also known as a daerphore) is a namli (small embropheme) that is dedicated to this task.
   (c) An aglobic (negacaenic) daerthrope is incapable of entering the globinscular region so must remain in the embropheme in which they are located.
   
4. Some daerthropes neeed to physically contact their destination embropheme(s) in order for the associated reaction to take place.
   
5. Some daerthropes only need to have a particular quota within the globinscular region for the target embrophemes to react to their presence. No physical contact need take place. These are sarpoidal daerthropes.
   
6. Globinscular Density is the proportion of a particular daerthrope within the globinscujlar region. The amount of a particular daerthrope as a fraction of all daerthropes within the region. This is symbolically shown as γ(x) where x is a unique symbol representing the daerthrope under consideration.
   
7. Quotal daerthropes is a term sometimes used for particular daerthrope that needs to fill a quota. Such daerthropes only register a presence in the globinscular region over a prescribed interval. These are usually ones which are issued by a particular embropheme, continuing until a fixed amount has been issued (prior to this, the globinscular density will be zero). The target embropheme(s) will then accept the quotal daerthrope until the globinscular density is again zero. This implies that the target embropheme(s) need a fixed quota of that daerthrope in order for a reaction to occur.
   
8. Some phlabaglobic daerthropes do not register a presence within the globinscular region. The common explanation is that the phlaba isolate the daerthrope the carry until they relese the activant into the target embropheme. The umicrophene is such a phlabum. This property of the phlabum differentiates it from the generalised phlaba (gephs) as issued by the neulones.
   
9. Some daerthropes are categorised by the daerthropic elements (dels) that define their structure. Once such example is the class of daerthropes known as tridelics. Three types of dels are combines in different ways to form different tridelic daerthropes. The elements comprising such daerthropes are given the designation h-type, r-type and y-type - the daerthrope being referred to by the numerical amount of each element. For example, T241 is a tridelic daerthrope with 2 h-types, 4 r-types and 1 y-type dels.
   
10. Tridelic daerthropes with less than 4 h-types, less than 4 r-types and less than 4 y-types need to be carried by umicrophenes. In other words, they are classed amongst the phlabaglobic daerthropes. If any del is ranked 4 or more, then the daerthrope is autoglobic. The interaction between a number of these tridelic daerthropes is almost an eliset by itself, so will not be detailed here.
    
11. Daerthropes can contain a number of Base Activant Settings. Some of these have been mentioned in previous Notes. In particular, please refer to the discussion of Enumerated Similarity States and their Index Values (ESSIV) - that is, the concepts of uniessivity, diessivity, triessivity, quessivity and quinessivity.