The Society for the Diffusion of Knowledge P.O. Box 964, Kaunakakai, HI 96748

    Within the random field, there are a number of theoretically possible structures, some permanent, some fleeting, some very small and others consisting of huge collections.  Among them are simple waves (l) moving through the field in all directions, some traversing vast distances in terms of light years, and others decaying almost immediately.  There are also arrays, configurations, dions and trions, inclusive too of ISSs and OSSs, all of which are classed under one category as field objects.
    At this fundamentally advanced level, where the student might recognize the interchangeability between elementary physics and geometry, a simple wave would have a spin equivalence of one.  Also, each simple wave would have the potential of acquiring one of six of the quantum chromodynamic colors, though at its onset, this would not be defined, since prior to the presence of any field objects, it would not have color, thus any simple wave following its typical microscopically zig-zagged* yet macroscopically rectilinear path through the field would be colorless.
     But in a field of many objects, many of which might have color, the simple wave may now be associated with one of these colors, providing its motion ends in an orbital motion whose color corresponds to the color of many field objects within the same finite region of the field.
    As I have mentioned, there are two types of simple waves relative to the field density: one type able to propagate indefinitely if its wave diameter is greater than 3h;*  the other decaying if its wave diameter is less than this.  The value 3h is dependent on the field density, where h is the reciprocal of the field density.*
    Just as a simple wave is nothing more than a logically discernible order of the field, so is a radial order.  A simple wave moving into a radial order:  the conjunction of both, is defined as a radial array.  An array most likely will persist longer than an order, which without the presence of a simple wave, would quickly disappear.
    Though all are both geometrically and functionally different, all three are defined as field objects because their texture, pattern or content are not at all the same as the field itself, despite being made up of the field exclusively.
    As these three principal objects evolve, radial arrays may become spiral arrays, which in turn may evolve into spiral configurations, sometimes becoming inside-shelled spiral configurations (ISSs) or outside-shelled spiral configurations (OSSs).
    Along with these possibilities are a potential seventy-five combinations of dions and two mutually exclusive families of ninety trions each.
    All of these mentioned are defined as field objects.
    For more about field objects, particularly their rules of interaction, go here.