Silly Wikipedia post (repost)

As an experiment, two of use posted the following junk on Wikipedia. It took all of about 15 minutes for it to get flagged as bogus which just goes to proove that Wikipedia is a peer reviewed system.

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The Effect of the Rorabaugh Field on the Assimilation of Complex Systems Information
Abstract
The Rorabaugh field is the connectivity plane that provides the fabric for information interchange between complex systems in the super-domain space. In practical implementations of hyper-connected complex systems, we find that the Rorabaugh field itself contributes significantly as a communication inhibitor between the systems that intersect the connectivity plane.

Background
The interchange of information between complex systems is essential to the growth of knowledge of both the individual systems and the group of systems or super-system. Governance of the super-system is achieved by application of a mentor or supervisor object or may be delegated to a secondary level directive object such as a member of the class typically known as instructors.
For the purposes of discussion we consider the super-system to be spatially constrained by a physical container and an initial and final temporal markers. This gives us constraining factors in four dimensions which is adequate for first-order analysis of the primary issues of communication.
During normal operation of the super-system, the Rorabaugh field has only second or third order effects on the communication pipes established by the complex system matrix. The Rorabaugh filed operates in Trojan mode, masquerading both as an interconnectivity field and as a system that intersect the field.
When the super-system has been constrained spatially for an extended period of time, the Rorabaugh field mutates slightly such that an increase in the noise level occurs on the pipes between the systems intersecting the plane of the field. This increase in noise level reduces the effective bandwidth of established communication pipes and inhibits the creation of new pipes by denying transport of the initiation sequence data structures or by intercepting the directory system lookups required to resolve destination target addresses.
Information Assimilation Effects
The increased noise caused by the intersection of super-system members with the Rorabaugh filed primary plane inhibits the transfer of information between the systems that comprise the super-system member set to an extent that over time, the field effect causes not only a reduction to zero of the information accumulation at targeted super-system nodes but also a change of state in a significant percentage of nodes which leads to the secondary effect know as inter-factional disruption.
During the onset of inter-factional disruption, the systems in the super-set combine by reducing the physical special factor thus creating local sites of clustered nodes. The clusters use close physical proximity to combat the reduced bandwidth of the primary pipes. Secondary communication is achieved by optical methods or through the use of encrypted electromagnetic spectrum modulation methods using the Andress normal vector cross product mechanism.
The local clusters form inter-system data exchange based on the normal vector and matrix dot product values that combine to achieve a defense mechanism which increases visibility of the Rorabaugh field’s node to the other members of the super-set.
Once the Trojan node has been identified, one or more clusters move along the time axis at a rate inversely proportional to the cube root of the distance between the geometric center of the cluster and the perihelion of the Rorabaugh Trojan node orbit with respect to the center of mass of the local clusters within the super set. The net effect of the time-axis move is to reduce the effect of the Rorabaugh field on communications restoring effective communications within the local clusters. As inter-system communication reliability increases with a cluster the bonding force between systems elements of the cluster weakens and the cluster members begin to gain spatial separation that increases linearly with the approach of the center of mass of the super-set to the upper temporal bound. Once spatial separation increases from the Trojan node, the establishment of pipes between non-cluster aligned nodes is enabled. This tends to further suppress the effect of the Rorabaugh field returning the system to its initial state.
Conclusions
Although the Rorabaugh field can significantly disrupt communications between complex systems that intersect the field plane, the normal defensive mechanism of the set members combine to nullify the field force and redder the field ineffective.