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Systems: Difference between revisions
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A system is a set of interactive or interdependent component parts forming a complex and intricate whole. Every system is delineated by the Law of Structure operating in the time and space environment in which it exists, and is the byproduct of the quality of consciousness that originally created it. A system is described by its original purpose and intention of creation, which is expressed in its overall functioning. As an example, if a system is created by the predator mind for the main purpose of self-interest, controlling others, gaining power or Service to Self motives all of the components functioning within that system, will continue to generate and reflect the same corrupt energy at its core. This means it is rotten at its core, it will continue to lose energy over time, and the system has to be restructured in order to stop the energetic drain upon the environment and human resources. | A system is a set of interactive or interdependent component parts forming a complex and intricate whole. Every system is delineated by the Law of Structure operating in the time and space environment in which it exists, and is the byproduct of the quality of consciousness that originally created it. A system is described by its original purpose and intention of creation, which is expressed in its overall functioning. As an example, if a system is created by the predator mind for the main purpose of self-interest, controlling others, gaining power or [[Service to Self]] motives all of the components functioning within that system, will continue to generate and reflect the same corrupt energy at its core. This means it is rotten at its core, it will continue to lose energy over time, and the system has to be restructured in order to stop the energetic drain upon the environment and human resources. | ||
[[Systems]] have many different layers and levels of components designed to work together, with all of these parts having functions that are interdependent. For these systems to function optimally, they must organize, or cohere in such way to interconnect and communicate as an integrated whole. This requires that the systems run on the energy levels required to meet the demands of each of its functioning parts. Each functioning part of a system has a behavior and interrelationship to other parts of that system. How well a part functions, will have an impact on another functioning part in that system. So clearly, if one part is not functioning well, it will impair other parts of that system from functioning well. If the energy of a part is not restored to improve its function, a breakdown of the system will occur. | [[Systems]] have many different layers and levels of components designed to work together, with all of these parts having functions that are interdependent. For these systems to function optimally, they must organize, or cohere in such way to interconnect and communicate as an integrated whole. This requires that the systems run on the energy levels required to meet the demands of each of its functioning parts. Each functioning part of a system has a behavior and interrelationship to other parts of that system. How well a part functions, will have an impact on another functioning part in that system. So clearly, if one part is not functioning well, it will impair other parts of that system from functioning well. If the energy of a part is not restored to improve its function, a breakdown of the system will occur. | ||
When a system is comprised of many different parts on which it relies to function overall, each smaller part will function in a specific behavior that operates like an input and output station. This can be understood as the communication level, that is interconnecting the functions between all of the parts. Communications made in systems require a transmission (output) and reception (input) of information in order to share intelligence or generate functions within the parts of the system. If the transmission is made without the ability to receive the information within the system, the functioning for that intelligence transmission is rendered useless. Essentially, this describes the state of the | When a system is comprised of many different parts on which it relies to function overall, each smaller part will function in a specific behavior that operates like an input and output station. This can be understood as the communication level, that is interconnecting the functions between all of the parts. Communications made in systems require a transmission (output) and reception (input) of information in order to share intelligence or generate functions within the parts of the system. If the transmission is made without the ability to receive the information within the system, the functioning for that intelligence transmission is rendered useless. Essentially, this describes the state of the [[Closed Source]] system on the earth grid, operating a one way messaging system. Until very recently, the planet was unable to receive two-way communication exchanges from outside the [[NAA]] control fences in our Solar System. All forms of balanced energy communications require two way exchanges, transmission and reception, input and output, in order to create the third aspect or result of that combined energetic process. In order for the functioning parts of an entire system to maintain their relationship together, and to accomplish healthy functioning, they will require the appropriate amount of energy.<ref>[http://www.energeticsynthesis.com/index.php/resource-tools/news-shift-timelines/2737-entropy-and-negentropy Entropy and Negentropy Feb 2016]]</ref> | ||
==Systems of Energy== | ==Systems of Energy== | ||