Monday, March 31, 2008

Rules, Part One, Section A

Elementary particles, as with all particles, decay over time. The time lines for particle decay are very long, some even in the thousands of years. However, there are artificial ways of making a particle decay. I'll assume that the standard circuit will be composed of decayed neutrons, which have an overall charge of zero. Therefore, the neutron become the power source and current flow is a measure of the different quarks that travel along the lines.

In constructing each circuit there must be a power source from which the potential is generated and to which it eventually returns, though this rule can be bent with the inclusion of a ground exit. The ground is assumed to have a constant charge to which all current will flow. Usually there are two types of ground: chassis and "earth", meaning the total charge is funneled into either the casing of an object or directly into the earth (dirt) itself. Using the quantum model, I have fashioned another type of ground, and perhaps two. One ground is what I call "cosmic", meaning that the net charge is bled into the background "cosmic" quark field, and another is "time", meaning that over time the net charge is assumed to be zero.

I also decided that time ground cannot operate without what I call a time power, meaning that time itself is factored into the circuit as a form of power, such that the circuit itself operates on incredibly long time cycles, as we normally see with decay of particles.

There is also a cosmic power source, which draws power from the cosmic field of quarks in the universe, but it cannot operate without a cosmic ground (the net charge of the universe is also assumed to be zero).

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