Due to how I view our universe, we have two forms of time, because we have two instances of motion/velocity. We have the individual absolute motions/velocities of the fundamental builders (particles) and we have their collective motion/velocity when they become dense enough (massive object) to collectively move through a less dense medium of fundamental builders, whereby the individual particles that form the massive object are still moving in random directions (frequency) within the space they occupy, but the whole collection (massive object) is moving uniformly in one direction. It is the essence of this duality of directions that allows for size (proximity of particle to particle) to be relative to collective linear motion/velocity.
In my opinion, there is universal time, which is absolute and is a measurement of the distance traveled at any given interval of the fundamental particles of matter in absolute motion/velocity, and then there is our mechanical measurement of time, which is seen by a pendulum (massive object) swinging. Mechanical time is a measurement taken by the uniform motion/velocity of a massive object, as seen by the pendulum, but being as the pendulum is made up of a collection of particles and their proximity to each other is relative to their collective motion/velocity, so too is their overall dimensions. Thus, if a change in collective motion/velocity also changes their overall dimensions, then mechanical time is therefore relative to collective motion/velocity, but universal time is absolute due to the absolute motion/velocity of the fundamental particles.
Thus, the entire motion/velocity of a closed universal system is finite and absolute, and gives rise to true time. It is merely the measurable dimensions of massive collections of particles that fluctuate as an effect of their collective linear motion/velocity.
P.S. Increments of time are measured as increments of motion, and the infinite potential comes from infinite absolute motion. Motion never ends, thus if we allow all fundamental matter to have equal velocities, their Planck distance traveled, relative to each other, from frame to frame, can be equivalent to a Planck measurement of time. Einstien's Relativity would come in when we accelerate a massive (more dense) formation of fundamental matter through a less dense medium of fundamental matter, whereby the internal frequency of the particles which made it up would increase/decrease relative to the change in velocity of the acceleration, due to absolute particle velocity. This would also increase/decrease its relative dimensions in accordance to the velocity of acceleration, being as size is relative to internal frequency.
Excerpt From A PM - 4-27-2008
Quote:
Originally Posted by analog
Our use of the term "absolute motion" is perhaps better understood as the perpetual or continuous motion of the fundamentals. Thus, simply by giving them an absolute velocity, you create a world with a built-in internal clock, which holds witness to every event, allowing for a theoretical rewind button. It gives time symmetry to the formation of our world. It allows for the current position of any object to be theoretically tracked back to any and all previous points of motion.
Relative time/motion comes into play as these fundamentals build more massive objects, whereby the object moves with a fraction of the absolute velocity available to it. The fundamental constituents are at absolute velocity, with random direction, within their own space, as they create frequency, but the massive object they form is moving linearly in one direction at a fraction of the available absolute velocity. The increasing ratio of linear forward velocity of the massive object to the absolute velocity of the fundamentals that form it causes for the retraction of the size of the object, due to decreasing the frequency of random directional motion. This gives rise to the relativity of mechanical time. As the acceleration of a massive object nears the speed of light, it is actually causing the fundamentals that form it to move more linearly as a whole, whereby the frequency at which they are traveling at other random directions is reduced, and the whole massive formation reaches closer to the available absolute velocity. Light speed is reached when fundamental particle frequency becomes zero (thus one degree of freedom) and all the fundamentals are continuously moving in the same linear direction, but there's more to the acceleration of a massive object, which I won't bore you with.
04-27-2008 11:17 PM 
