"All motions,
from the tremendous strides of light to the slow pace of a snail,
occur in waves, each wave consisting of an instantaneous step (of
absolute 0 time) and an interval of immobility which alone accounts
for the time element in the velocity of motion."
- Wilfrid
Boisvert
Motion is discontinuous and quantized.
Quantum means a definite,
differentiable quantity. Quantum motion, therefore, means a
motion performed in definite quantities of motion, or lengths of spatial
displacment, and this precludes any continuity in the overall effect.
There are
three basic types of motion: the wave, the subatomic
and the atomic motion. All three of these motions are quantized,
formal and therefore discontinuous.
Any velocity is determined
by three fundamental principles:
 |
1.
The Moment:
At any time, an apparently moving object is still,and as shown
in this demonstration, can be photographed as such. The duration
of the moment is calculated at 1/64,000 of a second. It is the
moment, or a succession of these moments that we sense as time.
[more] |
 |
2.
The Quantum Leap:
The quantum leap is what we perceive as actual movement
and it occurs instantaneously. That is, the object actually displaces
itself from one point in space to another, in no time at all.
What we see as fast velocities are simply long quantum leaps,
and slow velocities are short quantum leaps. This movement, being
instantaneous and faster than light, cannot be recorded on film,
while its effects on surrounding objects can be. [more]
|
 |
3.
Specific Simultaneity:
Everything atomic in the universe stops for an estimated duration
of 1/64,000 of a second. As well, each motion is recognized as
a constituent part of a superior cosmic action. This means perfect
order, perfect rhythm, perfect perceptive intelligibility.
[more] |
While these principles
apply to all three types of motion (wave, subatomic and atomic) this
site demonstrates atomic motion only.
Leap
to Table of Contents
Leap
Home
Boisvert's
Discovery of the Discontinuity of Motion© by Wilfrid Boisvert;
Presented for the Web by Gordon Smith and Adrien Boisvert.
Copyright 1996: Gordon Smith. E:mail enquiries, questions, criticism
to: gds@islandnet.com
This page
updated: October 15, 2001
|