ARGUMENT
0301-11
PRECEDENTS
PARAMETERS
- Consider that escape velocity is always zero at a gravitonpair's gravitysheath interface.
- Consider
that vergence velocity is a variable at a gravitonpair's gravitysheath
interface.
- Consider
that vergence velocity at a gravitonpair's gravitysheath
interface can be higher, the same, or lower than the escape
velocity.
- Consider that escape velocity and vergence velocity are measure of realspeed, not potentialspeed or spin.
- Consider
that the movement of an adjacent gravitonpair toward another object will
result in the transmutation of potentialspeed to realspeed in its gravitons.
- Consider that the movement of an adjacent gravitonpair
away from another object will result in the transmutation of realspeed
to potentialspeed in its gravitons.
- Consider that any
collision between the gravitons in an adjacent gravitonpair with another object
will result in an exchange of realspeed, potentialspeed, and spin.
REASONING
- Because
the movement of an adjacent gravitonpair toward another object results in
the transmutation of potentialspeed to realspeed in its gravitons, there is
a commensurate increase in the gravitonpair's vergence velocity.
- Because
the movement of an adjacent gravitonpair away from another object result in
the transmutation of realspeed to potentialspeed in its gravitons, there is
a commensurate decrease in the gravitonpair's vergence velocity.
- Because
any collision between the gravitons in an adjacent gravitonpair with
another object results in an exchange of realspeed, potentialspeed, and
spin, there is a commensurate alteration to the gravitonpair's vergence
velocity.
- Any change to an adjacent gravitonpair's vergence
velocity will result in a commensurate change to the gravitonpair's
stability condition.
CONCLUSION
- That every adjacent gravitonpair's stability condition
changes commensurately with any change in its vergence velocity.
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