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Part 0301 - Gravitonpair Physics | ARGUMENT 0301-09PRECEDENTS
- CURRENT
PARADIGM:
Escape velocity is the minimum speed needed for an object
to escape from a massive body, in the sense of becoming neither on the
surface nor in closed orbit of any radius no matter how great, without
the aid of thrust, or suffering the resistance from friction. The
escape velocity from Earth is about 11.186 km/s (6.951 mi/s;
40,270 km/h; 25,020 mph) at the surface. More generally,
escape velocity is the speed at which the sum of an object's kinetic energy and its gravitational potential energy is equal to zero.
With escape velocity in a direction pointing away from the ground of a
massive body, the object will move away from the body, slowing forever
and approaching but never reaching zero speed. Once escape velocity is
achieved, no further impulse need be applied for it to continue in its
escape. In other words, if given escape velocity, the object will move
away from the other body, continually slowing and will asymptotically approach zero speed as the object's distance approaches infinity, never to return. (Wikipedia - 04 Nov 2016)
PARAMETERS
- Consider that every adjacent gravitonpair has a vergence velocity.
- Consider that vergence velocity measures are related to a standard candle.
- Consider than the vergence velocity standard candle is zero at the gravitysheath interface.
- Consider that a vergence velocity of more than zero will break an adjacent gravitonpair's adjacency.
- Consider than a vergence velocity of less than zero will not break an adjacent gravitonpair's adjacency.
REASONING
- Because
a vergence velocity of more than zero will allow the gravitons in an
adjacent gravitonpair to escape from each other, the escape velocity of an adjacent gravitonpair is also zero.
- For an adjacent gravitonpair to escape from their adjacency, their unpowered velocity must be zero plus an iota.
CONCLUSION
- That every adjacent gravitonpair has an escape velocity.
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COMMENTARY
There
is a difference in the way that escape velocity is expressed
in the Current Paradigm and the Malta Template. In the Current Paradigm
it is the unpowered velocity required for a diverging object to never
slow to zero. In the Malta Template, it is the unpowered velocity
require to reach the gravitysheath interface. In practice, the end
result is much the same. Both require an object leaving the Earth to
move from the region where the Earth's gravitypull dominates into the
region where the Sun's (or the Moon's) gravitypull dominate.
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