Supersolidity and the breakdown of the General Relativity Equivalence Principle
- From: ny2292000 <quantuniverse@xxxxxxxxx>
- Date: Wed, 20 Jun 2007 04:32:06 -0700
In my blog about the Hypergeometrical Universe, I posted a simple
solution to the supersolidity problem. This problem arises from an
experiment which has been interpreted along the lines of superfluidity
of solid Helium-4 phases.
Simple quantum mechanics argument showing that the core of the
rotating Helium-4 cell probes boths sides of motion and thus remains
effectivelly motionless below a critical temperature properly explains
the phenomena.
A quantum mechanical motionless states indicates a breakdown between
inertia mass and gravitational mass.
Further considerations also show that inertia depends upon which
motion you are considering. Although rotational motion inertial mass
(moment of inertia) goes to zero as temperature decreases,
translational mass (if one moves the whole He-4 cell) would not.
The site is http://hypergeometricaluniverse.blogspot.com/2007/06/going-nowhere-fast.html
Please feel free to contact me with questions or comments.
Thanks,
MP
.
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