These extra dimensions are encountered inside Casimir regions, they result in
both time dilation and spatial contractions. equal and opposite reactions can
now include Lorentzian transformations where spatial displacement is traded for
temporal displacement which is why we get both ZPE and accelerated half lives
of radioactive gases. IMHO it also explains Shawyers EM drive by effectively
steering a small fraction of his force vector onto one of these difficult to
access dimensions and thereby unbalancing the seemingly closed system.
[snip] A force that varies with the square of the distance means that the force
will increase with the square of the distance if we reduce the distance, and it
will decrease with the square of the distance if we increase the distance. As a
result, this author concluded that a force that varies with the square of the
distance can be considered as a conventional 1-dimensional force vector
(x-axis) that is scattered into 2 additional dimensions (y, z) due to the
3-dimensional nature of space. The square power of the distance indicates the
number of additional dimensions we must add to a 1-dimensional force vector in
order to get the number of dimensions of the whole field of force (here, 3):
•5• N = a + n
Where: N = number of dimensions of the whole field of force
a = number of dimensions of the force
vector (usually 1)
n = power, the force varies with the
distance (in this case, 2)
In the above case: N = a + n => N = 1 + 2 = 3. This means, a
1-dimensional force vector varies with the square of the distance in a
3-dimensional space.
In an analogous way, a force that varies with the fourth power of the distance
(Casimir force) can be considered as a 1-dimensional force vector that is
scattered in a 5-dimensional space (N = a + n => N = 1 + 4 = 5). Therefore,
it is evident that the field that originates the Casimir force is a
5-dimensional field, i.e. that it is in fact a hyperspace field that produces
the corresponding effects in our 3-D universe. [/snip]
Fran
From: Jones Beene [mailto:[email protected]]
Sent: Tuesday, December 01, 2015 10:55 AM
To: [email protected]
Subject: EXTERNAL: RE: [Vo]: Below Absolute Zero and Hotson
From: Bob Higgins
Recently I have seen a couple of articles about temperatures below absolute
zero and experimental evidence for this. Here is an example:
http://www.nature.com/news/quantum-gas-goes-below-absolute-zero-1.12146
This sounds a lot like Hotson's description of negative energy.
Bob,
Here is another take on negative (quantum) temperature - which fits well with
observation.
http://www.journaloftheoretics.com/Articles/3-1/calvet-final.htm
Abstract: Conventional forces like gravitation and electromagnetism vary with
the square of the distance. This is because the corresponding force is
scattered into 3 dimensions due to the distribution of virtual gravitons or
photons of the corresponding field in a 3D-space. In an analogous way, the
Casimir force, that varies with the 4th power of the distance, ought to arise
from bosons distributed in a hyperspace with 5 real physical dimensions. This
leads to the prediction of a whole new world of “quantum temperatures” below
zero Kelvin, and to a model that surprisingly agrees with cosmology and recent
findings of the zero-point-field (ZPF). “Virtual” field particles (e.g. bosons
of the ZPF) are probably nothing else than hyperspace particles that cross our
3-D universe from time to time, thus seeming “virtual” to us. This paper
details how our universe can be considered as a 3-D space “floating” on an
immense 5-D space - the hyperspace - in analogy to a sheet of ice floating in a
deep sea.
