side, as long as a certain distance is maintained and friction against a table top or other surface is present, they can
coexist with without polar symmetry, however. Why the pressure to snap together and align when poles approach,
where not so in a side by side arrangement? An analysis of magnetic particle flow in magnets placed end to end show
the particles flow moving through the entire length of the linkup of magnets, creating a longer and larger field before the
particles return to the shared south pole at the end of the lineup. But what of the particle flow when magnets are
positioned side by side? The key here is the strength of the fields, and the closeness of the magnets.
If the magnets are of a strength and closeness to each other such that a returning particle finds itself fighting the
flow to do anything but go to the far edge of the overall mega-magnetic field created by the group, the magnets
will line up with their poles in the
If any of the magnets are of a significant strength, but the magnets are not so close that returning particles are
perforce forced to the outside of the overall mega-magnetic field created by the group, the returning particles will
take the path of
the flow, establishing the magnetic orientation. This happens, not surprisingly, in gaseous planets as they have the
greatest mobility in their composition and the least resistance to change.
If the magnet in a side by side arrangement are at the greatest distance from the dominant magnet in the group,
they will align in orientation with that magnet as the overall flow of particles is such at the
magnetic field such that the return south is sweeping like eddy currents at the very outside of all the magnets in
the group. There peripheral magnets thus align in the
When this path of least resistance is established in a gaseous planet, the magnetic particle flow takes a short cut to the
http://www.zetatalk2.com/science/s122.htm[2/5/2012 11:53:50 AM]
ZetaTalk: Opposition
south pole of the Sun, the dominant magnetic influence in the area. Those particles flowing through such a gaseous
magnet do
the Sun. Magnetic fields are measured by man not by the flow of particles, but by the
orientation is determined by which way a magnet swings under the influence of this flow. Thus, probes sent to measure
the magnetic field of a gaseous planet find their test magnets swinging into alignment, both the south pole of the
gaseous planet and the test magnet lined up to act as a conduit for the intense flow of magnetic particles on the move.
The fact that there is no actual
http://www.zetatalk2.com/science/s122.htm[2/5/2012 11:53:50 AM]
ZetaTalk: Earthquake Predictions
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We are not allowed to forewarn Earthlings of impending earthquakes to the extent they would like us to. The rules are
simple in this regard. For humans, on Earth at this time in the 3rd Density, earthquakes are a fact of nature, one that
creates many opportunities for them to sort out their spiritual orientation. Just watch how the populace responds after
an earthquake. Some people risk their lives dashing into shaky building to rescue others, and other people sit and
moan, waiting to be rescued. Many and great opportunities. However, lest some deem we, the Service-to- Other Zetas,
to be cold-hearted and cruel, be aware that this is not
planet. No interference. Should we break this rule, we would no longer be allowed to be visitors.
With that in mind, we will tell you what we can. We
day, in such a place, at such a time, an earthquake of magnitude such will occur. However, we ourselves are able to
come close to this type of accuracy. Here's how we do it.
The Earth, as just about everyone knows, is covered by plates that move about and grind against each other. This
grinding action is described variously as a head-to-head push, a sliding under or over, or a gliding along the edge on
the way to someplace else. A place where this is occurring is called a fault line, as being a faulty place in the surface
of the Earth, one would assume. Now, where humans spend a lot of time sticking probes into the Earth, and trying to
guess at the tension deep underground and thus the probability of a near term earthquake, they would do better to place
the plate personalities into a computer and let the
be done? Humans have a pretty good handle on what the plates are, and where their boundaries are. Put that into the
computer. Humans also have a pretty good handle on the direction the plates are moving in, as they are staring at the
results after every earthquake. What they don't know is the degree of pressure, and how to restate this pressure after a
quake, which eases the tension in the surrounding rock.
This can be done mathematically, if one takes into consideration the following factors:
