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The Little Known Unique Properties of Scalar Energy
1. The Little Known Unique Properties of
Scalar Energy
Scalar Energy is a very different form of energy and this article looks at
some of its unique properties.
Despite being somewhat "out there," the creation of scalar energy is quite
simple to understand. Dr. Valerie Hunt. PhD, Professor Emeritus at UCLA, one
of the leading researchers at the in the human bio-energy field, says it's created
when two opposing forces of common electromagnetic waves collide. As soon
as the two opposing forces collide, they immediately cancel one another out,
creating a stationary or static form of energy we know as scalar energy.
Two of the most important properties of scalar energy is that one, it is not
Hertzian, meaning it cannot be measured as regular electromagnetic waves
can, and two, it is non-linear like regular electromagnetic waves. This energy is
in a class of it’s own with many distinguishing properties.
One of the more fascinating properties of scalar energy is that unlike most
forces that occur in the world such as waves, rolling objects, or any directional
force, scalar energy does not decay or diminish over time. Also, the motion of
scalar energy differs from that of regular electromagnetic waves. Regular waves
tend to be sent out in beams, or running through cables. Scalar energy radiates
outwards from the point of collision with another wave, which resembles circles.
Another extremely rare and unique quality of scalar energy is that the space the
energy equals is not a vacuum, meaning, the energy is unbounded to anything
and can freely move through any solid object.
The space that scalar energy fills tends to be networks of harmoniously
balanced energies. Yet another rare quality of scalar energy is that it is freely
created throughout the universe, or can be manually created via the collision of
electromagnetic waves.
As previously mentioned, a distinguishable property of scalar energy is that,
2. unlike regular electromagnetic waves, scalar energy cannot be measured in
Hertz. The only way to be able to view the effect that scalar energy has or to
measure its concentration, is through techniques such as Gas Discharge
Visualization (GDV), or Kirlian photography.
Within the next few years, more and more information on the unique properties
will be available, discovering even more useful ways for us to harness and
benefit from the powers of scalar energy.
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