Month: June 2017

Force Unification Theory for Observed Physical Effects and Phenomena

Posted on by Brian P. Slee

In our previous paper “The Nature of Matter” we postulated that space was a layer of
electrically charged plasma existing between spherical layers of different charge
potentials. In this paper we will entertain the notion that plasma at the subatomic scale
exhibits the same behaviors and properties as any other fluid.

The Gravitational Effect

What is gravity? As stated in a previous paper, gravity is not a force of nature. If it isn’t
a force, then what is it? Gravity is the expression of a combination of electrical
interactions between space, matter, and the current flowing through them.

Consider space. Just like any other fluid. It has specific characteristics that can be
measured e.g. temperature, pressure, density, and viscosity. And just like any other fluid
those characteristics manifest physical phenomena based on the values of these
characteristics. By applying well known principles of fluid dynamics we can derive the
part of the effect caused by the pressure of the plasma environment we call space. I.e.
The component of the attraction between different clumps of matter that is associated
with the conservation of energy. Since everything immersed in the fluid is under external
pressure they will seek to reduce the overall pressure acting on them by reducing the
surface area exposed to the pressure.

Matter adds to the effect. Every elementary particle has a specific charge. And in
accordance with Coulomb’s law they will attract or repel each other based on the overall
charge at their center of mass.

Finally we have to account for the flow of electrical energy through the area under
observation. Current flowing through the local area will impart additional effects to the
baryonic matter based on the current flow in relation to their spin and electrical charge
characteristics.

Strong and Weak Nuclear Effects

What we describe as the Strong and Weak Nuclear Force are easily explained if space has
the same characteristics of other fluids by using a carbonated liquid or deep ocean
hydrate as the analogy for what processes control the binding force and decay rates
associated with atomic nuclei i.e. The structure of condensed matter and its ability to
maintain coherence are controlled by the local conditions of pressure, temperature and
density of the fluid in which it is suspended.