Scientist
MICRONUCLEAR PHYSICS
The aim of Micronuclear Physics is the achievement of low cost, high volume energy production through the application of an extremely highly efficient techology on a microscopic level.
The words atomic and nuclear have gained bad reputations because of the destructive nature of the atomic bomb and the failure of the nuclear reactor to deliver safe, clean energy. The goal of M.N.P. is to replace a bad technology based on misconception and misunderstanding, with a good technology based on truth.
The two failed products of the atomic age, the Bomb and the Reactor, are based on large scale out of control reactions of heavy, unstable radioactive elements.
M.N.P. deals with individual particles and precise energy flows.
To achieve a culture which is able to survive on a long term basis, it is necessary to expand our reach beyond our own planet to replenish our resources and ensure our safety. The order of magnitude of energy production to achieve this is far beyond anything we are currently capable of, including the atomic bomb and nuclear reactor.
The goal of M.N.P. is to deliver this.
ACHIEVEMENT OF THE GOALS OF MNP
There are two primary products of MNP.
Antimatter Energy Production. This is the dynamic production of antimatter particles which can then combine with normal matter to release quantities of energy according to the equation e=mc2. The primary target of this technology is the creation of antimatter particles.
Antigravity/Progravity Field Interaction. This is the production of a static field which will simulate or counter the force of gravity. The primary target of this technology is to simulate in any way the force of gravity.
NUCLEAR ELECTRON SHARE BASED PERIODIC TABLE OF THE ELEMENTS
This chart is based on the theory that neutrons do not truly exist as a separate particle. Experiment shows that when ejected from a nucleus, a neutron splits into a proton and electron. Postulating that a neutron is composed of a proton and electron while still in the nucleus, this may be explained through the model of an electron wave superimposed on a proton wave, the combined two resulting in a slightly larger and more complex particle than a proton itself. The neutron has been measured as just such a particle, slightly more massive than a proton. Thus a model for nuclear shell structure for nuclear electron states can be proposed. The conventional periodic table shows that there are never more than two neutrons for any proton in any element.
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