The movement of an electron around
The movement of an electron around

The movement of an electron around

The movement of an electron around the atomic nucleus has today a great importance in many engineering fields. Electronics, aeronautics, micro and nanotechnology, electrical engineering, optics, lasers, nuclear power, computing, equipment and automation, telecommunications, genetic engineering, bioengineering, special processing, modern welding, robotics, energy and electromagnetic wave field is today only a few of the many applications of electronic engineering. This paper presents shortly in the last chap. a new and original relation which calculates the radius with that the electron is running around the atomic nucleus. For a Bohr energetically level (n=a constant value), one determines now two energetically below levels, which form an electronic layer. The author realizes by this a new atomic model, or a new quantum theory, which explains the existence of electron-clouds without spin, and promises, that application, construction of some high-energy laser. USA company formation                       

Keywords: Nuclear Energy, Green Energy, Cold Nuclear Fusion, Annihilation Energy, Atomic energy, Matter, Antimatter, LASER, Nano energy.


Energy development is the effort to provide sufficient primary energy sources and secondary energy forms for supply, cost, impact on air pollution and water pollution, mitigation of climate change with renewable energy.

Technologically advanced societies have become increasingly dependent on external energy sources for transportation, the production of many manufactured goods, and the delivery of energy services.

 This energy allows people who can afford the cost to live under otherwise unfavorable climatic conditions through the use of heating, ventilation, and/or air conditioning. Level of use of external energy sources differs across societies, as do the climate, convenience, levels of traffic congestion, pollution and availability of domestic energy sources.

All terrestrial energy sources except nuclear, geothermal and tidal are from current solar insolation or from fossil remains of plant and animal life that relied directly and indirectly upon sunlight, respectively (Aversa et al., 2016 a-m; Petrescu et al., 2016 a-c; Petrescu, 2014, 2012 a-b, 2010; Petrescu and Calautit, 2016 a-b; Petrescu and Petrescu, 2014, 2011).

Ultimately, solar energy itself is the result of the Sun’s nuclear fusion.

Geothermal power from hot, hardened rock above the magma of the Earth’s core is the result of the decay of radioactive materials present beneath the Earth’s crust, and nuclear fission relies on man-made fission of heavy radioactive elements in the Earth’s crust; in both cases these elements were produced in supernova explosions before the formation of the solar system.

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