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NEWSCIENCENEWSCIENCENEWSCIENCE Energy from the quantum vacuum Today, most people (including the power-plant operators, physicists and electric engineers) believe that coal and nuclear power plants supply energy to our electrical household appliances. However, from a quantum-mechanical point of view, this is not correct. A nuclear power plant is no energy provider. All that a nuclear power plant does is to open a door. Opening a door means that a pressure difference is created in space (breaking the symmetry of space). As soon as a pressure difference in the space energy is created, the space energy becomes visible to us. As soon as the door is opened, the energy from space can be integrated into our system. The energy contained in the nuclear fuel rods is used only to open this door and to keep it open. That is all. As soon as the door is opened, the energy present in space flows freely and permanently without emissions into the electric generator which is present in the nuclear power plant. Subsequently, this free energy is routed from the electric generator to the lamp in our living The energy contained in the atoms of the ballpoint therefore does not originate directly from the visible part of the pen but from the space within and around it. The surprising part is that the matter of the ballpoint does not differentiate itself from the energy contained in the surrounding space. The visible ballpoint is not an isolated "object" but, instead, a quality of space-time. It is just as in the case of the iceberg. The visible iceberg consists of water. The energy that keeps the visible iceberg out of the water also consists of water. The only difference is that the visible part (the tip of the iceberg) is comprised of visible water, whereas the other part is comprised of invisible water. The apparent empty space is filled everywhere with an invisible energy. At the place where matter is present, this energy becomes visible. For this reason, the entire physical reality is supplied with energy from space. This space energy has a fundamental importance in our daily life. We all know about, for instance, the issue of the expensive energy supply. Energy costs are rising and the environment is getting polluted. room via high-voltage wires. In the lamp, then, this space energy is converted into a visible form of energy, such as light and heat. We can now assume that the lamp could also be lit even without the nuclear power plant if the energy does not come from the plant. But as we know, this does not happen because a special communication exists between the lamp and the power plant. As soon as the lamp starts to glow, it sends an "email" back to the power plant. In this email it is written that the lamp has done its job (has given out light) and that the power plant can close the door again. But as soon as the door is closed, the free and permanent flow of energy from space stops. When the flow of energy from space ceases, then the lamp also stops glowing. If the lamp is to keep glowing, then new energy from the nuclear fuel rods must be used to open the door again. For this reason, the law of conservation of energy (the first law of thermodynamics states that energy can be neither created nor destroyed) lies in the fact that the ree and permanent energy from space, which supplies the lamp, matches exactly the free and permanent energy from the space hat closes the door in the power plant at the same time. Normally, the law of conservation of energy is interpreted in such a way hat energy can neither be created rom "nothing" (space) nor be lost into the "nothing" domain. In the sense of quantum mechanics, owever, energy is always and exclusively created from "nothing" (quantum vacuum). The reason why his does not become apparent is hat the generation of energy from "nothing" exactly matches the quantity of energy which has been given off previously to the "nothing" domain at the point of energy induction. 50 * NEXUS JUNE - JULY 2010 www.nexusmagazine.com