Many people have produced devices and ideas for tapping this energy. Should we say that a TV set cannot possibly work because we cannot see a television transmission signal? If, instead of the solar panel, we had a device which absorbs some of the energy which Quantum Mechanics observes and gives out, say, electrical power, would that be so different? Most people say «yes! – it is impossible!» but this reaction is based on the fact that we cannot see this sea of energy.
This example is simple as we can see the sunlight reaching the solar panel. We get electrical power out of the panel but we do not put the sunlight into the panel – the sunlight arrives on its own. A crude example is a solar panel in sunlight. However, that does not mean that we cannot get more energy out of a system than weput into it. The Law of Conservation of Energy is undoubtedly correct when it shows that more energy cannot be taken out of any system than is put into that system. Scientists remark that if we could tap even a small part of that energy, then we would have free energy for our lifetime. Knowing that E = mC 2, we can see that a tremendous amount of energy is needed to create any form of matter. The electrons in the molecules of rock formations have been spinning steadily for millions of years without stopping – at what point will you agree that they are in perpetual motion? So, why don’t electrons run out of energy and just slow down to a standstill? Quantum Mechanics has shown that the universe is a seething cauldron of energy with particles popping into existence and then dropping out again.
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The purpose of this website is to provide you with an introduction to a series of devices which have been shown to have very interesting properties and some are (incorrectly) described as ‘perpetual motion’ machines.What’s that you say – perpetual motion is impossible? My, you’re a difficult one to please.