There has been much debate about what is almost always called "free" energy. Energy which could apparently, with the proper equipment, be drawn straight right out of the atmosphere, and in very plentiful supply. The debates are about whether the stuf
June 9, 2014 (Newswire) - Have you ever wondered how you can get FREE ENERGY? What are advantages and drawbacks of solar energy? I can show you a way to eliminate your power bill. Would you like to be able to say SEE-YOU-LATER to your power company? I have included a link here so you can get all the info on how you can get FREE ENERGY and find out what the disadvantages of solar energy are. There's been a good deal discussion about what often proves to be called "free" energy. Energy which may supposedly, with the right expertise, be drawn straight out of the atmosphere, and in very considerable supply. The debates are about whether the stuff actually exists or not, what it would actually cost were it to be harnessed, and if it does exist is it truly as abundant and efficient as it's cultivated out to be by proponents of r d classified as this budding solar energy source.
When one hears the term "free energy device", one may be discovering one of many different thoughts. This might mean a tool for collecting and sending power from some source that traditional technology doesn't recognize; a tool that accumulates energy at zero cost; or alternatively demonstration of the mythical perpetual motion machine. Never the less, a perpetual motion machine, a mechanism which drives itself, evermore, once started up, thus needing no power input ever again and never running out of energy-is unworkable. However, it is not so simple to say that a brand new technology for utilizing the electricity "floating" inside the atmosphere doesn t seem possible. New technologies replace older ones everyday with abilities which had just been "impossible". Making use of the effectiveness of the atom for providing quantities of energy was "impossible" until the 1940s. Flying human beings were an "impossible" thing until the turn of the 20th century and the Wright Brothers' flight.
The largest claim of the advocates of "free" energy is the idea that gigantic amounts of energy is usually used by the Zero Point Field. This is the quantum mechanical condition of matter for a definitive system which can be attained when the system is at the lowest probable power state that it usually is in. This is called the "ground state" of the system. Zero Point Energy (ZPE) is occasionally often called "residual" energy and yes it was first proposed to be functional as an alternative form of energy way back in 1913 by Otto Stern and Albert Einstein. Furthermore it is referred to as "vacuum energy" in studies of quantum mechanics, and it is supposed to represent the energy of totally empty space. This energy field located within the vacuum has been likened to the froth at the base of a waterfall by one of the principal researchers into and proponents of Hal Puthof. Puthof also explains, the term 'zero-point' just means that if the cosmos were cooled off to absolute zero where all thermal agitation effects would be frozen out, this energy would continue to stay. What is not as talked about, on the other hand, even among practicing physicists, are all the implications that derive from this known aspect o quantum physics. However, there are a group of physicists-myself and colleagues at several research labs and universities-who are examining the details, we ask such questions as whether it might be possible to 'mine' this reservoir of energy for use as an alternative energy source, or whether this background energy field might be responsible for inertia and gravity. These questions are of interest because it is known that this energy can be manipulated, and therefore there is the possibility that the control of this energy, and possibly inertia and gravity, might yield to engineering solutions. Some progress has been made in a subcategory of this field (cavity quantum electrodynamics) with regard to controlling the emission rates of excited atoms and molecules, of interest in laser research and elsewhere.