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electrical transformer. It uses a 6-watt electrical input to control the path of a magnetic field coming out of a permanent magnet. By channelling the magnetic field, first to one output coil and then to a second output coil, and by doing this repeatedly and rapidly in a "ping-pong" fashion, the device can produce a 96-watt electrical output with no moving parts. Bearden calls his device a Motionless Electromagnetic Generator, or MEG. Jean-Louis Naudin has duplicated Bearden's device in France. The principles for this type of device were first disclosed by Frank Richardson (USA) in 1978. Troy Reed (USA) has working models of a special magnetised fan that heats up as it spins. It takes exactly the same amount of energy to spin the fan, whether it is generating heat or not. Beyond these developments, multiple inventors have identified working mechanisms that produce motor torque from permanent magnets alone. for the cost of water. Even more amazing is the fact that a special metal alloy was patented by Freedman (USA) in 1957, which spontaneously breaks water into hydrogen and oxygen with no outside electrical input and without causing any chemical changes in the metal itself. This means that this special metal alloy can make hydrogen from water, for free, forever. for this type of device were first ed by Frank Richardson 5. _Implosion/Vortex Engines (USA) in 1978. All major industrial engines use the release of heat to cause Troy Reed (USA) has working models of a special magnetised expansion and pressure to produce work, like in your car engine. fan that heats up as it spins. It takes exactly the same amount of — Nature uses the opposite process of cooling to cause suction and energy to spin the fan, whether it is generating heat or not. vacuum to produce work, like in a tornado. Beyond these developments, multiple inventors have identified Viktor Schauberger (Austria) was the first to build working working mechanisms that produce motor torque from permanent models of Implosion Engines in the 1930s and 1940s. Since that magnets alone. time, Callum Coats has written extensively on Schauberger's work in his book Living Energies, and subsequently a number of researchers have built working models of Implosion Turbine Engines. These are fuelless engines that produce mechanical work from energy accessed from a vacuum. There are also much simpler designs that use vortex motions to tap a combination of gravity and centrifugal force to produce a continuous motion in fluids. 3. Mechanical Heaters There are two classes of machines that transform a small amount of mechanical energy into a large amount of heat. The best of these purely mechanical designs are the rotat- ing cylinder systems designed by Frenette (USA) and Perkins (USA). In these machines, one cylinder is rotated within another cylinder with about an eighth of an inch of clearance between them. The space between the cylinders is filled with a liquid such as water or oil, and it is this "working fluid" that heats up as the inner cylinder spins. Another method uses magnets mounted on a wheel to produce large eddy currents in a plate of aluminium, causing the alumini- um to heat up rapidly. These magnetic heaters have been demonstrated by Muller (Canada), Adams (NZ) and Reed (USA). All of these systems can pro- duce 10 times more heat than standard methods using the same energy input. 6. Cold Fusion Technology In March 1989, two chemists, Martin Fleischmann and Stanley Pons, from Brigham Young University, Utah (USA), announced that they had produced atomic fusion reactions in a sim- ple tabletop device. The claims were "debunked" within six months and the public lost inter- est. Nevertheless, cold fusion is very real. Not only has excess heat production been repeatedly documented, but also low-energy atomic element transmutation has been catalogued, involving ; : dozens of different reactions! 4. Super-Efficient Dr Nikola Tesla (1856-1943) This technology definitely can Electrolysis produce low-cost energy and Water can be broken into hydrogen and oxygen using electricity. scores of other important industrial processes. 1 he that thio mara 4. Super-Efficient Dr Nikola Tesl. Electrolysis Water can be broken into hydrogen and oxygen using electricity. Standard chemistry books claim that this process requires more energy than can be recovered when the gases are recombined. This is true only under the worst-case scenario. When water is hit with its own molecular resonant frequency, using a system developed by Stan Meyer (USA) and again recent- ly by Xogen Power, Inc., it collapses into hydrogen and oxygen gas with very little electrical input. Also, using different elec- trolytes (additives that make the water conduct electricity better) changes the efficiency of the process dramatically. It is also known that certain geometric structures and surface textures work better than others do. The implication is that unlimited amounts of hydrogen fuel can be made to drive engines (like in your car) 7. Solar-Assisted Heat Pumps The refrigerator in your kitchen is the only "free energy machine" you currently own. It's an electrically operated heat pump. It uses one amount of energy (electricity) to move three amounts of energy (heat). This gives it a "co-efficient of perfor- mance" (COP) of about three. Your refrigerator uses one amount of electricity to pump three amounts of heat from the inside of the refrigerator to the outside of the refrigerator. This is its typical use, but it is the worst possible way to use the technology. Here's why. A heat pump pumps heat from the "source" of heat to the "sink" 54 = NEXUS JUNE — JULY 2001 Dr Nikola Tesla (1856-1943) www.nexusmagazine.com