The Japan Science Foundation

The Japan Science Foundation, under Japanese government auspices, awarded grants to two universities and one company to produce models of the N machine and to investigate how it works. Kazama Giken Corporation is commercially supplying small N machines for research and educational purposes. Another Japanese company, Panasonic/National, is also pursuing this technology. Shiuji Inomata, Ph D president of the Japan Psychotronics Institute and senior scientist at the Electrotechnical Laboratory in Ibaraki, has been instrumental in sparking the interest of Japan’s scientific community in the N machine.
“One day man will connect his apparatus to the very wheelwork of the universe… and the very forces that motivate the planets in their orbits and cause them to rotate will rotate his own machinery,” predicted Nikola Tesla, the Croatian born American electrical genius whose discoveries and inventions rival those of Edison. Proponents of the N machine believe that it taps directly into a primordial energy source, meshing with the wheelwork of the cosmos.
“Electrical engineering took a wrong turn 160 years ago,” according to Tewari, referring to English scientist Michael Faraday’s pioneering work of the world’s first dynamo. In 1831, Faraday performed a series of experiments which led to the modern electric induction generator, having two moving parts–a rotor and a stator. Faraday moved a wire near the pole of a magnet, producing an electrical potential across the ends of the wire. This induction principle is used in all the electrical generators we use today. And that’s precisely what Tewari means by a “wrong turn.” In that same year, 1831, Faraday also performed a simple yet ingenious experiment with a rotating magnetized conductor. The resulting phenomenon (free energy?) has yet to be explained in terms of conventional scientific theory.
By cementing a copper disc on top of a cylinder magnet, and rotating the magnet and disc together, Faraday created an electrical potential. After pondering this phenomenon for many years, he concluded that when a magnet is rotated, its magnetic field remains stationary.
Thus, he reasoned, the metal of the magnet moves through its own field, and the relative motion is translated into electrical potential.
Faraday’s experiments led him to the revolutionary conclusion that a magnetic field is a property of space itself, not something attached to the magnet, which merely serves to induce or evoke the field.
Known for over 150 years, the Faraday homopolar generator, as his contraption is called, has been viewed by a handful of visionary inventors as a basis for evoking the free energy latent in space. They see is as the prototype for a generator capable of providing its own motive power with additional energy to spare. When the world embraced Faraday’s two piece induction generator, whose drawbacks include mechanical friction and electrical losses, the enormous potential of the Faraday homopolar generator was abandoned, in the opinion of free-energy proponents.