The Tesla Fuelless Generator Takes The Lead In Efficiency
A full decade after obtaining patents for his highly successful alternating current devices, Nikola Tesla made a bold pronouncement in 1890. He shocked the scientific community by announcing that he had developed an alternative energy source capable of operating entirely on natural light. Since then, Tesla fuelless generators have become widely accepted as viable alternative energy sources.
While yet a young college student, Tesla proposed the possibility of self-sustained electrical energy. A professor advised him that such an invention would be a practical impossibility, as perpetual movement would be required to maintain its power supply. Undaunted, Tesla moved forward with his idea. His persistence paid off. In the late 19th-century, he received patents for a motor, generator, and transformer – all of which operated on alternating electrical current.
Today, fuelless generators induce the same scientific cynicism as did Tesla’s suggestion that perpetual motion was possible. The critical inquiry at the heart of this scientific controversy? Whether Nikola Tesla fuelless generators were true scientific breakthroughs or mere alternative applications of long-standing physical laws.
Inspiration for the Tesla Fuelless Generator
Tesla’s thoughts first turned to creating a self-sustaining energy source after he perused a Kelvin statement that proclaimed the impossibility of any mechanical device operating and generating energy from a single heat source. Such logic had a certain intuitive appeal, however. After all, how can something that generates energy function absent the presence of other energy?
The essence of all Tesla’s theories is that the sun is an eternal, omnipresent natural energy source. With proper tools and techniques, man may harvest its enormous photon emissions for a broad range of practical applications.
Tesla readily recognized that conventional electrical generators such as his alternating current device were incapable of direct cosmic energy extraction. Thus, he turned his attention to the “turbine.” The water pump is the world’s best-known turbine-driven device. In 1913, this Tesla invention received patent #1,061,206. The distinctive advantage of turbines is greater water quantity that moves much more rapidly than with flat metallic pad devices.
Nikola Tesla Fuelless Generator: Self-sustained energy flow
Now, some explanations of the fundamental physical properties underlying self-sustained electrical current are in order.
In a 1958 scholarly publication, noted scientist Walter M. Elasser theorized that the then-famous Faraday energy generator was modifiable for perpetual electrical current maintenance. The basic internal Faraday components consisted of a set of spinning discs placed between two electromagnets. This format could never maintain current indefinitely, however. The disc’s electrical charge was too weak to withstand the conductor’s opposing resistance.
Elasser posited that any form of matter that possessed one thousand times the electrical conductivity of copper could generate and maintain self-sustained current. He further suggested that increasing disc rotation to incomprehensible speeds or huge component enlargements would also have the same effect.
Tesla had no materials available with one thousand times the conducive capabilities of copper. Nor did he have the ability to spin discs with the super-rapidity required to generate self-sustaining electrical current. Neither did he have plans to construct a rotating metal disc several miles in diameter. Instead, he took the innovative tack of converting excess energy emissions into usable power.
Unipolar energy dynamics
Tesla improved upon Faraday’s fundamental design in two important aspects. First, he employed magnetic discs of a much larger diameter that covered the entire surface of the disc. Secondly, he subdivided the disc surface. Each subsection featured curved spirals that ran from the middle to the outer disc edge.
No precise definition for radiant energy currently exists. All descriptions include electro-magnetivity to a greater or lesser degree, however. The term especially denotes internally generated energy excess emissions into the external environment. Such energy forms may be invisible or visible to human eyes.
As the term implies, radiant energy emits from effervescent sources. It disperses in multi-directional patterns. Some common practical applications of radiant energy include clothes drying, medical diagnostics, and the disinfecting of bed linens.
Many other practical radiant energy applicants have also been devised. These include control and communications media, and sorting/separating industrial functions. The common characteristic underlying all these applications is a radiant energy source linked to a responsive device. The responsive mechanism detects and signals any significant change in its emission level by some immediate, conspicuous reaction.
Home heating systems are a relatively recent radiant energy application. Radiated energy may be generated via electrical means such as infrared lamps. It is also absorb-able via natural sunlight for subsequent water-heating use.
Elements driven by radiant heat provide direct warmth to objects and people within a given space, instead of surrounding air space. Much like microwaves cook more efficiently and rapidly by direct targeting of food sources. Likewise, radiant heating allows lower operating temperatures than conventional methods – without any corresponding loss of perceptible temperature. Undoubtedly, radiant heating and the Tesla fuelless generator will win the race as the home energy wave of the future.