The importance of permanent magnets in the search for effective and sustainable energy solutions has consistently been a topic of discussion.
Because of their allegedly finite capacity to produce energy, permanent magnets are generally rejected by mainstream science as being inadequate for producing power continuously.
This common wisdom is called into question by recent advancements and inventive innovations, which imply that these magnets may be capable of more than what first appears.
This article explores novel applications of permanent magnets in non conventional energy systems that challenge accepted scientific beliefs.
We examine how various systems like the highly efficient motor designed by Robert Adams and the creative design created by Charles Flynn show how magnets may be able to support continuous power generation and improved efficiency.
Through an analysis of these different strategies, we draw attention to the persistent conflict between cutting edge energy technologies and accepted scientific knowledge, raising the possibility that special interests are impeding the wider implementation of these exciting new techniques.
Come explore the fascinating field of magnet based energy systems and their potential impact on power generation in the future.
Knowing Permanent Magnets and Their Potential Power
One common description of permanent magnets is “continuous power source.”
This assertion is predicated on the theory that a magnets poles form a dipole that disturbs the surrounding zero point energy field.
It is claimed that a continuous flow of energy, symbolized by “lines of magnetic force,” results from this disturbance.
A magnet, for example demonstrates a sustained force when it can hold itself up on a refrigerator door for several years.
On the other hand, conventional science claims that permanent magnets are not a practical source of electricity.
This mistrust arises from a lack of knowledge about the best way to use the energy these magnets can produce.
The balanced magnetic fields generated by permanent magnets are the main problem.
It is difficult but not impossible to organize many magnets in a way that breaks this symmetry in order to employ a magnet for power generation.
Robert Adams, a New Zealand inventor, has apparently succeeded in creating a motor that is at least 800% more efficient than ordinary motors.
Basic scientific principles state that such accuracy is unattainable.
Adams released his research despite dangers to his life.
His engine is based on the attraction of permanent magnets and the metal cores of stationary electromagnets, not on electrical pulses.
Here is the operation of the Adams Motor:
Iron cores within the electromagnets attract permanent magnets on the rotor, which causes the drive shaft to revolve and power the motor.
This process is known as magnetic attraction.
Energy Generation: Electricity is generated in the electromagnet windings by the revolving magnets, and this electricity is then utilized to replenish the motors batteries.
Overcoming Drag: To help with rotation, a little electrical current is given to the electromagnets to offset the magnets rearward pull.
Energy Recovery: The back electromotive force Back EMF that results from cutting off the electromagnets power is recovered and utilized to refill the driving battery.
More Boost: By momentarily turning on additional coils surrounding the rotor, more current may be generated, improving the rotors functionality and perhaps raising its efficiency to above 1000%.
In one replication of this approach, for instance, a 32 kilowatt output was produced from a 27 watt input.
The Adams Motor defies accepted physics despite its remarkable performance since it implies that energy from the environment may enter the motor a notion that is at variance with accepted beliefs.
The Adams Motor suggests that free energy is available and plentiful, much like renewable energy sources like solar or wind power, which draw energy from the environment.
However, conventional science is hesitant to acknowledge this.
A separate method was used by Charles Flynn, another inventor to create a motor that used permanent magnets.
He reduces magnetic drag by using electrical screening.
In Flynns invention, a flat wire coil and permanent magnets are combined.
The stator magnet attracts the rotor magnet equally from the front and rear since the coil does not generate a magnetic field when it is not activated.
The rotor may go forward because Flynn balances out the backward pull by turning on one coil while keeping the other one dormant.
Flynns motor uses the least amount of power possible from a typical 9V battery to run at high speeds up to 20,000 RPM.
The power of the motor may be further boosted by stacking numerous magnets and precisely timing electrical pulses using resistors and LEDs.
Conclusion:
In conclusion, despite the remarkable potential and performance of these motors, their underlying theories violate accepted scientific knowledge.
This unwillingness to embrace new ideas approaches to energy harvesting raises the possibility that special interests are impeding the wider use of these technologies, presumably in an effort to preserve the status quo in terms of energy generation and consumption.
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