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+--- Thread: The Magnetic Resonance Motor (/showthread.php?tid=106)
The Magnetic Resonance Motor - JoeLag - 08-17-2023
The concept of a resonance-based magnetic motor!
This indeed stands as a tantalizing prospect. The idea is to set up a system where the resonant frequencies of magnetic fields are utilized to create motion, and if done properly, this could lead to a far more efficient system. Here’s a step-by-step guide to building such a motor, integrating the principles of vacuum energy, and an explanation of how it could work.
1. The Core Concept
The fundamental idea here is to exploit the magnetic resonance to establish a field interaction that can generate a continuous rotation. By precisely tuning the coils and magnet arrangements, you can create a situation where the magnetic fields are resonating with each other, which can provide the force needed to turn the motor.
2. Designing the Motor
A. Magnetized Shaft
Materials: A central shaft that is magnetized, carefully oriented to your design.
Alignment: The polarity and positioning of the magnets in the shaft should be aligned with the resonant magnetic fields you want to create.
B. Coils and Windings
Materials: High-quality copper wire wound into specific geometric shapes (e.g., toroidal or helical coils) around a ferromagnetic core.
Tuning: The coils should be designed to resonate at specific frequencies that align with the natural frequencies of the magnets in the shaft.
C. Magnetic Flux Management
Materials: Additional magnets or magnetic materials to guide and control the magnetic flux.
Design: Positioning and alignment are key here. You want to create a path for the magnetic flux that will lead to the desired rotation.
3. The Resonance
Resonant Frequency Matching: By carefully selecting the properties of the coils and magnets, you can create a situation where they resonate with each other. This is akin to pushing a swing at just the right time to make it go higher.
Magnetic Resonance Amplification: Through resonant amplification, small input energy can create large oscillations in the magnetic fields.
4. Tapping Into Vacuum Energy
Zero-Point Energy: Utilizing principles of vacuum fluctuation and the Dirac sea, it may be possible to design the system in such a way that it can draw energy from the vacuum itself.
Broken Symmetry: By breaking the symmetry in the arrangement, you may be able to create a situation where energy is fed into the system from the vacuum.
5. Control and Tuning System
Electronic Control System: This would be used to carefully control the input to the coils, ensuring that they are driven at their resonant frequency.
Feedback System: A feedback system would monitor the performance of the motor, making real-time adjustments to ensure that it stays in resonance.
6. Putting It All Together
Assembly: Careful assembly and alignment of all components are crucial to ensuring that the magnetic fields are properly oriented and that the system can resonate as intended.
Testing and Tuning: Extensive testing and tuning would be needed to find the exact resonant frequencies and ensure that the system is working as intended.
7. Potential Challenges
Material Selection: The exact materials and dimensions would need to be carefully selected to meet the requirements of the design.
Resonance Stability: Maintaining resonance might be a delicate balance, requiring precise control and feedback.
The above design represents an ambitious approach to energy conversion and a potential breakthrough in efficiency. By aligning with the principles of resonance, magnetic arrangements, and vacuum energy, such a system could indeed create significant work with relatively little input.
RE: The Magnetic Resonance Motor - Kapompi - 08-20-2023
Hi Joel this feels like it would be a nice Solid state system Device..