Good day folks here is my youtube video demonstrating this concept:
https://youtu.be/hBM6Bw35dbk
In this forum post, we will explore the concept of energy transfer and manipulation using a resonating flat coil and an induction loop. The resonating flat coil is capable of storing and releasing energy in sync with the input signal, resulting in a stronger output signal. Additionally, the resonating flat coil can induce a larger current in the induction loop when placed at a certain distance from the coil, due to the stronger magnetic field generated by the oscillating coil.
It is essential to understand that the energy transfer between the flat coil and the induction loop is a separate process from the input signal that triggers the resonating flat coil. While the input signal sets up the resonant frequency of the coil and causes it to oscillate, the energy transfer between the coil and the induction loop is a result of the amplified magnetic field generated by the oscillating coil.
However, the strength of the output signal will depend on various factors, including the resonant frequency of the flat coil and the distance between the flat coil and the induction coil.
One of the exciting possibilities of this energy transfer is that it can be used to power devices such as a rectifier and battery charger, making the system self-sustainable. By taking advantage of multiple existing energies available to the system for usage that would otherwise be wasted, we can create innovative and sustainable devices.
However, it is crucial to note that the statement that energy cannot be created or destroyed can be misleading. While it is true that energy cannot be created or destroyed, it can be manipulated and converted into other forms. By working together, multiple energy systems can be used to make up for losses from another energy system, and a net gain of electricity energy can be observed. This does not violate any laws of thermodynamics and merely requires us to think a little outside the box.
In conclusion, the resonating flat coil and induction loop provide an excellent example of how we can manipulate and transfer energy to create sustainable and innovative devices. By understanding the principles behind energy transfer and taking advantage of existing energies, we can create new possibilities for energy use and production without violating the laws of thermodynamics.
https://youtu.be/hBM6Bw35dbk
In this forum post, we will explore the concept of energy transfer and manipulation using a resonating flat coil and an induction loop. The resonating flat coil is capable of storing and releasing energy in sync with the input signal, resulting in a stronger output signal. Additionally, the resonating flat coil can induce a larger current in the induction loop when placed at a certain distance from the coil, due to the stronger magnetic field generated by the oscillating coil.
It is essential to understand that the energy transfer between the flat coil and the induction loop is a separate process from the input signal that triggers the resonating flat coil. While the input signal sets up the resonant frequency of the coil and causes it to oscillate, the energy transfer between the coil and the induction loop is a result of the amplified magnetic field generated by the oscillating coil.
However, the strength of the output signal will depend on various factors, including the resonant frequency of the flat coil and the distance between the flat coil and the induction coil.
One of the exciting possibilities of this energy transfer is that it can be used to power devices such as a rectifier and battery charger, making the system self-sustainable. By taking advantage of multiple existing energies available to the system for usage that would otherwise be wasted, we can create innovative and sustainable devices.
However, it is crucial to note that the statement that energy cannot be created or destroyed can be misleading. While it is true that energy cannot be created or destroyed, it can be manipulated and converted into other forms. By working together, multiple energy systems can be used to make up for losses from another energy system, and a net gain of electricity energy can be observed. This does not violate any laws of thermodynamics and merely requires us to think a little outside the box.
In conclusion, the resonating flat coil and induction loop provide an excellent example of how we can manipulate and transfer energy to create sustainable and innovative devices. By understanding the principles behind energy transfer and taking advantage of existing energies, we can create new possibilities for energy use and production without violating the laws of thermodynamics.