Havasu Falls in the Grand Canyon by Mutbka
One of the key insights from my working with weak electromagnetic fields in nature is that the area specific molecular makeup of an area can be replicated by an oscillating electromagnetic field generated by an audio coil. When we generally think of an audio coil as part of a speaker it is in terms of an electromagnet that moves back and forth moving a paper cone to create sound waves. Little thought is given to the electromagnetic field emanating from this coil.
I know this because of a particular pattern recognition ability I have with weak electromagnetic fields. It is a similar process to that of developing the skill of human echolocation but in this case it is the skill of interpreting weak electromagnetic fields and their physiological affect on the body and most likely other biological life.
What is it describing beyond audible noises picked up from a microphone and converted eventually into mechanical sound waves generated by your speaker? Actually something very significant, the microphone is also picking up the area specific weak electromagnetic field that represents the vibrating atoms, in the medium of sound, while in their molecular bonded form. Essentially these “Noisy” atoms are an underlying part of the audio signal. They can be detected and extracted from the electromagnetic field of the audio coil and replicated. These replicated fields have an affect/influence on biological systems. Here is an interesting article discussing the impact of physiologically-patterned weak magnetic fields on the human body. What is also important to understand is that naturally occurring weak electromagnetic fields in nature have similar if not more pronounced effects.
There are weak electromagnetic fields in nature and other planetary bodies that are element/mineral specific, area-specific and regional specific. These weak fields also extend miles out from the surface. There is a unique weak electromagnetic field signature for biological life forms as well.
There are two ways to replicate a targeted weak electromagnetic field. One is via an electrical audio coil-generated electromagnetic field (playing the extracted compound frequencies) and the other is by tuning material with the designer electromagnetic field. The difference between tuning and magnetizing is that the tuning process imprints the new field into that of the host material that is non magnetic. It also enhances the molecular magnetic field of the material. The process is very similar to magnetization in that the material can be re-tuned. However, it will never lose the field enhancement. One way to think of it is creating a weak electromagnetic field in another material that is the same as the original source weak electromagnetic field.
I originally thought that I had independently discovered this tuning process using designer oscillating electromagnetic fields but have recently solved a mystery concerning Nikola Tesla’s work in this area with anodized aluminum, often called Tesla Plates on the internet. He and those he collaborated with knew about this process but had kept it under wraps. My independent rediscovery of how to tune with designer oscillating electromagnetic fields solves this mystery. My work with replicating weak electromagnetic fields in nature may be unique.
Here is the extracted the weak electromagnetic field from this video of Havasu Falls in the Grand Canyon, Arizona. You can play it below as a mp3 audio file for tuning material such as a silicone wristband, glass or anodized aluminum. Remember, we are focusing on the electromagnetic field emanating from your speaker coil and not the down steam mechanical sound waves.
Havasu Falls Weak Electromagnetic Field Replication
For many of you, it will feel like you have just returned to that area.
