Tag Archives: Matching weak electromagnetic fields in nature

Matching Molecular Magnetic Field of High Explosives in Afghanistan

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High explosive munitions in Afghanistan – 3rdID8487 military videos


The area-specific molecular magnetic field of an assortment of high explosive munitions shown in the photograph was matched from a 2010 video of U.S. Explosive Ordnance Disposal (EOD) technicians of the 717th EOD Company, Fort Campbell, Ky. You can view the video here.

One day in the not too distant future, scientists will acknowledge that the weak magnetic field of molecular structures can be replicated either directly by hand or indirectly via sound recordings. I have written numerous articles at this site on how this can be accomplished and have given examples that can be explored and analyzed. Biological systems can be matched in the same way. This is possible 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 effect on the body. Eventually researchers will develop the tools to validate what I am sharing with you today.

There is a treasure trove of information that can be gleaned from audio recordings that offers detailed information about area-specific weak molecular fields that can be analyzed by devices tuned into this information. The electromagnetic field from the audio coil in your speaker is replicating this weak field that is frozen in time as an archived audio recording, but there is no reason that a live audio stream cannot be used as a tool for remote real time analysis.

Recorded audio captures area-specific weak magnetic fields in nature. The reason is, it is capturing the background- underlying sound of the atoms vibrating in that area. They are vibrating in a unique way according to how the molecular structures are aligned. In the case of an audio recording, it is the aggregate field that is being captured. The recording when played back not only makes the audible mechanical sounds that we all know about, but also the electromagnetic field emanating from the electrical coil in your speaker is replicating the area specific-weak magnetic field. This replicated field can be extracted and matched. I do it manually.

Here is the molecular field match for the high explosive munitions extracted from the video as a mp3 audio file.

Twitt

Describing the Molecular Structure of Emerald as an Electromagnetic Field

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Emerald at wikipedia

The molecular structure of minerals such as emerald can be directly matched as a designer compound electromagnetic field. This designer field will have a similar beneficial physiological effect on the body as holding the mineral emerald in your hand or wearing it as jewelry.

It is common knowledge that there are numerous web sites, books and articles devoted to the healing properties of rocks and minerals. Though much of the information may be exaggerated and/or incorrect, my view is that the molecular magnetic field of certain natural occurring minerals such as emerald have a positive physiological effect on the body. This weak field effect is the basis of my work at this site where I match molecular magnetic fields as designer compound electromagnetic frequencies. You can listen to or tune material to the designer frequency. Learn more about tuning on the “Sample Frequencies” page.

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 effect on the body and most likely other biological life.

I am in agreement with those writers who say that holding emerald has a calming, loving and nurturing effect on the body. One is simply interacting with its weak molecular magnetic field. You can watch, “Emerald – Matching the Molecular Magnetic Field” here.

Twitt

Mars Curiosity- Replicating the weak field at Gale Crater

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Artist concept of Mars Curiosity - NASA

Today is a special day of celebration as NASA’s Mars Curiosity was launched into orbit and performed a flawless separation on its way to Mars for an August 2012 landing in or near Gale crater. Watch separation video.

Mars Curiosity separating from upper stage Centaur rocket NASA

In advance of the August landing, the weak area-specific molecular field of Mars can be replicated (what it feels like) by matching a Mars meteorite directly or extracting the field from an audio recording similar to the one made by the descending Huygens space probe on Saturn’s moon Titan. 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 effect on the body and most likely other biological life.

Unfortunately, the scientific community has not recognized the value of audio recordings for extracting these underlying weak fields. None of the Mars rovers were designed with microphones. This leaves us with matching the field of Mars meteorites for a close approximation of what Mars feels like. I extracted the weak field from a video of Mars meteorite ALH84001. This was a little tricky as only a short segment of the video had live audio near the specimen. Even so, I was able to make a good approximate field match.

Curiosity Landing Site at Gale Crater- NASA

If you were at Gale crater with the Mars rover Curiosity, this is what the area-specific field (composite molecular structure) would be similar to. This is a replication of Mars as a designer compound electromagnetic field emanating from an audio coil. You can recreate this field either by playing the mp3 audio file or by tuning material such as a glass, silicone wristband or inexpensive magnetic tape. Learn more on tuning material here.

Mars area-specific weak field replication

Twitt