I had been an equipment repair mechanic for some time and had to deal with quite alot of electrical solenoids. Solenoids are a simple device, one copper wire is wound around a cylindrical object with a hollowed out center portion within the longitudinal axis of the cylindrical object. That object could be cardboard, plastic, metal or anything that could hold a form with a hollowed center, like a tube. The important part is this copper wire is called magnet wire and even though it appears bare compared to what a person would view as a common copper wire, there is a coating of insulating material, like a paint that shields the bare copper wire, although it is very thin it does insulate the bare copper wires from making electrical contact between one another.
One cut length of copper magnet wire and you have two ends cut opposing one another. Wrap them around the hollowed out cylinder like threads on a bolt and one end will be inside the winding from the first layer and the other end will be at the outside circumference of the copper windings. After you have a dc battery and attach one end of the copper wire that is wound into a "coil", to any terminal from the dc battery- and then connect the other end of the copper wire that is wound in the same coil to the other terminal of the battery, a magnetic field becomes observable.
All of this became very interesting to me as a mechanic in regards to just how powerful these magnetic forces become as a non mechanical translated force.
Through the many years of designing equipment that becomes automated by these "simple solenoids" I ended up being a mechanic on a science team dedicated to working with permanent magnetic domains as well as electrodynamically produced magnetic fields.
So in the early years of equipment development moving more towards using multiple coils to control hydraulic machine functions as well as the old bank solenoid punch card systems a mechanical learning curve had to be hand in hand with the development of electrical solenoids and control systems. The situations that arose in the early days were expensive miniature bulbs in the dash panels of excavators would blow out for some reason so we searched for the answers with the factories using the solenoids. What I found as a mechanic was remarkable, that after electrical voltage is applied to a coil and the coil flows into it the current (amps) that when the negative lead is removed that there is a return spark immediately reversed in polarity and forced out in turns ratio of the electrical coil, i.e. thousands of volts.
The bottom line now in making this LENR perform reliably with high efficiency is going to be a complete more specified understanding of the magnetic domains and what they actually contain. Currently the understanding of magnetism that is available to the general public is not even a starting point to understanding how to stimulate LENR reactions. The fields are not properly portraid in the 2 dimensional vectored field effects viewable as well as not a specified angular polarity relationship to a spherical object is designated. This text is to relay what I have found in experiments that may help a person to better understand the magnetic domain fields of dipoles.
I realize that the above pick is not clear but that's the best it gets for clarity. This as the beginning one, oh yes it developed into a several thousand dollar experiment but here is the first step, proof of concept.
Below is a more closeup pic I took from my phone so it's not to clear. I started with regular old ceramic magnets, low gauss and from radio shack for about 2 bucks each. There about .8" wide and a couple inches long. This was the starting point.
The interpretation of the proof of concept led the finance executive into another investment of aluminum machined out tracks made of multiple different configurations of magnets and angles, about 10k worth of machining many tracks 18" long that could be cascaded to one another.
This experiment here was important due to the observations that magnetic fields can be biased and that a boyancy exists within the magnetic domain of the dipole. These permanent magnets are not really permanent but they are called that so for all praticle purposes we will stay with that terminology for now.
How is permanent magnetism related to LENR reactions?
In physical sciences the "permanent shaped" magnet consists of two poles usually referred to as the north or south pole of a magnet and is not to be confused with the north and south magnetic fields of the earth. The combined fields are called a magnetic domain field and consist of two identifiable poles that I call an IN and an OUT. So I am suggesting flowing elements and perhaps virtual elements in multiple infinite patterns intwined together but somehow bouyantly isolated from each definitive vectored point within a sphere.
The document pdf. Magnetic Mechanics is linked here for the basic physical understandings in a more explained text. Time is simply a vectored position in quantum space so that position of the particle like for example electron which is said to have a negative (-) charge, is it north magnet or low side electricity? On a gauss meter there is two different surfaces like a N+ and a S- so gauss has a direction. Actually you could say one or the other in todays current understanding of magnetic fields in the public sector.
Important to enhance LENR efficiency is the ability to resonate the magnetic domain fields, like a vibration held in resonance with multiple other fields.
PROOF OF CONCEPT - RESULTS - OBSERVATIONS
Magnetic Rail was viewed on u-tube by the lead physicist on the team and the team leader also became interested in it's application to quantum research, so I had to round up 16 regular 2 dollar magnets and I used a couple pieces of wood and glue.
What became interesting was the elasticity and compressability of a magnetic field. The inlet faces were North and the magnets were simply angled and super glued together in a linear array parallel to one another. Another magnet was forced into the north angulated fields of the glued magnets. The magnet facing the in gate was north. The matching fields produced a compression and once the force of the gate fields was overcome the cylindrical sliding magnet would shoot out the exit gate. Facinating!
Ok that's pretty cool wow, zoom right out the end, ok now I am going to every radioshack in LA purchasing every magnet that size available. I ended up with two four foot linear strips of glued magnets, a few hundred bucks just on the magnets and about 10 tubes of super glue. It took a few days to build and the problem with angulating magnets even if they attract together is a nasty binding affect as the edges pass one another so it get's nerve racking when they slide before they set up, very time consuming.
The need to understand these things relates to what the physicists are trying to explain as the coulomb barrier, click here for Coulomb's Law.
THE MAGNETIC GATE
The magnetic gate was coined by Howard Johnson in several of his patent documents. The gate feeling is experienced when two like fields of a magnet are forced together. It almost feels like a mechanical compression spring that loads heavier as the distance between the fields becomes 0 and begins to compress, but not mix together.
So this gate is produced by the two faces (N) at the entrance of the 1" wide X 1" deep wooden guide centrally located within the longitudinal axis of the magnet rails on the right and left side of this guide. The proof of concept as pictured above is simply a one plane device and the guide could become a tube if the magnets were displaced around the channel but in this crude experiment only a couple observable facts generated interest in several other experiments and then into a three month vector graph on the different types of geometry a cut magnet could produce affects onto object metal. Object metal was coined in these experiments but later on as we progressed in understanding regarding the affects of a magnetic domain. Object metal is the target and does not retain a magnetic field naturally it seems to always attract to either pole of a magnet.
In this experiment for proof of concept we wanted to find out just how far we could extend the rails and still have the moving magnet shot out of the end gate. The moving magnet shot out like bullet at the length you saw in the pics. What actually started to happen at around a foot and a half in length the center magnet started slowing down and it was evaluated that the friction on the bottom surface was overcoming the force of the gate magnets. So I oiled the wood and it shot out the end but not as fast as before. When I got to two and a half feet long I had to cut a piece of plexiglass and lay it in the bottom of the guide and then the magnet shot out the end again. At three feet I realized oil and plexiglass would not reduce friction of the moving magnet enough to break resistance of the last magnetic gate. A big realization and observation!
The realization was that the magnet had weight and surface area and that friction took over as it was moving through the magnetic domains. The observation was that somehow the moving magnet remained centered even though there was a gap of 1/4" between that moving magnet outer surface and the side walls of the guide rail. It appeared that the friction was largely due to the under surface of the moving magnet and the top surface of the guide channel making frictional contact along with gravity. Also it became apparent that the compression pressure in the entrance gate observed as the two north fields were compressed together netted a threshold point at which the moving magnet "broke through" the gate vector line and furthermore I concluded that compression feeling at the first gate as the only force that caused the moving magnet to propell through the guide, and that there is no apparent extra energy to get through the next gate of the same gauss. The question arose as to how the rest of the magnets contributed, it appeared at the time that somehow a magnet could be held within an axis by some type of other field present that was formed by a geometric assembly of other "permanently shaped magnets".
What I mean by that statement "some type of other field" is to me a different pattern than a polar surface pattern of gauss that is present on each conventionally understood North face or South face of the permanently shaped magnet. My question at that time was that; are these odd fields present on all magnetic domains or is there a combination of permanently shaped magnets producing the odd field patterns that seemed to assist in a central alignment of the moving magnet in the experiment proof of concept magnetic rail.
LENR - knowing what questions to ask and finding the information is more important than knowing any one thing!
In every day life we are affected by various electromagnetic vibrations. These vibrations are called electromagnetic because it took electricity to produce a magnet. Electricity is said to be electrons flowing, so a battery accumulates electrons right! When we try to piece this one together we find there are many assumptions that have been left vague and ambiguous in descriptors as to what the magnetic domain actually consists of.
Within a vectored field or should I say a vectorable field, there are two dimensional assimulations of what is interpreted by the experimenter writer of the explanation of any researchable art form. So there may be some terminology I use in this text that may not be completely like another observer has documented.
In this electromagnetic field artform I had been reluctant to accept the generic term em waves because some people describe our energy emissions from our human bodies as an em wave. In specific I had to really get a grip on the electricity causing a magnetic field, so where is the electric generator inside the human body to cause the magnetic wave, it seems this could be a virtual wave but seems consistant if observed in certain conditions.
So the em wave that biological functions produce is included in the man made electormagetic waves also referred at specific frequencies to, as the RFI (radio frequency interference) or EMR (electromagnetic radiation). In the past the radio wave has been depicted as a two dimensional ring extending outward in an array like a radially displaced boundry from a source point of some type. That's a good general overview but one has to extend that out into a multiple dimension view and ask, what else is happening here?
In simple LENR is an em acoustical resonator. LENR is initiated by an acoustical ramp, the ramp consists of a frequency of expansion and contraction in multiple physical planes simutaneously. All however can be manipulated by the flowing of electrons and the reflections of the photons within a whole body of matrixed vector points associating collisions.
Stimulating photonic collisions or a boundry crossing method that more directs the reflections of the photon, will be a sure way to realise more efficiency in the LENR experimenting process. In the magnetic domain understanding there needs to be a sphere of the size that allows a wall to be produced, like a boundry plane (flat), and the vector points need to be specified in a spherical pattern which pinpoints exactly a position and a potential at that point in the sphere. The point is a location based within a sphere and the potential is the single presence of a polarity at that specific point within the sphere netting a specific quantity and rotational angle of the single pole of the magnetic domain. This illudes to the presence of the highly disputed monopole which in this definition is only a monopole affect in that of having more of that affect on the object metal. The more undefined affect is that within and or on the NAE structures that have been assembled and the p+e chain oscillating within that structure (NAE) of the Target metal which is the base for the fuel (LENR).
How could Acoustics have anything to do with or affect in any way an EM wave?
Good question, but what do you mean when referencing acoustics?
Acoustics are able to take most known materials and disolve from the matrixes they are made up of, and that includes biological things also. These acoustical waves can set up a rotational pattern of suspension waves. These waves are important for either the ISOTAN44 wire "modified" or the usage of the powder metal fuel.
The wire is modified by spraying hot molten metal particles onto a substrate metal wire (ISOTAN 44) while coming from and returning into a frozen sub zero environment. A set of three pressure rollers vibrating at a specific frequency form the exiting frozen product into the roller/vibrator system.
NOTE: This page is currently under construction, the information will be published as time permits.
Following segment: What does Acoustical engineering have to do with a Magnetic Rail using multiple (permanently shaped magnets).