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What you are about to see may seem a bit strange. However, that strangeness will deepen as you reflect on concepts defying that which the scientific world sustains.
If only a Voltmeter is employed to analyze a circuit's events, the entire picture is somewhat obscured. Now consider the proposition that you have all the familiar meters and it is discovered that there is a particular event introducing a potential scene for an energy that is not being detected by traditional meters.
Such concepts enter us in a realm where, even though it is sustained by scientific experimentation, it is also ignored by those in science who are more devoted to position than truth.
Once an individual reads of another's success in finding an 'unknown energy,' or witnesses an event which releases unknown results that can be replicated, that individual is at a new door that has not been authorized by science's authority.
Welcome to a journey that sets you apart from the accumulated wisdom of the world and places you in a realm that reaches beyond what science is willing to accept.
Faraday related the rate of magnetic field flux change with the induced instantaneous voltage.
Self-induction and high permeability
Magnetically induced voltage can only occur when Magnetic field flux is changing.
Magnetic fields affect the alignment of electrons and cause a force to develop between them. Field force is the amount of push over a distance (Voltage, or 'v'), and force can be present in empty space. Field flux is the quantity, or effect of force through space (Current, or 'i'), and cannot exist without electron motion.
The shape of a coil determines the strength, performance, and other characteristics of the magnetic field. Energy storage in an inductor is related to maintaining an amount of current. To release energy, current must be decreased, (ie.. a decrease in field strength and an opposite polarity Voltage drop). If power is applied to an unmagnetized inductor, there is an entire Voltage drop. As Current begins to flow, the magnetic field increases until Current reaches a maximum energy level.
The 6 v battery will not power the neon lamp, which requires a minimum of 70 v. When Switch 1 is opened, there is a large resistance causing a current decrease. The induced instantaneous voltage lights the lamp.
Turns are related to magnetic field flux forces.
Greater coil area presents less opposition to magnetic field flux for amp-turns
Longer paths for magnetic field flux result in greater opposition to the formation of amp-turn flux.
Greater magnetic permeability results in greater amp-turn field flux.
I can actually take my Fluke meter and touch the negative lead on a magnet's surface and, with the positive lead not touching the magnet's surface, I can find a 'sweet spot' where there is a highest Voltage reading. This process has been done with several types and shapes of magnets.
In a conversation with Norm, one of John Bedini's associates, He spoke of convincing a College professor that there was energy present in a magnetic field simply from the perspective that when you placed a magnet on a vertical piece of metal it was actually overcoming gravity. It is a simple process to weigh a magnet and determine how much energy would be required to prevent it from falling to the ground. The professor never liked Norm.
If energy is being wasted, and a part of that wasted energy is being reclaimed by placing an opposing polarity battery in series with a load powered by 2 of the same type of batteries in series, is the degree of efficiency being increased if the batteries mysteriously charge themselves?
If energy is being wasted, and a part of that wasted energy is alternately being reclaimed by one set of two recharging lower Voltage batteries in parallel, which are established as being charged by the other set of two batteries in series for this half cycle. The switches then reverse the conditions of the two sets such that the series set becomes parallel and the parallel set becomes series, within a cycle where the two sets of batteries are alternatively switching between these two states where an opposing polarity battery is in series with a load powered by 2 of the same type of batteries in series. Is the degree of efficiency being increased if the batteries charge themselves to any degree?
In this particular design, which was drawn from what I surmised from the original drawing, power is being bled off by capacitors after the charging has taken place.
I took the liberty in this rendition to pull power directly from the two batteries which are in operating in series. The output capacitors are still employed, but may be more of a nuisance than productive.
This is similar to the previous schematic, but neither the output capacitors or the bridging output are present.
This design varies from the first schematic in that there are two negative diodes on each set of batteries interconnecting the two battery sets.
My rendition of the Brandt design.
In this particular design I took the liberty of mixing the two designs.
This version does not go back to the original Brandt design, but uses upper and lower switches to tap directly into the batteries for power out. Perhaps it needs two diodes added to the center of the lower switch?
and another internet user offers the following as their understanding of this device.
Make no mistake. You can see by the accompanying oscilloscope depiction that there is a sharp Voltage spike. For those who are unfamiliar with transistors, the transistor in this schematic is acting as Switch 1. The Voltage spike is occurring when the transistor Switch is opened, just like I have portrayed in the beginning section. Consider the potential, pun was intended.
E-mail Questions or comments.