Introduction: How to Make a Free Energy Device Which Clones More Electromagnetic Waves.

Picture of How to Make a Free Energy Device Which Clones More Electromagnetic Waves.

Pure resonance is the uncanny ability to make more from less.

Step 1: Free Energy Is Not Something Vague Nor Is It Out of the Ordinary.

Wikipedia calls free and unlimited power a constant current source ...

The internal resistance of an ideal current source is infinite. An independent current source with zero current is identical to an ideal open circuit. The voltage across an ideal current source is completely determined by the circuit it is connected to. When connected to a short circuit, there is zero voltage and thus zero power delivered. When connected to a load resistance, the voltage across the source approaches infinity as the load resistance approaches infinity (an open circuit). Thus, an ideal current source, if such a thing existed in reality, could supply unlimited power and so would represent an unlimited source of energy.

And their article on the Law of the Conservation of Energy allows for the non-conservation of energy ...

... systems which are not invariant under shifts in time (an example, systems with time dependent potential energy) do not exhibit conservation of energy ...

BTW, if that quotation sounds horrifically convoluted, it's due to the use of the double-negative: not invariant along with grammatical transposition. So to translate, it would be more clearly stated that ...

Variable energy does not conserve itself over time.

Lightning is a good example of systems with time dependent potential energy since so much of a thundercloud is the buildup of voltage over time. Here is a lightning oscillator ...

Step 2: Lightning Oscillator Movie

Step 3: Anatomy of a Thundercloud

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Step 4: Simulating a Non-Overunity Surge in LTSpice

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We can simulate an electrical surge in LTSpice which escalates its drain made upon its AC source without limit. This is not an overunity circuit since output does not exceed input. We call this type of surge pure resonance according to Prof. Arthur Mattuck of MIT OpenCourseWare.

Step 5: Creativity Plus Intelligence Equals Bliss

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In the dual world of electrodynamic Tao lies the Yang and Yin of growth or decay resulting in the bliss of satisfaction. Our purpose cannot merely be to gain a state of equilibrium, for equilibrium would fail to inspire change. Change is what we want in order to fulfill our bliss. Hence, bliss is not a state of stasis. Rather, it is a constant fate in which change is the duty of our orderly existence.

Step 6: Entropy Is a Closed System

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We can simulate the slow death of a finite power supply within a simple flashlight circuit despite the benefit we derive from its light.

But what can an energetic system close itself to? It can close itself to both: Energy and Intelligence.

Step 7: The Shiva Linga of Pure Intelligence Is Not Limited to Black Holes Swallowing Up the Universe

Picture of The Shiva Linga of Pure Intelligence Is Not Limited to Black Holes Swallowing Up the Universe

To think of material existence as being exclusively composed of energy and matter is to overlook the significance of empty space wherein the lack of stuff allows for the effulgence of Intelligence inherent in space among the molecules of matter. It is this emptiness which is the seat of the creative process for crafting circuits which can self-escalate without any sense for their safe welfare.

Electrodynamic intelligence is called: wave mechanics. Wave mechanics is not some thing. It is an abstraction of the dynamic structure of a wave which we can engineer on purpose with our circuitry. Wave mechanics can destroy a wave or it can clone another one. It can do this, because a wave in not a thing - it is a purpose for which a design is intended for energy to behave within the boundaries of. Thus, wave mechanics can destroy structured waves of energy as well as create wave structures for new ones to become embodied by however many valence electrons are available to temporarily detach themselves from the atoms of copper and iron, etc, within a circuit.

Energy cannot resist the urge to enter into a new wave. A wave commands the presence of energy to give that wave LIFE. Thus, it is not energy which can be created or destroyed. It is the wave which can be created or destroyed.

We have to allow for the limits of the materials of construction within a circuit. Wave mechanics is limitless, but the strength of electron bonds between two adjacent atoms of copper within a wire can only withstand so much abuse before they vaporize their bonds. So, infinite energy - in the real world - is ultimately not possible. Nikola Tesla discovered this by intentionally exploding wires while subjecting them to very high voltages, currents and/or frequencies in pursuit of learning their tolerance for embodying waves.

Step 8: Retroreflectors and Mirrors Are Examples of Intelligent Devices Which Can Modify a Wave

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Wave mechanics allows for the conjugation of a wave such that a beam of light can become retroreflected back to its origin allowing us to see someone, or something, at night. Retroreflection can occur when we shine a light beam directly at a shiny surface, such as: a mirror. This is a perpendicular reflection at an angle of 90 degrees.

But a true retroreflector can send a light beam back to its source regardless of its angle of reflection.

Step 9: The Sabbath Was Not Made for Man. Man Was Made for the Sabbath.

Picture of The Sabbath Was Not Made for Man. Man Was Made for the Sabbath.

Retroreflection is not what simple reflectors of polished surfaces do. A conventional reflector will deflect a beam of light off a reflective surface at an angle, but continue onward away from its source if the angle is not perpendicular (namely, not 90 degrees). This is called a bank shot when playing pool.

From this one example we see that a wave can be trained to do our bidding.

We are not at the mercy of our modern life. We are masters of it (in training ;-).

Step 10: My Apologies If I Am Boring You And/or Belaboring the Point.

Picture of My Apologies If I Am Boring You And/or Belaboring the Point.

I feel a thorough backdrop to my presentation is required due to our general lack of knowledge in which we criticize the wrong things and ignore the right things.

Too many times I've been criticized for breaking some law of physics when in fact I'm upholding the fine print of the very laws used against me in argumentative defense.

One good example - often overlooked - is that I've been criticized for taking advantage of the weaknesses inherent within Paul Falstad's Electronic Simulator.

But my detractors fail to appreciate that I'm limited to the resonance between the simulator's time frame and the resonance of the circuit.

Thus, if my lightning oscillator requires the simulator to operate at a one second time frame (in which mathematical calculations are performed by the simulator each second before plotting movement while it is running), then no one should be surprised since the resonant output of this imaginary device is once every leisurely 15 minutes comprising one of two halves of a 30 minute alternating cycle of polarity.

Step 11: Constant Current Whenever the Load Is Increased

Now, we get to the good stuff: fulfillment of the Wikipedia article I cited at the beginning of this instructable.

Using this circuit:, it is possible to initiate a surge which can power an inductive load (a coil of wire rated at one Henry) provided that the transformer is super-cooled to totally eliminate any internal resistance in its coils. Once started, the amperage on the two inductive loads (displayed in oscilloscopes at the bottom of the screen) will gradually increase unless their growth towards infinity is not accelerated by depressing the switch at the bottom of the circuit.

Opening the switch will reduce the voltage on these two inductors and slow down their rate of gain to previous default levels.

This circuit: represents what happens when the prior circuit, up above, is detached from its aerial and its transformer is allowed to return to normal room temperature.

And this circuit: simulates what happens when the load is increased. The result is that the rate of gain of amperage on the two inductive loads will slow down to a crawl so slow that any gain will not be very noticeable.

Step 12: Silent Partners

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Many of my surge circuits exhibit an excess of voltage by conventional standards of expectation.

Normally, we expect a voltage of around 350 supplied by a fully charged battery pack in an EV running a motor consuming approximately 200 amps when accelerating up a hill. [My example is the RAV4 EV made by Toyota between 1998 and 2003.]

But what we fail to take into consideration is that self-runners are energy systems requiring a more wholistic viewpoint.

It takes a lot of pressure built up behind a dam to guarantee a steady flow of water to turn our hydroelectric power plants. If all we do is calculate the height of the falling water, and disregard the massive pressure behind the dam along with its mass of water, then it's no small wonder that we may become annoyed over a self-running energy system tending to accumulate a lot of electrical pressure (in the form of voltage) before it can even begin to leak a little of this pressure out as a flow of "free" current.

It's easy to amass a lot of voltage within a circuit. This is the only purpose behind a circuit's positive feedback and the ignorant reason for the jealous accusations of "perpetual motion" within a free energy machine's operation.

The only purpose behind the leakage of a little current to power a load is not to give us free energy (not that we don't want that free leakage of energy), but to sustain the constant buildup of voltage without suffering a resonant breakdown inside the circuit. This is the true meaning of ...

You can't have something for nothing.

Thus, free service pays for wealth while wealth pays for self-service.

Just as man was not made for the Sabbath, commerce is not the only way for becoming wealthy. Service free of commerce creates wealth by spurring growth. We call this latter form of self-less service: education to develop our intelligence and improve the wave mechanics of our circuits.

So, commerce is the act of feeding my face while teaching is the act of sharing.

Step 13: How Do You Like Your Energy? Status Quo or Teetering on the Brink of Disaster?

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A flashlight circuit does not require any resonance to light its bulb. But a self-runner does. In fact, a self-sustaining circuit is a very tenuous thing always on the brink of too much or too little energy production. Wildfires, tornadoes, and spontaneous combustion are good examples of how a surging circuit has a mind of its own.

BTW, spontaneous combustion is the result of a surging electrical phenomenon inside a person, or thing, which precedes the oxidative event. Long before oxidation occurs, the electrical surge erupting prior to the onset of oxidation has already spun out of control toward disastrous proportions. Then.... Pfffff! There's nothing left to study.

But through the use of Paul Falstad's Electronic Simulator, I've been able to study these surges by first slowing them down and even stopping the simulation. That helps a lot!

Step 14: The Open Path Is the Secret to Perpetual Motion

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Most people criticize perpetual motion machines, what I prefer to call 'self-runners', on the basis of false reasoning. These non-truths prejudice false observations arising from false outlooks, called: 'policies', entrenched in all of the physical sciences – particularly physics.

Their contention assumes that there is such a thing as a 'closed loop' in every electrical circuit.

The truth is that there is no such thing – ever – of a closed loop. Only open paths exist in all circuits. In other words, any circuit analysis is false if that circuit is not divided up into a composition of one or more branches of open paths.

There are a few reasons for my prejudice against this socially acceptable bias...

  1. Even the lowly flashlight circuit is composed of two open paths encompassing the load – involving a switch and a light bulb – and the battery.
  2. The dry cell battery is already one open path constructed of an oppositional pairing of voltage differences between its two terminals and separated by a specially devised membrane between its two materials. Let's assume, for this discussion, that these two materials are zinc and carbon.

  3. Not until we connect a battery to a load and turn on the switch do we come to appreciate that...

    1. The load can, now, engage a current arising from one battery terminal, coursing through the closed switch and light bulb, and terminating at the opposite terminal of the battery.

    2. But there is another flow of current inside the battery going in the opposite direction between the two terminals. This inverted direction of current-flow will raise the resistance inside the battery towards an infinite value and then suddenly drop to zero resistance resulting in a battery which has shorted itself out. If this were a rechargeable battery, then the presence of a short will permanently cancel our ability to recharge this battery. This battery is destroyed. We must throw it away. All the best 'reconditioners' on the market cannot possibly recover this battery from this self-induced oblivion.

My point is that only this latter analysis of a simple flashlight circuit does justice to it (in a very practical way) and to electrodynamic theory. For if we were to take the erroneously, ambiguous view that a simple flashlight circuit is a closed loop, then we would be derelict in our duty to maintain the health and welfare of the battery to which this circuit depends on.

Step 15: Perpetual Motion Cannot Sustain a Circuit

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Either a circuit is running itself up towards infinity or else it is diminishing itself downwards toward becoming a 'dead' circuit. Either way, it cannot sustain perpetuity while engaging in a state of motion at the same time. This motion may be fast or slow by whatever standard we wish to judge it by.

Technically, we could say that even these two choices of escalation or diminishment can be considered two possibilities for perpetual motion to occur within a circuit.

The problem, for all practical purposes, is that when the circuit runs out of 'juice', it'll stop its perpetual motion. Oops...

And when it fries itself at some point, or blows up a component, or melts the insulation covering its coiled windings resulting in a short followed by either a surge escalating it even faster or else deadening the circuit to zero motion – either way, we've ruined the circuit by allowing this motion to perpetuate itself toward oblivion.

Not very useful unless the circuit is regulated by a clock timer or semi-regulated by the user.

Step 16: Newton's Cradle Is a Fine Example of the Conversion of Transverse Waves Into Longitudinal and Vice Versa.

Picture of Newton's Cradle Is a Fine Example of the Conversion of Transverse Waves Into Longitudinal and Vice Versa.

A classic example of transverse waves on either end of this rocking cradle-action; and longitudinal waves among the spheres (in the middle) translating into each other due to the lack of freedom of movement, or abundance of restrictive pressure, in the central spheres.

A longitudinal wave is a shock wave which does not have to travel through its compressed medium (tsunami). Instead, it merely need resonate with the compressed medium, to avoid deflecting off of it. The compressed medium will move on behalf of the wave which it has absorbed. This is why longitudinal travels faster than transverse. It is the field of compression which moves, not the transverse wave which that field has absorbed. Transverse waves have room to wiggle..... So, they do so at both ends of Newton's Cradle. Yet, it is this ability to wobble, or wiggle, which allows for the loss, or dissipation, of momentum among transverse waves. The compressed field of central spheres, in this example of Newton's Cradle, have no where to wiggle and thus cannot dissipate energy. They must pass all of it along without displaying any behavioral indications of possessing any energy of their own. Thus, they remain motionless. Yet, we know the energy has passed through them, or how else can the sphere on the opposite side rise up as well as the first sphere has done?

Shortcut URL for this very important illustration of wave translation...

Step 17: No Thing of Substance or of Energy Travels Along a Wave. Information Is Not a Thing. Information Is Timing to a Wave and an Abstraction – an Idea – Which Travels Along the Length of a Wave.

It's true: we have an electric and a magnetic field each at right angles to each other oriented along the length of a wave – as in the case of a copper wire. But the energy of both the electric and magnetic fields are rising and falling within each atom of copper in a wire – not down its length. Timing is traveling down the length of a piece of wire just like precise timing travels around a stadium filled with people who agree to 'do the wave'. And this correct timing is the product of each individual keeping track of what's happening around them. This implies that electron volts are not the only cause of electric waves traveling around the nucleus of a copper atom. A kind of elementary consciousness resides in each electron keeping track of its neighboring electrons. How can this be?

Valence shells unite neighboring copper atoms by sharing electrons. And these valence shells are the source of all of the energy in a circuit in addition to: the iron atoms in a permanent magnet or the iron core of a coiled winding, plus the dielectric in any capacitors, plus the insulation around the surface of the wires, plus any ionic buildup of charge in the immediate environment, etc. It is this web of energized matter which constitutes a collection of intelligence due to its interconnectedness and the ability of each energized particle to respond to its environment of other energized particles.

Transverse waves and longitudinal waves are a byproduct of the collective activity of all of the energized matter in and around a circuit. And this collective activity is a byproduct of individual particles of matter interconnected and responsive to each other.

For example...

A transverse wave traveling along has a momentum and a frequency which will tend to remain unchanged unless acted upon by internal forces since there are no outside forces of any wave. All waves are an interconnected composition of smaller waves. And inside each wave are the particles of matter which 'feel' the collective activity of all of the other particles of matter comprising the entire composition of waves. This 'feeling' is the responsibility of each particle to correctly time its surges and diminishments so as to successfully participate in a wave traveling through it with correct and accurate timing.

A longitudinal wave traveling through either a compressed field or else through empty space is no different than a transverse wave having to leap across the empty space between any two points along a transverse wave (let's say, between two adjacent copper atoms in a wire). So, a transverse wave is a composition of innumerable longitudinal waves. And although a transverse wave is usually considered by us to complete a closed loop extending around a circuit (such as a simple flashlight circuit), any transverse wave can be broken down (for analysis) into innumerable longitudinal waves - each of which are open paths with a definitive beginning and a definitive terminus.

It is these open paths of each longitudinal wave which have the capacity to redefine the larger transverse wave which the smaller longitudinal wave is a mere part of. This is due to the fact that it doesn't matter what the internal composition of either a compressed medium, or else empty space, is made of.

For instance, in Newton's Cradle, there can be as many spheres from one to infinity and it'll still work the same. Yet, the potential for affecting the outcome is tremendous.

Think of selecting more than one sphere to lift upwards to begin a swinging sequence. We can do this if we have more spheres in the center to choose from. Now, with more than one sphere lifted up, an equal improvement of momentum will be transferred to each alternating side of free spheres rising up and falling down. This implies that an increase of mass in each atom along a wire, or else the entire collection of atoms making up a coil of wire (such as in a Newman device), will add to the momentum of a transverse wave traveling down a wire. This results in an acceleration of drainage made upon 'conventional' sources of power, such as an AC or DC power supply. This is the simplest attempt at creating a 'free energy' device which fails at achieving overunity in which energy OUT does not (yet) surpass energy IN. Instead, the voltage source no longer controls its loss of amperage. And adding additional loads are not required to accelerate a load's drainage. The circuit, alone, creates this by 'faking' the manifestation of additional loads by becoming its own load far in excess of any additional load which we have attached to a circuit.

I've seen this happen so many times...

Here is a circuit simulation in which increased drainage from the source is far in excess of any gainful output...

In other words, wave behavior in one section of a circuit can potentially dominate wave behavior in any other section of a circuit. A circuit can dominate its source and its load by causing the source to feed an ever rising current to the circuit with absolutely no gain to its load. Or a circuit can replace the source by amassing its own surge of voltage, within itself, to supply the load independent of any source.

The first click of the switch engages this next circuit in an act of draining the source faster than its consumption of energy in multiple loads while the second click of the switch improves output greater than input - overunity and more energy OUT than energy IN - to the point of uncontrollable expansion of gainful OUTPUT...

So, the inverse is just as possible in which the circuit, alone, 'clones' the addition of voltage sources (within itself) improving a gainful output of current, volts and ultimately watts.

Step 18: Consensus Is Not the Answer. Observation Derived From Experience Is.

Picture of Consensus Is Not the Answer. Observation Derived From Experience Is.

Here are two dynamic illustrations, simulated in LTSpice, of how a bypass capacitor may or may not suppress back EMFgenerated by an inductor.

Micro-Cap describes ideal capacitors as being similar to shock absorbers. A large capacitor, of 10 Farads, is labeled C1 in the First Figure. Its oscilloscope trace is in yellow and labeled V(1) in its uppermost pane.

The 0.01 pico Farad capacitor, labeled C1 in the Second Figure, actually enhances back EMF. This is similar to a damped diaphragm discharging an incoming impulse in both directions only once from both sides of the dielectric. This shows up as Giga volt discharges above and below the oscilloscope's baseline of zero volts in the uppermost pane of Second Figure labeled V(1) and traced in yellow.

Compare this to Joseph Newman's device in which a large voltage builds up in his primary coil dissipating some of that charge into its extensive surface area.

My intention in drawing this analogy is to give credit to Joseph Newman for developing a motor that acts like a bypass capacitor of very low capacitance to its immediate surroundings. This serves as the foundation for his primary coil accumulating voltage larger than his DC of batteries connected in series.

If we examine the test procedures of the National Bureau of Standards—{F1} as admitted by them on their website publication of their report—{F2} (intended for the Patent Office to put to rest Joseph's claims of overunity for his device), we find that they short circuited his primary coil by connecting it to their test load. Since the test load offered far less resistance than the primary coil on Joseph's device, and since current follows the path of least resistance, and since Joseph gave accurate directions to the examiners (as well as in his book) on how to connect test loads, I can only conclude that the NBS suffered a lapse in memory of simple electrical theory.

F1. The Energy Machine of Joe Newman Abstracted from an article in the May 1987 issue of Discover Magazine. This is an example of the loss of voltage whenever a HV coil is grounded to Earth by the National Bureau of Standards.

F2. NBSIR 86-3405 - Report of Tests on Joseph Newman's Device, IntroductionThe National Bureau of Standards provided the resistive load which was connected in parallel with the coil. – This is an example of current wanting to take the path of least resistance through a parallel resistive load, bypassing the coil (of greater resistance than their test load) to a significant degree by cleverly shorting said coil to itself and prevent accumulation of HV. Nice going, guys! Had they used a bypass filter between the coil and a grounded path to Earth, and placed their test load inline with the filter, or – in the alternative – perform their test as Newman advises in his book by wrapping a shorter length of secondary coil around the larger primary coil and placing the test load only inline with this secondary and isolated from the primary, then it's entirely possible that the NBS would have produced more accurate results.

Step 19: Revisiting Joseph Newman's Motor

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The secret is no longer a mystery. All of the extra power comes from the rotating permanent magnet acting as a transmitting antenna. The coil is the receiving antenna. Both are mutually in sync due to their regulation by the commutator. The battery pack merely powers the circuit in such a way that the coil can acquire the power from the spinning magnet and retain it. Any excess current is applied to recharging the batteries. Any excess voltage is accumulated and retained by the coil. The rotating magnetic field of the bar magnet is not unlike Tesla's invention which we have come to know as the AC generator/motor. Although people, who consider themselves to be knowledgeable about this stuff, will claim that magnets are not energy sources, spinning magnets are. That's what drives this device - not the battery pack as Newman would have you believe. Thus, this is not an overunity device.

Step 20: Analyzing Open Paths in a 'House of Mirrors' Circuit

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The magenta colored lines above the 720 Farad capacitors draw our attention to these two components which entertain absolutely no amperage, voltage or watts when the browser's cursor is hovered over them while looking in the lower right corner of the blackened canvas to see what their oscilloscope readout tells us.

Yet, a constant current flows from their outer-most node toward their inner-most node adjacent to the top of either side of the transformer which stands between them – as indicated by the solid blue lines.

The right-most flow is in a clockwise direction. The left-most flow is counter-clockwise.

Their flow of current appears to be arising from out of no where and disappearing into likewise suggesting the creation and destruction of energy. But this is not a correct analysis.

Their voltage-oriented waveforms are being constantly created and destroyed, not their power.

These are voltage-oriented waveforms which are created by the circuit at the two outer-most nodes of each of these two capacitors. Since a voltage potential must also contain an amperage to exhibit power, and since we have provided a path for the flow of current, then amperage must enter into these waveforms.

The source of this amperage is not provided by any circular flow. It is provided by a slight conversion occurring from the excess voltage buildup at the outer-most nodes on either side of these two capacitors. The terminus of these two flows of current is where the amperage is converted back into voltage. But since voltage-oriented waveforms are constantly being destroyed, at the terminus of these two flows of current adjacent to either side of the central transformer, there is never any excessive buildup of voltage at these two terminal nodes which could possibly exceed the voltage at the starting nodes. Thus, there is never any self-induced stoppage, nor lessening, nor reversal of current-flow. And thus, there is a perpetual flow of constant current along these two open paths. Voila!

The proper analysis of all currents flowing inside this circuit – some of which are flowing contrary to the direction of flow immediately adjacent to them along the same wire, such as: the other blue lines drawn in my diagram, displayed above – is to imagine that each starting point and its paired terminus of each and every open path of current must have a differential of voltage which propels that current to flow. Thus, a map could be drawn – not merely of current flows, but – of voltage gradients across the entire circuit. Additionally, a dynamic pattern must be drawn, as well, of voltage-oriented waveforms being created and destroyed throughout the circuit. And additionally, another dynamic pattern can be drawn of amperage being converted out of, and into, voltage gradients.

Not all creation of waveforms need be voltage-oriented. The inverse could be amperage-oriented waveforms in the case of Tibor Kemeny's battery swapping circuit and similarly in John Bedini's version of the same concept.

Step 21: Some Places Within a Circuit Are More Favorable for Negative Resistance to Dominate Over Regular Resistance.

Picture of Some Places Within a Circuit Are More Favorable for Negative Resistance to Dominate Over Regular Resistance.

Negative resistance exists everywhere in a circuit. So does normal resistance. They coexist, together. But one, or the other, will appear to dominate at various locations within a circuit as well as at each node in the circuit's layout. I discovered this while studying op amps. There is one location in the circuit, displayed above, which possesses the potential capacity to override the normal resistance of both itself and of every other component in the circuit such that if I alter the value for that resistor and/or place a gas discharge tube there, then the power delivered to the inductive load at the far right escalates even faster than before. But it can also diminish if I leave out the neon bulb and just modify the resistor's value slightly upward.

Step 22: A Diagram for Modifying Resistance in an Op Amp

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This diagram exhibits a couple of options for modifying gain - at the coil to the far right - by way of escalating or diminishing that output and the additional possibility of accelerating either trend. This ability for modifying output is in the area outlined in red. What we do, here, will affect the entire circuit. This is a very important leveraging tool which sometimes lurks, unbeknownst to ourselves, tucked away in a circuit.

Step 23: Epilogue

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How hard can it be to imagine that we have undermined our ability to have abundant joy arising from an indeterminable quantity of energy? Our incentive should be: where can I get the extra energy from? From more atoms of copper in a piece of wire? From more iron in the magnetic core of a coiled winding? From an electrostatic field built up surrounding an electrical device?

Since no energy travels along a pathway in a circuit – only intelligence does that, we literally have energy at our finger tips to liberate from available circumstance to a degree far superior to anything we have imagined up to this point in our history and contrary to both the nay-sayers and the New Ager's – both of whom need to make up stuff to explain away this nonsense.

We clone MP3 files all the time. And that cloning process is only limited by our ingenuity.

How hard is it for us to broaden our view and come out of the Dark Ages of the Malthusian Doctrine of limited resources?

Time is our only limitation. And time can also free us from impoverished resources if we understand time in terms of intelligent manipulation of our circumstance.

Step 24: Shortcut URL for This Instructable

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JeremiahN13 (author)2017-12-06

Can you simplify these for people for laymen following your work and would like build? Do you have plans building the device sometimes?

Vinyasi (author)JeremiahN132017-12-12

Here are two examples of overunity. Enjoy!

Vinyasi (author)JeremiahN132017-12-12

Since my expertise is mostly theoretical, I'd like to steer you in a direction based on real, hard evidence of success...



Lockridge Device


Bedini Tape Drive Motor (image, below)

Vinyasi (author)2017-12-06

The best way to answer may be to repeat my answer to someone who asked me...

"hello now i remember  how are you? do you have prototyp who work ? in my country we have electricity 6 hour per day , i need to build some small device who can work with batteries bank ,exemple small generator charge battery bank when batteries is full generator stop and when battery is low generator start this my idea ,maybe you have some best idea thank"

My answer was...

All of my circuits are simulations. I have no expertise in building anything. Nor do I have any training. So, if these simulated circuits give you an appetite for more information, then I have fulfilled my purpose. Unfortunately, I am not the one to satisfy you.

My suggestion is to show as many of these simulations that involve the charging of a battery to someone who has actual experience in building circuits to see if any of these simulations might give him/her ideas on how to proceed.

Some of these simulations may not have a battery being charged, but that's not to say that a battery could not be inserted into it.

If I may suggest a few to start, try looking at ...
... and be sure and click on the 'Circuit Information' button in the upper right corner.
... is another to look at similar to the one above. The difference is that the former charges merely one battery at a time in rotation like you suggest while the latter charges them all at the same time.

Those two circuits, above, are fed by an AM receiver. I have no clue how to build that. I use them in the simulation since they give a more regulated input/waveform then the antenna below ...

Take a look at ...

These antennas feeding these latter circuits imply a very large massive structure since their contribution is 15 to 20 volts AC.
... is an interesting circuit since it uses no aerial, nor any earth ground. For example, I held down the switch until the amps on the inductor readout down below (far left) read about one amp. Then I toggle any one of two switches in the middle top of the circuit just once to reduce the voltage on the inductor. The inductor, in this phase of the toggle switches, will always be around a factor of 15 times more units of volts than units of amps. But you have to toggle this double pole switch back to its former state to increase the voltage before engaging the clock switch to raise the overall energy of this circuit as noted in the inductor readout. Anyway, at one amp on the inductor, each 6 volt battery is being charged with about 720 milli amps. It's interesting that it's the two and a half volts from the clock timer which supplies power to escalate this circuit to infinite gain - not to sustain it. This circuit slowly loses its power and must be periodically raised back up to your target.

Some circuits maintain their state, but wobble up and down, such as the three aerialcharger circuits.
While others slowly increase, such as the sangulani and battcharvp.

These circuit simulations have been an exercise in training me on how to think idealistically about electrodynamics. Paul Falstad, the author of this simulator, admits on his webpage devoted to the 'ideal transformer' that such a thing does not exist in the real world.

BTW, I used this last circuit of Paul's to fabricate a slowly escalating, surge-oriented circuit of my own. When I emailed him asking about it, he wrote back that there was probably something wrong with his simulator. I don't know, but I tend to think not since both his and mine are idealisms.

These last series of battery chargers may not be easy to build to test ...

The second half of your comment could be interpreted two different ways. I'll try and answer both...

Do I plan to build any of these circuits? Well, I certainly desire to, but lack skills, training and money. Simulating costs me nothing or next to nothing.

Do I have blueprints? That a lay person could understand? Well, I'm an idealist trying to understand the fundamentals of electricity by exercising my ability to design experimental models.

Remember Einstein and his thought experiments? These are likewise intended to stimulate more thinking well before getting around to building anything.

These circuits are wild stallions. They are not pussy cats. They have a mind of their own and are thus a risk to anyone who builds them that they might get out of hand and burn up - fry - any one of your components time and time again until you figure out how to prevent that from happening. Free energy is not an existential problem. Nor is it a fraud, a fantasy, or a con job. But it is scary outside the safety of simulations if you're not already "skilled in the art" as JohnBedini liked to quote from the language of patent attorneys.

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Bio: Free energy researcher.
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