Updated: March 13, 2025

Introduction Video: Music of the Spheres

Original Document: Google Doc Link

Warning

Please do not do these experiments unless you are a trained professional or are with a trained professional. This coil has been known to output extremely high voltage under the right circumstances. This guide serves as a documentation of my work and establishes a way for researchers and engineers to try and replicate my results. Please be safe and don’t do this if you are unsure of your abilities to do these experiments in a safe controlled environment.

This guide is a work in progress and might need some revisions or additions.

Public Domain Dedication – No Patents Allowed!

The following technologies are hereby dedicated to the public domain under the CC0 1.0 Universal (CC0 1.0) Public Domain Dedication:

• The Lightning Thief(Modified Joule Thief Circuit)
• The Green Machine Pulse Motor
• The Lumin Lamp with swappable coils
• The Resonance Relay extension wire(Wire with high speed UF4007 diode)
• The Paradox Box(N/N glued magnet with bifilar coil wrapped around)
• Beneficence TV Vortex Coils
• Fusion Coil
• Caduceus Coil

By placing these works in the public domain, we affirm that anyone is free to use, modify, distribute, and improve upon these technologies without restriction. No patents, trademarks, or other exclusive rights may be claimed on these designs. These innovations are meant to remain open-source and freely available to benefit all.
No Patents Allowed. Any attempt to patent or restrict the use of this work is against the spirit of open innovation and will be publicly challenged.

For more information, visit the Creative Commons CC0 page.

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Preliminary Research for Phase 2

Original Document: Google Doc Link

It includes an indepth look along with extensive details of explaining the ideas behind the Bedini SG to a general reader.

Testing the ZPE Generator with a Bedini SG.

Phase 2 testing was planned as an effort to combine two very easy and
common free energy devices into one simple design that could be utilized for practical applications in energy generation and battery desulfation(Rejuvenation of a dead battery).

Update: We have since pivoted and put the bedini circuit on the back burner for now as we have been focusing on a modified Joule Thief circuit that has been showing promising results).

Background on Desulfation

John Bedini referred to the process of restoring a dead battery back to life as desulfation.

• Over time, lead-acid batteries can accumulate lead sulfate crystals on the battery plates, a process called sulfation. This buildup prevents the battery from holding a charge effectively and can make it seem "dead."
• Bedini’s battery chargers used pulsed energy to break down these sulfate crystals, restoring the battery’s ability to charge and function properly. This process is known as desulfation.

The Bedini SG Solid State circuit is essentially a system designed to charge batteries and extend their life using pulsed energy.

Bedini SG Solid State Circuit Breakdown

1. Pulsed Energy: The Bedini SG circuit works by sending sharp pulses of energy into a coil. This pulsing creates a magnetic field in the coil, and when the pulse stops, the magnetic field collapses. The collapsing field generates Back EMF, which Bedini referred to as radiant energy.
2. H-Wave Pulse: The H-wave pulse is the specific type of energy spike that Bedini described as being different from conventional electricity. It’s this H-wave that comes from the sharp collapse of the magnetic field, and it represents a burst of radiant energy. This pulse doesn’t behave like regular electricity (which faces resistance) but is instead harnessed as a powerful, quick energy burst.
3. Why it’s Important: The H-wave is the key to capturing this radiant energy from Back EMF. Rather than wasting the Back EMF, the Bedini circuit captures the H-wave pulse and feeds it into the battery. Bedini believed this was a form of energy that could rejuvenate batteries more efficiently than conventional methods.
4. Desulfation: The sharp H-wave pulses help break down the sulfate crystals (sulfation) on the battery plates. As the battery receives these rapid pulses of radiant energy, it not only charges but also rejuvenates by clearing the sulfate buildup that prevents it from holding a charge.
5. Solid State: In the solid-state version of the Bedini SG, all of this happens electronically, without moving parts (as opposed to some of his other designs that used motors or a flywheel). The coil and switching transistors in the circuit create the pulsed energy, generating the H-wave, which is then applied to the battery.

In simple terms:

• The H-wave pulse in the Bedini SG Solid State circuit is a special burst of energy created when the magnetic field around a coil collapses.
• This radiant energy pulse is captured and fed into the battery, where it not only charges but also desulfates the battery, helping to restore it.
• The whole circuit uses these radiant H-wave pulses to rejuvenate batteries, making them last longer and even reviving dead ones.

So, the H-wave is crucial because it represents the form of energy that Bedini believed could efficiently charge and desulfate batteries without the typical resistance or energy losses of conventional systems.

Below you can see the comparison of my wave at a higher resolution to John Bedini’s diagram below. Mine is on the inverse axis. This is a zoomed in resolution of the waveform.

Zoomed out waveform:

At first glance it appears to be similar to Bedini’s H wave. However, upon further inspection it is a partial H wave and is incomplete. Close, but not exactly what we are looking for.

Lets learn a bit about John Bedini’s theories of Back EMF and this H-Wave.

John Bedini H wave and Back EMF

The H-wave is a concept John Bedini used in his energy work to describe a specific type of electrical waveform. In simple terms, it's a pulse of energy that behaves differently from the standard waves (like sine waves) that are typically used in electrical systems.

Here’s a breakdown of what the H-wave is about:

• Unconventional Energy Flow: Instead of just flowing like a typical alternating current (AC) or direct current (DC), the H-wave involves a kind of sharp transient energy spike that Bedini believed could capture or release more energy than usual systems do.

• Radiant Energy: Bedini associated the H-wave with “radiant energy,” a type of energy he claimed could be harnessed from the environment. When the H-wave occurs in his systems, it supposedly allows the device to draw in extra energy from an external source, like the vacuum or the environment, which isn’t fully accounted for by conventional science.

• Energy Efficiency: Bedini's idea was that the H-wave could help his systems achieve what’s called over-unity (where the output energy seems to be greater than the input energy). He used this waveform to make devices like his battery chargers more efficient by pulsing energy in a way that was different from traditional methods.

In short, the H-wave is a type of pulse that Bedini believed could tap into hidden or unconventional energy sources, leading to more efficient or even excess energy production.

In John Bedini’s theories, he saw Back EMF (Electromotive Force)—which is typically regarded as a wasted byproduct in conventional systems—as a source of radiant energy. In standard electrical engineering, Back EMF is something to be grounded out or minimized, as it usually opposes the current in a circuit and causes energy losses, particularly in motors and inductive loads.

Lets take a look at a simple BREAKDOWN of Bedini’s approach to circuits:

1. Back EMF = Radiant Energy: Bedini viewed Back EMF not as waste but as a form of radiant energy that could be harnessed. He believed this radiant energy came from the environment or the "vacuum" (what some refer to as zero-point energy).

2. H-Wave: The H-wave in Bedini’s systems is the manifestation of this radiant energy, particularly in the form of sharp pulses or spikes that occur when a coil (like in his motor or charger designs) is pulsed in a specific way. Instead of grounding out this energy as waste, Bedini designed circuits to capture and recycle it.

3. Harnessing the Energy: By using techniques to capture these Back EMF pulses, Bedini believed he could increase the efficiency of his systems, achieving what some would call over-unity (output energy greater than input energy). In practice, this meant using the sharp spikes of radiant energy from Back EMF—the H-wave—as a driving force for his motors or to charge batteries.

The Gist

In summarizing most conventional systems waste Back EMF by grounding it, but Bedini saw it as a valuable form of radiant energy, which he called the H-wave. He built systems that could harness this energy rather than dissipating it, which he believed led to greater efficiency and potentially the tapping of additional energy from the environment.

BACK EMF in CONVENTIONAL SCIENCE

In conventional science, Back EMF (Electromotive Force) is a voltage that opposes the current in a circuit. It happens mostly in devices like motors and coils, especially when there’s a change in the flow of electricity.

Here’s an analogy to make it easier:

Imagine pushing a child on a swing:

• When you push the swing, it moves forward, and your push represents the electrical current flowing in a circuit.
• However, as the swing moves forward, it naturally pushes back against you a little—that's like Back EMF.
  *Similarly, that slight hang time when you throw a ball high in the air and it hovers just before gravity sets in, is also analogous to finding the zero point in your system. Where it is unaffected by the weight that it carries. Thanks to Victor Sears for this analogy.

In simple terms:

When you run electricity through a motor or coil, that flow of electricity creates a magnetic field. When the motor or coil stops or slows down, that magnetic field collapses, and this collapse generates a reverse voltage (Back EMF). This reverse voltage pushes against the direction of the current, making it harder for the current to keep flowing.

• In motors: Back EMF happens as the motor spins. The faster it spins, the more Back EMF is generated, acting as resistance to the power that’s driving the motor.

• In inductors and coils: When you suddenly cut off the power to a coil (like turning off a switch), Back EMF is generated as the magnetic field around the coil collapses. It’s like the energy trying to "push back" as the flow of electricity changes.

Why does it matter?

• In many systems, Back EMF is seen as waste energy, and it can even damage circuits if not handled properly.
• Conventional systems often ground it out or use components like diodes to prevent Back EMF from causing problems.

In summary, Back EMF is an electrical "kickback" or resistance that occurs when the flow of electricity through a motor or coil changes.

My assessment

When you pulse a coil, the rapid change in the electrical current flowing through it creates a magnetic field. As soon as you stop or change the current (like turning the pulse off or AC), that magnetic field collapses, which generates Back EMF—a voltage that opposes the direction of the original current.

Here’s how it works step by step:

Current flows through the coil: When you pulse electricity through a coil, it creates a magnetic field around it.

Pulse turns off: When you suddenly stop or reduce the pulse of current, the magnetic field around the coil begins to collapse.

Collapsing magnetic field generates Back EMF: As the magnetic field collapses, it creates a reverse voltage (Back EMF) in the coil, pushing against the direction of the original current. This happens because of Lenz's Law, which says that the induced current will oppose the change that caused it.

When coils are pulsed, the sudden change in current causes Back EMF, and that Back EMF opposes the original flow of electricity.

In most conventional systems, Back EMF is considered a nuisance, but Bedini sought to harness this Back EMF (and its radiant energy) instead of letting it go to waste.

Conventional Science (Lenz's Law)

In regular electrical systems:

1. Lenz's Law: Whenever a magnetic field is created by a current, and that magnetic field changes (such as when you turn the current off or change its direction), it induces a Back EMF (a reverse voltage). This resists the change in current that caused it.
   • Think of it like a brake or resistance that tries to "push back" when you try to change the flow of current.

Bedini, Dollard, and Tesla's Ideas (Radiant Energy and Aether)

1. Aether and Radiant Energy: In their theories, they often referred to an unseen medium called the aether, a sort of invisible energy field that surrounds everything.

   • When you pulse a coil and the magnetic field collapses, they believed this collapse could interact with the aether, generating what they called radiant energy or cold electricity.
   • This is different from regular electricity (hot electricity) because it behaves more like a flow of potential energy rather than current with resistance.

2. Back EMF as Energy to be Harnessed:

   • Instead of treating Back EMF as resistance or waste (like conventional science does), they saw it as valuable energy.
   • When you pulse the coil and the magnetic field collapses, the Back EMF (which they consider as radiant energy) is not resisted if properly captured, because this energy comes from outside the conventional electrical circuit—it’s interacting with the Aether.
   • They claimed that this radiant energy doesn’t face the same kind of resistance that normal electrical current does in wires because it’s a different form of energy (more like potential energy or voltage spikes) that moves quickly and freely, rather than through conventional resistance-causing current. Like Nathan likes to say. It's just pure potential.

Why No Resistance with Radiant Energy?

• Normal Energy (Current): When current flows through a wire, it faces resistance because electrons bump into each other and the material of the wire. That generates heat and wastes energy.
• Radiant Energy (Cold Electricity): According to Bedini and Dollard, this form of energy doesn’t face the same type of resistance because it’s more like a potential energy spike that interacts with the environment (the aether). It doesn’t rely on the physical movement of electrons, so there’s no heat loss or regular resistance.
  • They suggest that radiant energy moves freely without the constraints of normal current, which is why it doesn't generate resistance.

Lenz’s Law vs. Overcoming Lenz’s Law

• Lenz’s Law (conventional science): When you pulse a coil, the Back EMF opposes the change and causes resistance.
• Reverse Lenz’s Law (according to Bedini/Dollard): The collapse of the magnetic field in their systems generates radiant energy (Back EMF) that doesn’t cause resistance but can actually be harnessed. They believe that by correctly capturing this energy, you get a boost of energy from the aether without the usual losses that happen in standard circuits.

Summary

1. In Bedini and Dollard's view, when the magnetic field collapses (due to pulsing the coil), it interacts with the aether, creating radiant energy (or cold electricity).
2. This energy is different from conventional current because it doesn’t face the same resistance—it's like a form of energy that just "appears" and can be captured if done correctly.
3. This idea challenges Lenz's Law, where normally Back EMF would resist the current, but in their systems, they claim that they can harness this Back EMF in a way that doesn’t produce resistance, leading to higher efficiency or even over-unity.

-To be continued in part 2 of my DIY ZPE Guide-

How to debug my system:
Test for current on the charge battery by placing 1ohm resistor between positive and negative(replace battery) if you are getting current the system is not working and is leaking current somewhere(Diode, transistor etc):

More on the H wave by Bedini:

Common mistakes with the Bedini Monopole Flywheel:

Geralds Protection Circuit

Signal I get with Protection Circuit(Diode Only)

Custom Bedini SG Solid State Circuit w/ Simulator Link:
(Courtesy of Shanjaq): Falstad Link

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Background Info

The ABHA coil is a variation of the Rodin coil. Marko Rodin likes to call the Rodin coil, “The Flux Ruster Atom Pulsar Electrical Venturi Spacetime Implosion Field Generator Coil.”

While working with Marko, Randy Powell had discovered previously unknown number patterns hidden inside the vortex math number sequences. And the ABHA coil variation was born.

Phase 1 guide was about getting my feet in the water. It had some really amazing insights. However, it was riddled with misinformation and factual errors due to the way I was reading the current. It was not the correct way. Suffice it to say we have corrected these issues and have been getting some remarkable results.

In the world of fringe science, breakthroughs and suppression are two opposing forces. Those who challenge the status quo risk everything to uncover the truth. This guide is the beginning of your story."

Preparation & Materials Guide

(Mark 1 Coil)

Pre-Workshop Assembly Class:

https://www.youtube.com/live/xNm8iIcPt3I

Rodin coil workshop

https://www.youtube.com/live/eLdp7uOhMNA

• Hot glue gun for making the frame

Making the Coil

• for a large 5 inch coil: 1000 feet of any enameled magnetic wire 24 AWG. 1000 feet should give you extra to work with if you mess up like I did on my first go. However my online workshops aim to mitigate these mistakes to save you time and energy on your own setups.
• Zip ties
• Hooked hinges to tie off your wire bundle
  -Tape measure for measuring out your wire
  -Electric drill/screw driver to wind the bundle
• Disposable Gloves
• Electrical Tape
  -Soldering Iron and solder/flux
• Torch for burning the enamel
• small grinder for sanding off the remaining enamel from the leads.
  -Shrink wrap wire insulation and heat gun(Optional but highly recommended to ensure safety and the colors help keep track of your connections)
• Your coil frame. I’m using this one provided by dragnse7en https://www.thingiverse.com/thing:2781132
  • But I recommend checking out some of Jordans frames from alchemical science as well.
    https://alchemicalscience.org/downloads/
• a .15uF 2000HV capacitor for powering with the AC Stereo amp open circuit method. WARNING: This has the ability to produce enormous amounts of voltage and even dangerous amounts of ozone at lower than normal voltages. Be safe!
• At least two true-RMS multimeters. I’m using an HT11A which is great for reading high frequency current and voltage.
• A Amp Clamp is also recommended to read AC. (mine is a PeakMeter PM2018A)
• Get yourself some decent analogue meters as well. Bedini emphesizes analogue is the only way to truly read zero point energy.

To save me some time writing this guide I will post a link to the video I used to help me wind the Vortex coil. There are some minor details, tips, tricks and other information I will be including in my online workshop where I will be doing hands on classes with anyone interested in learning how to properly wind and configure their rodin coil for these purposes.

Poe Coil and how its made(Erica Nunez of 1stopenergies): YouTube Link Archive Link

At the end of the video its a bit confusing but essentially what you are doing is making two channels of 12 connected wires each in series from your 24 wire bundle. This gives you 12 winds clockwise and 12 winds counterclockwise(for the nunez method).

Stereo Amp Receiver method

-Stereo amp receiver to supply the power and control the power level(Any will do with speaker wire output channels, however I am using an Insignia NS-R2001. You can also use a proper waveform generator if you have one available)

• Phone, laptop or wave gen to generate the tones.

(Back of stereo amp)

Ways of hooking it up

How to Measure(Updated Measurement Tutorial Coming Soon)

• Voltage(AC/DC): You want to measure in parallel
• Current(DC): You want to measure in series.
• Current(AC): You want to use an Amp Clamp.

Getting the exact measurements for this type of energy can be tricky. Therefore it is extremely difficult to actually gauge the efficiency of our system until we have better equipment available or have others replicate these tests.

By taking measurements with two multimeters, you can observe how the coil is affecting the signal. You may want to consider taking measurements at different frequencies or with different input voltages to see how the coil responds. A T-RMS(True Root Mean Square) Multimeter is highly recommended due to their accuracy at reading higher frequency voltage.

Setup for strong magnetic field convergence and speaker applications

For this setup we use only a single channel(Although you can leave channel B connected to the load if you’d like. The right speaker out is the positive terminal and is the driving power. This red speaker wire goes to input on channel A of the coil(start of wire). The negative output for the return terminal on the receiver will go to Channel A output/finnish lead.

Increasing the frequency input by 1 hz for bigger coils and 1khz(Suspected) for smaller coils. My big coil amplifies magnetic fields at around 24 hz and produces a VERY strong synchronicity effect with a neodymium sphere at 7hz. I suspect the geometry of the torus and the geometry of the sphere complement each other's fields in just the right way. You can also input another channel from the stereo(Left speaker positive out to channel B input to the coil /negative on output of channel B of coill) to create an even stronger magnetic field.

The coil's ability to create a resonant circuit with the amplifier and tone gen may be what allows it to transfer energy through the circuit. It’s creating a perfect resonant cavity for the energy to “Slide” down the conductor in the path that it wants to go. In my experiment, I’m using an AC tone gen fed into the stereo receiver from my phone(you can use any input you like laptop, phone, waveform gen) to drive the coil, which, when tuned correctly, creates a resonant frequency in the circuit. This resonance may be what allows the energy to flow through the circuit, regardless of whether there is a detectable magnetic field or not. The energy is being “Pushed” at the height of its flow. Right as it starts to slow down, back and forth using a path that it wants to go naturally. The closer you get to this path, the more efficiency you should see. This also makes sense. What is the one defining variable that determines if a conductor can create a ‘detectable’ magnetic field? Geometry. By simply twisting the wire into a coil shape you can create a detectable magnetic field. Why not push this one step further and say lets create a more accurate path for that energy to flow. That is essentially what the Rodin coil is. An extension of what we already know to be true. Geometry is integral to quantum electrodynamics.

It's also worth noting that the Rodin Coil's claims are not universally accepted by the scientific community, and many experts have questioned its validity and functionality. With my experiments I hope to provide valuable insights into the coil's behavior, and it's clear that further research is needed to fully understand its mechanisms. This is where you all come in. We need people to try and replicate my research here. Which is also just an extension of Daniel and Erica Nunez work which has somehow been lost in time.

Common mistakes

One of the most common mistakes I see with the Rodin coil is the assumption that it can operate effectively with a single channel. However, for optimal performance, it requires at least two channels. According to Daniel Nunez, energy should flow clockwise in one channel and counterclockwise in the other, with a 180-degree phase shift between them. This configuration generates two counter-rotating magnetic fields, which interact in a way that compresses and structures the coil's geometry, potentially leading to unique energy effects. He also mentioned the number of winds being significant and that having evenly spaced bundles such as a manufactured VGA cable will and I quote “Change everything”. If you look at Daniels advanced 432 coil it has multiple winds and channels but the wires are all evenly and delicately placed so that they are perfectly symmetrical. Perhaps this asymmetry or imperfection is what causes the ozone byproduct?

Another common mistake is that the wires in your bundle need to not only be twisted but soldered together in series. For my coil I have 12 wires in series for each channel(24 wires total). Although one did break due to microfractures in the manufacturing process that forced me to disconnect one from the second channel to balance the field. This led to my mark 1 coil actually having 11 wires per channel, 22 total instead of Daniels recommended 24. I can’t imagine what kind of efficiency we could get with all 24!

The Nunez patent discusses a coiled wire nest and frame for toroidal induction, which includes a vertically stacked coiled wire nest with identical layers. The patent states that the wire length and configuration of each stacked layer should be identical, and the distance between adjacent coiled wires should be identical.

Bundling the coil unevenly, and creating a loose wire or uneven bump in the bundle may affect the performance of the coil. The unevenness may cause the coil to vibrate or oscillate at different frequencies, which can lead to reduced efficiency or even failure of the coil.

In particular, the unevenness might cause:

1. Asymmetrical current flow: Unevenness in the coil can lead to asymmetrical current flow, which could cause the coil to operate inefficiently.
2. Resonance issues: The unevenness can cause the coil to resonate at different frequencies, which could lead to reduced efficiency.
3. Increased heat generation: The unevenness can cause increased heat generation in certain parts of the coil, which could potentially lead to reduced efficiency.

The unevenness in the coil could cause the coil to resonate at two or more frequencies, which can interfere with each other and prevent the coil from resonating at a single frequency. This phenomenon is known as "multi-mode resonance" or "frequency splitting".

In a typical coil, you would expect it to resonate at a single frequency, known as the fundamental frequency, which is determined by the coil's geometry and the applied magnetic field. However, when there is unevenness in the coil, it might cause the coil to resonate at multiple frequencies, including higher harmonics or overtones.

These multiple frequencies would interact with each other in complex ways, causing the coil to behave differently than expected. In some cases, this can lead to reduced efficiency or even failure of the coil. For example, if the coil is designed to resonate at a specific frequency, but it's actually resonating at multiple frequencies due to unevenness, it may not be able to store energy efficiently. Remember, these coils act as a capacitor and transformer at the same time.

In addition, the interference between the different frequencies can also cause the coil to vibrate or oscillate at different frequencies, which can lead to increased heat generation, reduced efficiency, or even mechanical damage to the coil.

By ensuring that the coil is properly wound and bundled, with identical wire lengths and configurations in each layer, you can help minimize the effects of multi-mode resonance and ensure that the coil resonates at a single frequency. This is why precise control over the coil's winding and assembly process is critical for achieving optimal performance.

If you’re having trouble with your results or having inconsistencies try this:

Measuring the RMS voltage: Use a true-RMS multimeter or a digital oscilloscope to measure the RMS voltage of the AC signal. This will give you a more accurate measurement of the actual voltage.

1. Using a high-impedance input: Try using a high-impedance input on your meter or a separate high-impedance amplifier to measure the voltage. This will help reduce any impedance mismatch and give you a more accurate reading.
2. Shielding the measurement setup: Try shielding the measurement setup to reduce any parasitic capacitance and electromagnetic interference.

Challenge of detecting a single monopole with a spinning magnetic field: With my traditional pole detector(Magnet on a hinge) all it does is spin inside the vortex. This makes it challenging if not impossible to actually tell if the Rodin coil is producing a single monopole as predicted by Daniel Nunez.

Use a different magnetic field detector: Consider using a different type of magnetic field detector that is better suited for detecting individual poles. Some options might include:

• Hall effect sensors: These sensors can detect the presence of a magnetic field and can be used to detect individual poles.
• Fluxgate sensors: These sensors are highly sensitive to changes in magnetic fields and can be used to detect individual poles.

Analyze the magnetic field pattern: Study the magnetic field pattern created by the coil and try to identify the individual pole signatures. You might need to use specialized software or equipment to analyze the field patterns.

Framework for your experiments:

Experiment Design:

Title: Replication Experiment: Vortex Math Coil Design and Energy Transformation

Objectives:

1. To replicate the energy transformation phenomenon observed in the original coil design
2. To investigate the effects of different geometric patterns and parameters on the energy transformation
3. To collect data on the consistency and repeatability of the phenomenon

• A precise replica of the original coil design, with identical dimensions and materials(Or as close as you can get)
• A power source (e.g., AC/DC generator or a variable DC power supply)
• A voltage meter or oscilloscope
• A current meter or ammeter
• Data logging equipment (e.g., data acquisition software, oscilloscope, or multimeter)

Experimental Procedure:

1. Set up the coil replica in a controlled environment, ensuring minimal electromagnetic interference (EMI) and noise.
2. Connect the coil to the power source and record the initial voltage and current readings.
3. Record the voltage and current readings at regular intervals (e.g., every 10 seconds) for a set duration (e.g., 30 minutes).
4. Repeat steps 2-4 for multiple trials, with varying frequencies and connection setups(Ex. Open vs closed circuit configurations).
5. Collect data on the energy transformation phenomenon, including:
   • Voltage and current readings
   • Power output (Watts)
   • Efficiency (as a percentage of input power)
   • Any observed changes in the coil's behavior or characteristics

Data Analysis:

1. Organize and analyze the collected data using statistical software (e.g., Excel, R, or Python) or specialized tools (e.g., data acquisition software).
2. Calculate mean values, standard deviations, and confidence intervals for each parameter.
3. Compare the results across trials to identify trends, correlations, and patterns.
4. Visualize the data using plots, graphs, or charts to help illustrate the relationships between variables.

Control Variables:

1. Ensure that all trials are conducted under identical conditions, with minimal variations in:
   • Coil geometry and materials
   • Power source and settings
   • Environmental conditions (temperature, humidity, etc.)
   • Experimental setup and instrumentation

Null Hypothesis:

1. The null hypothesis is that there is no significant difference between the energy transformation phenomenon observed in the original coil design and the replicated coil design.

Significance Test:

1. Conduct a statistical test (e.g., t-test or ANOVA) to determine if the results are statistically significant at a given level of confidence (e.g., 95%).

Phase 2 Guide

Phase two is the development and implementation of practical applications of the coil for various everyday purposes. We will go over all the information including setup, maintenance and development.

ABHA Coil Research: Phase 2 Beginner’s Guide

Welcome back, fellow explorers! 🚀 In this guide, we’re diving into Phase 2 of ABHA coil research. If you followed the first guide, you know we’ve come a long way since the Nunez Method with the stereo receiver—and we’ve learned a lot (including what not to do). Let’s break it all down in a concise, fun, and easy-to-read way! 😎

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1. The Lightning Thief: Tuning the Coil ⚡

The Lightning Thief is our modified Joule Thief circuit and the key to tuning the ABHA coil for practical use in off the grid lighting solutions. It is used to oscillate a DC signal with a transistor, boosting the voltage significantly while also recycling the Back EMF produced by the collapsing magnetic field. Back EMF is energy that is usually wasted due to its destructive nature. But instead of a Tsunami hitting the forward EMF, by resonating the back emf with the rest of the electricity, it reduces or eliminates the resistance. Allowing the Back EMF to flow freely and be turned into power. Akin to a surfer riding a wave to shore.

Here’s what you’ll need:

Parts:

1. Toroidal BiFilarCoil
2. Modified Joule Thief Circuit
3. Source of power(ex im using 12v 20aH battery)
4. Load to power(.6 watt led lightbulbs and a 40 watt led panel for my setup)

Steps:

1. Build the basic circuit (Link to Tutorial Video: Michel's Modified ABHA Excitation Circuit: | BeneficenceTV)
2. Connect Coil and Battery
3. Turn the potentiometer until you witness the flicker of magic! The Neon Indicator Lamp will start to excite and glow! You should also hear a powerful ‘Humming’ noise coming from your circuit. That is caused by the vibration of the energy at its resonance frequency. When you have selected the proper load to match this resonance you should hear that coming from the actual light source instead of the circuit.

*While any Joule Thief can hum, achieving a humming light source means you've dialed in the circuit to a frequency where it's interacting with the bulb in a resonant way. Indicating peak efficiency and energy transfer! ✨

Tuning tip: Use an oscilloscope to monitor your coil’s resonance and waveform.

What we can accomplish with this method?

1.2 Lightning Thief Configurations 🔧

The Lightning Thief setup is highly versatile, and we’ve developed several exciting configurations(These have not been tested with the open circuit method yet):

1. Dual Thief: Combine two Lightning Thief circuits for increased power output. This setup connects one primary circuit working in tandem with a secondary(Pickupcoil). The primary is used to drive the main ABHA coil and is connected to the source/battery. While the secondary pickup coil is used to capture any extra energy from the ZPE field and is NOT connected to the source/battery.
   • Status: Full functional
2. ThroupleThief: Integrate two other Lightning Thief circuits into a single secondary coil. This multi-circuit setup amplifies the energy transfer, making it ideal for higher-demand experiments. One channel for each secondary from the same pickup coil. Three intricately intertwined Lightning Thief's make for a shockingly fun night!
   • Status: Full functional
3. Micro Thief: Use the Micro Vortex Coil with the Lightning Thief for compact, high-efficiency operation. This configuration is perfect for small-scale, portable applications.
   • Status: Tested but not fully tuned.
4. Green Thief: Pair the Lightning Thief with the Green Machine Pulse Motor setup for energy-efficient pulse generation. This configuration is excellent for systems requiring consistent, low-power pulses. Future configurations may be able to utilize this configuration to ‘close the loop’ with the extra recycled energy from the magnetic rotary. Closing the loop is the holy grail of free energy research and we’ve been trying to figure out how exactly the Green Machine can be utilized in the best way possible.
   • Status: Not tested yet.
5. Lumin Thief: Connect the Lightning Thief to a Lumin Lamp for minimal but functional light output. This setup could demonstrate the coil’s potential for practical lighting applications with low input power.
   • Status: Not tested yet.
6. The Dual Thief Paradox: Using the Dual Thief configuration with the Paradox Box.
   • Status: Not Yet Functional

Each configuration offers unique advantages depending on your goals. Experiment and find the one that works best for your project! 🌟

2. Stereo Amp Board Method 🎶

TO BE CONTINUED

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