JoelLagace

Good day folks, Here is the progress with exploring reactive (VAR) power and what it can do at resonance. I explain the details on how to even get batteries to charge with AC. Unlike the trolls that tell me I never post circuit diagrams. You can find the circuit diagram in on my forum at http://typeright.social/forum/showthread.php?tid=371 A memo on fine tuning: Given that both the inductance and capacitance are 70.48 µH and 70.48 µF respectively, the LC circuit is indeed resonant at 60 Hz. To fine-tune this circuit, You can optionally incorporate a parallel vacuum capacitor for small adjustments and a series capacitor for potential impedance matching. ### Verify Resonance Frequency - **Inductance**: (L = 70.48 - **Capacitance**: (C = 70.48 - **Resonance Frequency**: (60 - **Parallel Vacuum Capacitor**: (C should range from 0 to 3.524 µF for fine-tuning. - **Series Capacitor for Impedance Matching**: approx 53.05 uF *This configuration allows for fine-tuning of the LC circuit to maintain resonance at 60 Hz and achieve impedance matching if needed. Concept LC Resonant Circuit: Utilize the high circulating reactive power at resonance. (VAR) Direct Battery Integration: Connect batteries in a manner that allows them to charge without disrupting the reactive power oscillations significantly. Resistive and Inductive Loads: Use light bulbs and other inductive components to balance the load and manage current flow during different parts of the AC cycle. Method: Series LC Circuit with Batteries and Light Bulbs Resonant LC Circuit: L: Inductor C: Capacitor Direct Battery Charging: Connect batteries directly into the LC circuit at points where they can charge during the positive half of the AC cycle and be protected from reverse current during the negative half. Light Bulbs as Loads: Use light bulbs as resistive/inductive loads to absorb power during the negative half of the cycle, thus protecting the batteries. Practical Considerations Voltage Levels: Ensure the voltage levels in the LC circuit match the charging requirements of the batteries. Current Flow Management: The light bulbs will naturally limit the current during the negative half-cycle, preventing reverse currents from damaging the batteries. Tuning: Fine-tune the circuit to ensure that the LC circuit remains in resonance while effectively charging the batteries. Testing and Safety: Start with lower power levels to test the setup. Monitor the temperature and performance of the batteries and light bulbs to ensure they are operating within safe limits. Challenges and Adjustments: Balance: Achieving the right balance between the reactive power accumulation and the load distribution is crucial. Fine-Tuning: You may need to experiment with different configurations and component values to achieve optimal performance. Monitoring: Continuously monitor the circuit's behavior to avoid overcharging or damaging the batteries. By using this approach, you can tap into the reactive power of the LC circuit to charge batteries directly while using light bulbs to manage the current flow during the negative half-cycle. This should allow you to maintain the resonant condition and recover reactive power without the use of rectifiers.

Just some very good information I want to share. To sum things up. One could use this concept to simply tune the windings of an AC motor along with the right X capacitance and simply use the motor drive to spin a high efficiency generator like a washing machine pump. Or any good mechanical generator. You could move on more advanced and build special all in one reactive motor/generators. With special coil windings. forum http://typeright.social/forum

Here I was trying to build a gel cell and found these polymer based just add water beads for decoy and candles. I noticed a chemical reaction by just adding the PEG powder without water. The beads quickly disintegrated into a translucent thin slime. So I doped my magnesium anode plate in this so that it was just a thin layer like it only looked like it was wet. I put the carbon on top and of course at the time dead short so I kept it there. And a few hours later I get all this crystal formation and I can hear it popping and see it expanding out. It's already dry. As I did not add any water to this mix. I tested the cell and it reads 1.6 volts at the time of the video and puts out 13ma and holds under dead short even. It can even run a small motor without any capacitor "tricks" This is 6.5 times more than the cupcake cell. It seems one hour after this video the cell is still active growing and is giving higher voltages of 1.8 volts. Might try to build the John Hutchison crystals cell design with the pipes and doping with this mix instead.

Good day folks. Just an open talk about some of the less talked about Tesla dynamics. Forum http://typeright.social/forum

Good day, everyone! Here’s an update on the power cell I built during a live session. Initially, the cell produced about 6 volts, which after conditioning and drying, increased to approximately 8 volts. I've successfully used this output to charge a capacitor, which I then pulse into large inductive kickback coils. Typically, the kickbacks measure around 24 volts. I can even hear it singing lightly with my ear near the cell! Current!!! For convenience, I employ a digital switch and a transistor to efficiently dump the charged capacitor into the coil, utilizing about 40 mA. However, you could streamline this process by using an automated SCR (Silicon Controlled Rectifier) for dumping directly into the coil. Furthermore, I've demonstrated that when the inductive kickback is routed back to the front bus, there is a significant amplification in the kickbacks, peaking at nearly 140 volts for a few seconds, provided it’s done intermittently. I'm handling this manually for simplicity and demonstration purposes, as continuously running the setup results in shorting out the loop. Implementing another automated system to intermittently dump a secondary capacitor into the front bus would maintain the cell’s operation within its amplified zone. This setup has the potential to charge 12-volt car batteries efficiently.

Good day everyone, Here's an update on my quantum power cells, which incorporate a solid-state PEG (polyethylene glycol) electrolyte mix with a carbon cathode and magnesium anode. After the cells dried properly, I was able to establish a perfectly symmetrical system. Due to the nature of series configurations and the slight variations between cells, my ability to test the series cell configuration was somewhat limited. To maintain perfect symmetry, I used ice trays and standardized templates for the electrode plates, ensuring each cell was filled with the same amount of PEG electrolyte. These adjustments enabled the system to consistently produce 11.5 volts DC and a stable current of 2 mA from a 10 MΩ load on the meter. Interestingly, when arranged in a perfect series and symmetry is maintained, the cells display certain anomalies. The current increases, allowing for more power output at higher potential levels, thus enabling faster charging and more rapid discharging through capacitors. I noticed that when powering loads, such as an LED, the voltage of the cell drops to match the running voltage of the load. Additionally, the AC fluctuations I observed earlier seem to intensify under load, causing random peaks in high current as the cell attempts to rebalance itself. This results in voltage fluctuations and varying LED brightness, reminiscent of the behavior observed by John Hutchison with his larger cell stack and an incandescent bulb, which also flickered with bright flashes. This phenomenon suggests that these cells are behaving similarly to Hutchison's in terms of power dynamics and response under load Secondary anomalies: Ferroelectric capacitance Electret at room temps Piezoelectric response to frequency pulse and vibration. Heat sensitivity. AC fluctuations High Current Random Bursts

Here I conceptualize a circuit equivalent to demonstrate the behaviours of the cell. I hope this helps. forum http://typeright.social/forum

I Just thought I'd make a quick video showing that we can use a Bedini to take advantage of small solar panels to charge large batteries as well. I know this may not sound fascinating to some but I thought I'd cover it quickly because it is a source of free energy. Forum http://typeright.social/forum

Good day folks, Here I talk more in details about a great discovery I made with the quantum cells last night. These cells generate current if you pulse them just right. I talk about the details here and if you want to see the waveform scope view watch video labled "Video For John" Just putting all the pieces together for you folks. Thanks for all the support. forum http://typeright.social/forum

Lots of side questions in comments perhaps this will shed a light on the more generic concept. One long story short fill the 60 hertz pulsed holes "DC" with the substance of all the accumulated inductive kickback spikes so that the energy "mass" from the square wave comes from inductive kickbacks only. Forum http://typeright.social/forum

Just a short introduction to some of the systems I been working with lately. In the context of alternative energy systems such as quantum power cells and alikes. For transparency and helping to understand some of these concepts! forum http://typeright.social/forum rumble https://rumble.com/c/JoelLagace

Good day folks, Here is a circuit or a process to step up the quantum cell pure potential to traditional watts. It's a alternative to my future goal of stacking many wafers into a high power cell. So let's use some Tom Bearden tricks! I think this may be the closest process that Floyd was using. Give it a trigger and it self systains from feedback. Feedback being the key here. If you setup your coils in non traditional configurations. He had some control / trigger circuit. Just never talked about that part. He had a few enhancements with his transformer cores with barium and such however we don't need any of that fancy stuff if we don't have access it seems. Unlike Floyd's system. This one with addition to the quantum cells, can self regauge it's "Trigger" supply. And don't need an "external" starting source as it self generates. As far as the background it's just for fun. If you get it you get it, if you don't really your not missing out on anything. :) Thanks for watching.

Basically personal notes and observations I decided to make public for transparency. Next idea. Cement mix. It sounds silly, It's just an experiment to try. I guess if you want your cells to be bricks. hehe Forum http://typeright.social/forum

Here I try the cells to pulse then with a "Bedini" style switch. I'm impressed with the inductive kickbacks. I move on to show some other experiments of cell variations that are drying. Not sure of the outcomes just trying random mix and electrodes with the PEG electrolyte. At the end of the video I talk about a nice chat that shows some of the more common elements that we can use variations of with these types and similar power cells and capacitors. Forum http://typeright.social/forum

Here is a on the spot conditioning process. I use one of the premixed cupcake cells, with carbon and magnesium electrode mixed with PEG powder with just enough water to make a wet paste. I place the electrodes and let dry overnight. With the cell as is they produce around 1 volts to start. I put the oven on at low "Warm" for about 15 minutes until the mix melts into a translucent wax like. Too long will make it liquid ( better but more difficult to keep electrodes in place) So it's all about trial and error in finding the right balance for your molding method. Once that is complete, We put the cell in the freezer, While driving it with a high voltage module ( I found it works better) Let it cool down make sure it don't spark or short out while conditioning and carefully close the door as much as you can. After 15 mins or so remove the power and open the freezer door and remove the cell. Test the cell. I did this on the spot and got very lucky with this one generating over 2 volts. For what it is, It was a pleasant surprise! I think you hear it in my voice when I read out the voltage lol! So far I noticed anywhere from 25-40 % increase in potentials with the addition of the condition process. Yes it does tend to dip a little under a meter as a load as observed in the video, But does this "bounce" back effect. Esp if disconnected for a few seconds. Forum http://typeright.social/forum rumble https://rumble.com/c/JoelLagace

Just a progress update on everything. Keeping everyone posted. Thanks for watching. If you just found this. I encourage you to watch my previous Quantum power cell videos for a better perspective of what i'm working on. Forum http://typeright.social/forum Rumble https://rumble.com/c/JoelLagace

Just a quick video that shows how the cell should look after cooked. And the crystal like solidity. The main advantage is is 100% dry. Solid state PEG based electrolyte. No corrosion. Or anymore so that the local environment would introduce to any wire nearby. For more information on what these quantum power cells can do and how they have been behaving along with the anomalies and experiments. Please watch my previous videos. Forum http://typeright.social/forum

Today, I'm eager to share insights into an advanced exploration of quantum electrodes, which are characterized by their utilization of solid-state electrolytes, such as crystals or polymers. In my endeavors, I've primarily engaged with polymer-based electrolytes. A remarkable aspect of these cells is their inherent capacity for self-charging at their intrinsic voltage of pure potential. This capacity is facilitated by the solid-state electrolyte's ion flow, intertwined with the initial ambient moisture and the moisture present in the mix prior to its solidification. Moreover, the distinctive electron flow phenomena, including quantum tunneling, electrostatic, and triboelectric effects, significantly contribute to this process. As we delve deeper into the nuances of these cells, we uncover that the solid-state electrolyte mixture initially presents as a gel-like paste. This mixture undergoes a gradual solidification, driven by natural potentials. Crucially, upon complete drying and the evaporation of moisture, the material undergoes a transformation into a hybrid solid-state electrolyte and dielectric. It is at this juncture that a gradual accumulation of an electret effect occurs—by deliberate design. This transformation is fundamental to the creation of the potential difference and the electric field within the cell. To further refine and enhance the properties of the cell, a conditioning process can be implemented. This involves heating the dried solid-state electrolyte in an oven at a low temperature, around 150°F or below, for approximately 15 minutes. This process transforms the solid-state into a wax-like consistency. Following this, electrodes are connected to a 12V DC power supply and attached to the cell. The assembly is then carefully placed in a freezer for 15 to 20 minutes, facilitating the charging process. Once removed and disconnected from the power source, the cell is allowed to acclimate to room temperature. This conditioning process yields a significant increase in voltage, from an initial 1.2V to nearly 2V, illustrating the potential for further enhancements through repeated conditioning. Such advancements suggest the possibility of increasing the cell's efficiency without the necessity of stacking thousands of cells to achieve a higher potential. This exploration represents a confluence of quantum physics and material science, opening new avenues in energy storage and the development of alternative energy systems. The deliberate creation of a hybrid solid-state electrolyte and dielectric, culminating in the electret effect, underscores the innovative potential of this technology. Forum http://typeright.social/forum rumble https://rumble.com/c/JoelLagace

I noticed the transients AC fluctuations is rather moderate with these solid state cells. Thanks to funky electron flow. I'm noticing very similar effects as John H demonstrated with his cells. Perhaps we can take advantage of this chaotic "self oscillation" properties of these cells. forum http://typeright.social/forum

Here I show how the system as primitive as it is at this point can run some small loads, DC motors, LEDs, Charge capacitors and even operate oscillators. As I explain in the video this is not the final product goal, Just testing the solid state electrolyte properties and some where asking in previous videos if they could experiment with just this. If your happy with that then I don't see what is wrong taking into consideration this is mostly electrostatic at this point. But there is nothing wrong with this if this is what you need for your input. I'm trying to move on to a hybrid zamboni like / Hutchison cell, like high voltage and fair power output cells. One step at a time. forum http://typeright.social/forum

A cell im experimenting with. Same solid state electrolyte mix with the added Copper Oxide powder. I explain the logic in the video. What should I try next with this? Don't mind the background noise. It's a Bedini fan running in the background charging some 9 volts batteries running on some other power cells I built. And doing a few things at once! Sorry! :) Forum http://typeright.social/forum

Good day folks, Here I talk about how we could apply the various concepts I been talking about lately to hybrid quantum solar cells, Using solid state electrolyte, electrets, quantum tunneling, or the Casimir effect electron movement, tribo and electrostatic effects we can introduce these additional systems to a solar cell for additional outputs of pure potential. Even make them "Work" at night! And near the end I talk about an interesting electret experiment I would like someone to try :) Also some again have been commenting on my quantum cell demonstrations "it's just electrostatic" it's so minimal useless waste of time etc... For those who have been watching that is the goal,pure potential. Tell me this again once I reach a hybrid zamboni like cell stack of over 150kv and i'm generating a poynting vector field of 50 or more watts nearby radiant field and i'm able to pull in 10 or more with one wire antennas(plates) and reflectors with AV 2 diode plugs without closing loops.... Times 10 cells lol! Yeah it's just "electrostatic" :) wink wink Many already know as interesting as all this is, as is and can be useful for a vast of experiment and research the real "magic" starts when you upscale these concepts into the very high voltage ranges (not for everyone!) Forum http://typeright.social/forum Rumble https://rumble.com/c/JoelLagace

Here I take the time to put everything together neatly and portable to demonstrate the basics of solid state electrolyte. Just more of the same from the few last videos but just simpler to follow visually instead of that nest of wires and mess from earlier. What can I say folks its real on the spot experimentation! I hope this helps! forum http://typeright.social/forum

Here I show you how to mix a very easy to make solid state electrolyte. All you need is to add some hot water to mix a paste that hardens in place into a ceramic/crystal like substance that molds into place a dry cell. The advantage is no corrosion in a traditional sense. Minus the normal environmental impacts. How it works in short. Solid state ion flow, Ions jump from one point to another in the material rather then free flowing. Electron flow can't happen in a traditional sense, So Quantum tunneling effects along with electrostatic and triboelectrically systems instead make the "magic" happen. Advantage, Could operate a lifetime. Under proper care. And pro build. Self re-gauging. In Tom Bearden perspective. So this video is a focus on solid state electrolyte and at the end I show a working demo of the cell producing real volts! I'm already running small DC motors and transistor oscillator circuits with these. Of course down the road it would be a crucial to make these more thin and wafer like to stack with the electrets and piezo capacitor plates. More on that stack on my previous video. That is the end result goals. Forum http://typeright.social/forum

Good day folks. I wanted to take the time to note the differences of solid state electrolyte and traditional solid or gel electrolyte. and what possibilities this leads. Quantum tunneling and vacuum energy. But first I explain the logic step by step and place the pieces together. .... I know about the typo on the whiteboard i'm really sorry about it! Just to get rid of the troll comment that's about to come hehe :) I understand theory is fun and it's nice to look at and people tell me to get back to them when we have actual working concepts demonstrating real measurable energy extraction from the quantum vacuum casimir effect etc... Well If you watch this whole video, I show a demonstration at the end, how I figured out how to use quantum tunneling to trigger a potential difference between two similar of the same (thin foil) cathode and anode. This is no longer a traditional galvanic cell. Where we depend on electrochemical and potential differences of two dissimilar metals corrosion and oxidation. And with my setup. I get a good potential difference and for the sake of the demonstration works perfect! The solid state electrolyte is simply doped paper towel left to dry and built up a crystal like thin crust layer. Think big. Think big stacks more surface area. The asymmetry of the cathode and anode plates in part. Determine your DC output volts, current along with plus and negative in such a quantum energy device. Once again exploring and demonstrating concepts that "can't" be done right from my kitchen to the world. Inspirational! Thanks for watching! forum http://typeright.social/forum rumble https://rumble.com/c/JoelLagace