Great work, Joel. I think this experiment (especially the end of the video) is a milestone because it demonstrates what the PEG cell is capable of. What happens if you are connected to earth ground and then shut off the inverter?
I found a thread from 2008 on a (scarily vulnerable) bulgarian website, where people have replicated the TPU! This user by the name of Otto got it working and gave all the information on how to replicate as far as I can tell so far... I'm saving all the threads and links offline because this website could go down anytime... But there's also information on replicating other exotic overunity inventions related to the aether like a Bob Boyce device. You have to translate because almost everything is in Cyrillic script.
Ive been looking into dc to 3 phase inversion for a project i have in mind. It got me thinking, i wonder if you could generate ac using the same principle with the peg cell as the source.
Here is a simple circuit we are using to pulse both primary wires on a step up transformer to produce high voltage output on the secondary. The first video is of it running the transformer and the second video is of just the circuit schematic. MJE 13007 transistors an 1,000uf resistors. Plus a potentiometer. The videos are of the circuit running a transformer and of the actual circuit. ruclips.net/video/A79UywUUuZA/видео.html ruclips.net/user/shortsMr0_vfMu-ac?feature=share I generally run this circuit BETWEEN the positives on a three battery setup. That way much of the energy input to the system is recovered. I have also used this exact SAME circuit to pulse the primary side of a single car coil or TWO car coils. The car coils were modified by cutting the tops off with a Dremel tool (be careful they are FULL OF OIL) and separating the negatives of the two coils, which are combined. I drill a hole in the top to run a second wire to the secondary negative. Then glue the top back on the car coil with hot glue gun.
So if I understand this correctly, you have a 12v battery that powers an inverter. The output of the inverter A/C is in series with a peg cell and an A/C capacitor that powers the transformer primary side, and the secondary side connects in series with another peg cell, DC capacitors, and the neon bulb that loops back into the battery? And when you say it goes back to the ground of the battery you mean the negative terminal?
I don't recommend doing it this way, I would follow the full PDF concept to take full advantage of this but it was enough to show a basic working principal. As I stated first issue with just 1kv is this system at max will only pull out 10s of ma of displacement current. It does have the advantage of transferring a "joule" of energy around different points of the circuit as described by Tom bearden with very little loss and send it back to the battery. My point is we can also get this displacement that would happen anyways to do work across a very high impedance load. The issue is a "normal" resistor will also drop the voltage drastic neutralizing the pure potential gains. But using novel semi conductors with novel features like the peg cell allows to gate the current and also top off the potential without loss of voltage, So at 10-20 kv with a peg cell and the R of a normal 100 volt 60 watt light bulb one could expect around 200ma with the lamp being a normal R also dropping down the volts to around 160 volts from 10kv. So this is indeed a drastic drop. But happens to fall right in range of the nominal working parameters of the lamp. It will glow slight beyond its normal 60 watt power for very little input energy. Be also using the displacement as an extra power source. While also being able to recycle a good part of that "joule" now the advance switching allows for re-triggering and continuous operation in the sweet spot zone. The whole idea is the input power hardly needs to provide a top off charge to the cap at every cycle. But again at over 10-20 kv things get funky and you need to consider alternatives like Don smith to work with 100kv+ But that is where the potential KW are! Here I only had a few millliamps at 1kv or a little less. But it still show the neon doing work while the battery is recycling its energy. I used the inverter to give me a basic square wave like signal, This kind of thing don't work with AC needs to be square waves. Even with this I tried with the mains and it would not drive it properly. Cheep inverter had no problems!
@@joellagace1679I can try again: digital multimeters are powered by their own batteries, when you take a measurement using them you basically introduce another circuit in your circuit and you have a very sensitive circuit as described by Tesla being “able to use a feeble current” you simply detune your system. Just ignore naysayers and use certain power source as you already doing and power known loads if you are not sure about results obtained.
Much love Joel. I just want to encourage you and thank you for all your efforts. You are a major light and inspiration to me.
thanks!
Great work, Joel. I think this experiment (especially the end of the video) is a milestone because it demonstrates what the PEG cell is capable of.
What happens if you are connected to earth ground and then shut off the inverter?
Great Job!!!
I found a thread from 2008 on a (scarily vulnerable) bulgarian website, where people have replicated the TPU! This user by the name of Otto got it working and gave all the information on how to replicate as far as I can tell so far... I'm saving all the threads and links offline because this website could go down anytime... But there's also information on replicating other exotic overunity inventions related to the aether like a Bob Boyce device. You have to translate because almost everything is in Cyrillic script.
PERFECT! CLEAR 🙏✅THANK YOU BROTHER 👍👍👍👍👍GENIUS🏆🏆🏆💎✅👍👍👍
Hy !
You Do it simple,good Job .
Bey
Very cool
Ive been looking into dc to 3 phase inversion for a project i have in mind. It got me thinking, i wonder if you could generate ac using the same principle with the peg cell as the source.
Here is a simple circuit we are using to pulse both primary wires on a step up transformer to produce high voltage output on the secondary. The first video is of it running the transformer and the second video is of just the circuit schematic. MJE 13007 transistors an 1,000uf resistors. Plus a potentiometer.
The videos are of the circuit running a transformer and of the actual circuit.
ruclips.net/video/A79UywUUuZA/видео.html
ruclips.net/user/shortsMr0_vfMu-ac?feature=share
I generally run this circuit BETWEEN the positives on a three battery setup. That way much of the energy input to the system is recovered.
I have also used this exact SAME circuit to pulse the primary side of a single car coil or TWO car coils. The car coils were modified by cutting the tops off with a Dremel tool (be careful they are FULL OF OIL) and separating the negatives of the two coils, which are combined. I drill a hole in the top to run a second wire to the secondary negative. Then glue the top back on the car coil with hot glue gun.
❤❤
So if I understand this correctly, you have a 12v battery that powers an inverter. The output of the inverter A/C is in series with a peg cell and an A/C capacitor that powers the transformer primary side, and the secondary side connects in series with another peg cell, DC capacitors, and the neon bulb that loops back into the battery? And when you say it goes back to the ground of the battery you mean the negative terminal?
Using a rectifier in the secondary?
I don't recommend doing it this way, I would follow the full PDF concept to take full advantage of this but it was enough to show a basic working principal. As I stated first issue with just 1kv is this system at max will only pull out 10s of ma of displacement current. It does have the advantage of transferring a "joule" of energy around different points of the circuit as described by Tom bearden with very little loss and send it back to the battery. My point is we can also get this displacement that would happen anyways to do work across a very high impedance load. The issue is a "normal" resistor will also drop the voltage drastic neutralizing the pure potential gains. But using novel semi conductors with novel features like the peg cell allows to gate the current and also top off the potential without loss of voltage, So at 10-20 kv with a peg cell and the R of a normal 100 volt 60 watt light bulb one could expect around 200ma with the lamp being a normal R also dropping down the volts to around 160 volts from 10kv. So this is indeed a drastic drop. But happens to fall right in range of the nominal working parameters of the lamp. It will glow slight beyond its normal 60 watt power for very little input energy. Be also using the displacement as an extra power source. While also being able to recycle a good part of that "joule" now the advance switching allows for re-triggering and continuous operation in the sweet spot zone. The whole idea is the input power hardly needs to provide a top off charge to the cap at every cycle. But again at over 10-20 kv things get funky and you need to consider alternatives like Don smith to work with 100kv+ But that is where the potential KW are! Here I only had a few millliamps at 1kv or a little less. But it still show the neon doing work while the battery is recycling its energy. I used the inverter to give me a basic square wave like signal, This kind of thing don't work with AC needs to be square waves. Even with this I tried with the mains and it would not drive it properly. Cheep inverter had no problems!
👍
The act of observation by measuring kills the potential... Sounds familiar.
Use an old car battery with distilled water. Funny things happens with the oxidized plates.
I am pissed off by YT of deleting all my comments
This is the first I see in a while from you.
@@joellagace1679I can try again: digital multimeters are powered by their own batteries, when you take a measurement using them you basically introduce another circuit in your circuit and you have a very sensitive circuit as described by Tesla being “able to use a feeble current” you simply detune your system.
Just ignore naysayers and use certain power source as you already doing and power known loads if you are not sure about results obtained.
Yeah meters can really screw up these kinds of circuits esp those that people try to hard wire in....