Monday, May 30, 2011
Sunday, May 29, 2011
its been awhile
Its been awhile since I've posted anything but I'm back. Since I've been gone I have been working more on these cells of all different types. I was mostly focused on the cement cells but I soon stopped work on them due to the galvanic reaction that was happening in them. With the cement cells the outside was drying but the inside still had water and thus we had a galvanic battery, not what I want.
This has not stopped me at all from continuing my work. The only reason why I'm posting here again is because the forums don't care anymore. I have come back to the glue cells and the only reason why is they show pure petrovoltaic effect. I've cut one glue cell up to see if any water was in it and much to my enjoyment the cell was bone dry. I can safely say that the glue cells are not galvanic at all. The glue cells show the real promise of free energy. I have one glue cell shorted out for a long time and it still produces power. I've started to eliminate factors that could power these cells, like humidity. I've taken the shorted out cell and put it in a air tight container so that moisture doesn't affect it and I also painted one glue cell completely with black spray paint to keep moisture out. I'm glad to report that both cells still work just fine.
I've also experimented with WD-40 too. WD-40 repels water and thats what I need if I want non-galvanic cells. So far test with WD-40 are ok, low voltages but no corrosion. I even mix the WD-40 with concrete but the voltage is very low.
Testing is still being continued with my petrovoltaic cells. I hope to be able to charge a capacitor then run a load off the capacitor. I also would like to note that these glue cells and other petrovoltaic cells act very different form other batteries. When you put a glue cell in series the voltage will actually go down but put them in parallel and the voltage goes up. Also hooking one cell up to a capacitor shows very interesting things too. The cell could produce a max of 30mV but hook it to a capacitor and the cell will charge the capacitor to over 200mV! Amazing when you consider that the capacitor had no charge in it to begin with. I think this effect relates to them both being dielectric materials.
This has not stopped me at all from continuing my work. The only reason why I'm posting here again is because the forums don't care anymore. I have come back to the glue cells and the only reason why is they show pure petrovoltaic effect. I've cut one glue cell up to see if any water was in it and much to my enjoyment the cell was bone dry. I can safely say that the glue cells are not galvanic at all. The glue cells show the real promise of free energy. I have one glue cell shorted out for a long time and it still produces power. I've started to eliminate factors that could power these cells, like humidity. I've taken the shorted out cell and put it in a air tight container so that moisture doesn't affect it and I also painted one glue cell completely with black spray paint to keep moisture out. I'm glad to report that both cells still work just fine.
I've also experimented with WD-40 too. WD-40 repels water and thats what I need if I want non-galvanic cells. So far test with WD-40 are ok, low voltages but no corrosion. I even mix the WD-40 with concrete but the voltage is very low.
Testing is still being continued with my petrovoltaic cells. I hope to be able to charge a capacitor then run a load off the capacitor. I also would like to note that these glue cells and other petrovoltaic cells act very different form other batteries. When you put a glue cell in series the voltage will actually go down but put them in parallel and the voltage goes up. Also hooking one cell up to a capacitor shows very interesting things too. The cell could produce a max of 30mV but hook it to a capacitor and the cell will charge the capacitor to over 200mV! Amazing when you consider that the capacitor had no charge in it to begin with. I think this effect relates to them both being dielectric materials.
Thursday, May 12, 2011
Water has crystal video
In this video is the only thing that has come close to describing what I've seen in the same metal water cells. They say that the water forums a crystal at the top and they could get a voltage from it. This would explain why having one plate barely touching the water at the top gave a lot of voltage increase. Its a long video but describes a lot and is good information.
So it was the crystals in the water that I was tapping, like a crystal battery or Petrovoltaic battery.
So it was the crystals in the water that I was tapping, like a crystal battery or Petrovoltaic battery.
Saturday, April 30, 2011
Petrovoltaics
I've been much more careful about my readings on these petrovoltaic cells here lately. The latest test I've done was to cut off ALL power to my house. So flipped the main breaker and my house had no current flowing in it so that I could eliminate the chance that I was reading stray voltage from CFL's or from the walls. The good news is that these petrovoltaic cells still produce voltage. I even moved the cells around to different place in my yard and drove around and they still give off voltage.
I find the best test that I do is the shorting the cell out test. I never seen any battery of any type able to slowly go back to the original standing voltage after being shorted out for a day or even a week like some of the cells. Removing the short shows the cell go back up in voltage to almost the original standing voltage and over a few minutes it slowly goes back to the original standing voltage and some have even gone up above the standing voltage but I consider to be apart of the temperature and lunar effects. I do believe that these cell can't last forever, they must drain, after all everything dies eventually.
I do find that temperature is a real mixed bag. I remember working on cells that used distilled water as the dielectric and one day the hot water would raise the voltage but next week the cell wasn't affected by it. If anything temperature would raise the voltage slightly but it can be hard to say that these petrovoltaic cells are driven by temperature.
These cells also do act like a low micro farad capacitor when given a charge.
I have made some glue cells that are given power from a AA battery while its drying, as to treat like a electret. It does take the charge but I think High voltage would work better. A AA battery at 1.300 volts would have the glue electret cell at about .400 volts after 3 days of resting and fully dried out. It does hold around .400 volts but I think high voltage would align the cells up better than this low voltage method.
I'm also back at testing some rocks from my drive way again and them too when the power from the house is cut off still give off a very small voltage.
I find the best test that I do is the shorting the cell out test. I never seen any battery of any type able to slowly go back to the original standing voltage after being shorted out for a day or even a week like some of the cells. Removing the short shows the cell go back up in voltage to almost the original standing voltage and over a few minutes it slowly goes back to the original standing voltage and some have even gone up above the standing voltage but I consider to be apart of the temperature and lunar effects. I do believe that these cell can't last forever, they must drain, after all everything dies eventually.
I do find that temperature is a real mixed bag. I remember working on cells that used distilled water as the dielectric and one day the hot water would raise the voltage but next week the cell wasn't affected by it. If anything temperature would raise the voltage slightly but it can be hard to say that these petrovoltaic cells are driven by temperature.
These cells also do act like a low micro farad capacitor when given a charge.
I have made some glue cells that are given power from a AA battery while its drying, as to treat like a electret. It does take the charge but I think High voltage would work better. A AA battery at 1.300 volts would have the glue electret cell at about .400 volts after 3 days of resting and fully dried out. It does hold around .400 volts but I think high voltage would align the cells up better than this low voltage method.
I'm also back at testing some rocks from my drive way again and them too when the power from the house is cut off still give off a very small voltage.
Wednesday, April 27, 2011
I find it creepy
I find it creepy that all the experiments that I have done in the past few years have all drawn to one person and didn't even know it, that person is Thomas Townsend Brown. Everything from the Captret idea to my same metal water battery idea. I barely even knew who the guy was before coming across his name in a posting on a thread. I even done many of the exact same experiments that he did and did not realize it until recently.
I've made the “rock battery” before and did not know TT brown done this, I was merely experimenting. Here's a video of me showing off the rock battery http://www.youtube.com/watch?v=gY18yt0ZzM8
Brown even states that a electrolytic capacitor can get this energy as well. This extra energy was studied by me for some time and I called it the captret. The Captret was originally to show that you can make a lead out of the case of the capacitor but later tested found that a capacitor could give extra energy. I even went as far as to hook capacitors up to another capacitor to see what would happen, and both capacitors would self charge off each other. I've seen capacitors show this self-potential that Brown talks about in many videos and did not realize it until recently.
http://www.youtube.com/watch?v=Gs7B1vhS0Vk
http://www.youtube.com/watch?v=qfbrVHWJwpc
http://www.youtube.com/watch?v=U4fGpEDaQGc
http://www.youtube.com/watch?v=qqC8nAjoAVc
http://www.youtube.com/watch?v=H7v7laik7Fo
http://www.youtube.com/watch?v=wbn4vede2us
All the videos above talk about the captret and the mentions some of the things that Brown shows us in his notes from http://www.rexresearch.com/brown4/brown4.htm. Like shorting the cell out and it bouncing back to almost the original voltage. Or that a voltage appears when electrodes ( the case of the capacitor and one of the leads) is put in a dielectric, thats why the voltage was different on each test point of the super capacitor, plus higher the farad the better. This was only the start, I started to branch off to get a better understanding so I move to the same metal water battery or in some videos I called it the water captret.
With the water captret idea I could study that for some odd reason when I placed aluminum plates in water I could get a voltage, and I could use that voltage to amplify the voltage of a battery too. I still didn't understand it and many people to this day call it a form of galvanic, Brown was also faced with this galvanic problem too by others as he mention in his notes. I believe that it is not galvanic and its something much more due to the fact that I've never seen a galvanic cell switch polarities as also studied by Brown too. I nearly passed out when I read in his notes that when he try to put his cells in series that some of the cell switch polarities, I've seen the many times when I tried to put my cell in series to get a higher voltage; some cells switch polarities and when they did that acted like a resistor and the voltage was not increased by any important margin. Videos of the same metal water battery or the Water captret as it was once call will below.
http://www.youtube.com/watch?v=35fcHfgVxI8
http://www.youtube.com/watch?v=aY7r3DVPzo4
http://www.youtube.com/watch?v=rDusf5sjb2M
http://www.youtube.com/watch?v=PMK554Doa4Q
Brown even mentions that using concrete would work and I prove that it works in this video.
http://www.youtube.com/watch?v=0-HfWZACZ68
The idea works for all dielectric material even glue. I show some cell producing voltage when using glue. http://www.youtube.com/watch?v=3pDrIjy7dS0
So to be clear when you use the same metals for both anode and cathode you're working with the effect that Brown studied, but when you use dissimilar metals you're only getting some of the effect that Brown studied. When two different metals are used most of the power you see is from the galvanic reaction, but a faction of the total power is coming from what Brown studied, so galvanic cells are not 100% galvanic and due show some effects (small effects) of what Brown studied. Using the same metals eliminates the galvanic reaction and allows you to focus more on what Brown was studying.
So at least I'm not the only one seeing this effect, Thomas Townsend Brown saw this too and did much better testing than I've done. Even though these cell produce small power is not the important thing to note, its the fact that they produce any power at all is the important thing. If it gives off power it must be getting it from somewhere and that is what is key. It is a very weird feeling to come across some notes on something that you're seeing too and you thought had no real explanation.
I've made the “rock battery” before and did not know TT brown done this, I was merely experimenting. Here's a video of me showing off the rock battery http://www.youtube.com/watch?v=gY18yt0ZzM8
Brown even states that a electrolytic capacitor can get this energy as well. This extra energy was studied by me for some time and I called it the captret. The Captret was originally to show that you can make a lead out of the case of the capacitor but later tested found that a capacitor could give extra energy. I even went as far as to hook capacitors up to another capacitor to see what would happen, and both capacitors would self charge off each other. I've seen capacitors show this self-potential that Brown talks about in many videos and did not realize it until recently.
http://www.youtube.com/watch?v=Gs7B1vhS0Vk
http://www.youtube.com/watch?v=qfbrVHWJwpc
http://www.youtube.com/watch?v=U4fGpEDaQGc
http://www.youtube.com/watch?v=qqC8nAjoAVc
http://www.youtube.com/watch?v=H7v7laik7Fo
http://www.youtube.com/watch?v=wbn4vede2us
All the videos above talk about the captret and the mentions some of the things that Brown shows us in his notes from http://www.rexresearch.com/brown4/brown4.htm. Like shorting the cell out and it bouncing back to almost the original voltage. Or that a voltage appears when electrodes ( the case of the capacitor and one of the leads) is put in a dielectric, thats why the voltage was different on each test point of the super capacitor, plus higher the farad the better. This was only the start, I started to branch off to get a better understanding so I move to the same metal water battery or in some videos I called it the water captret.
With the water captret idea I could study that for some odd reason when I placed aluminum plates in water I could get a voltage, and I could use that voltage to amplify the voltage of a battery too. I still didn't understand it and many people to this day call it a form of galvanic, Brown was also faced with this galvanic problem too by others as he mention in his notes. I believe that it is not galvanic and its something much more due to the fact that I've never seen a galvanic cell switch polarities as also studied by Brown too. I nearly passed out when I read in his notes that when he try to put his cells in series that some of the cell switch polarities, I've seen the many times when I tried to put my cell in series to get a higher voltage; some cells switch polarities and when they did that acted like a resistor and the voltage was not increased by any important margin. Videos of the same metal water battery or the Water captret as it was once call will below.
http://www.youtube.com/watch?v=35fcHfgVxI8
http://www.youtube.com/watch?v=aY7r3DVPzo4
http://www.youtube.com/watch?v=rDusf5sjb2M
http://www.youtube.com/watch?v=PMK554Doa4Q
Brown even mentions that using concrete would work and I prove that it works in this video.
http://www.youtube.com/watch?v=0-HfWZACZ68
The idea works for all dielectric material even glue. I show some cell producing voltage when using glue. http://www.youtube.com/watch?v=3pDrIjy7dS0
So to be clear when you use the same metals for both anode and cathode you're working with the effect that Brown studied, but when you use dissimilar metals you're only getting some of the effect that Brown studied. When two different metals are used most of the power you see is from the galvanic reaction, but a faction of the total power is coming from what Brown studied, so galvanic cells are not 100% galvanic and due show some effects (small effects) of what Brown studied. Using the same metals eliminates the galvanic reaction and allows you to focus more on what Brown was studying.
So at least I'm not the only one seeing this effect, Thomas Townsend Brown saw this too and did much better testing than I've done. Even though these cell produce small power is not the important thing to note, its the fact that they produce any power at all is the important thing. If it gives off power it must be getting it from somewhere and that is what is key. It is a very weird feeling to come across some notes on something that you're seeing too and you thought had no real explanation.
Saturday, April 23, 2011
T. Townsend Brown
I'm seeing a lot of similarities to my same metal water battery and Townsend brown's electricity from rocks. Brown was putting plates on rocks to measure the small voltage of them and I'm putting plates in water to measure the small of voltage too. His plates where the same metal and so are my plates. He points out the dielectric of the rocks give it power and it just happens that water is a dielectric. Brown believed in that Gravity waves or Cosmic waves where the things that drive his rocks.
It is interesting to note the similarities to my work and T.Townsend Brown.
It is interesting to note the similarities to my work and T.Townsend Brown.
Friday, April 22, 2011
Capacitor charging
I have one of my same metal glue battery cell hook up to a small 1uF capacitor to see if it will charge it. It does charge but I'm seeing something quite unusual. It keeps charging the capacitor beyond the point of where the cell started at. I hook the cell up to the capacitor with it reading only around 70mV but now its up to 80mV. Yes the capacitor was left shorted out for 24 hours before the test started. Many of you will not believe me and say I'm crazy to be reporting this but it is happening.
When given a load such as the capacitor the cell starts to output more power over time. I've seen this before with the original same metal water battery which was called the water captret at the time. http://www.youtube.com/watch?v=Gi2KOr26WZw
Call me crazy but this is really happening.
When given a load such as the capacitor the cell starts to output more power over time. I've seen this before with the original same metal water battery which was called the water captret at the time. http://www.youtube.com/watch?v=Gi2KOr26WZw
Call me crazy but this is really happening.
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