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Wednesday, September 24, 2014

Moved Content

I've decided to move my work to my website ibpointless2.com and will be delivering future content their.

Saturday, March 26, 2011

Studying the Captret more

The Captret idea was created to get people to think outside the box. I and many others have seen some captret circuits and even simple capacitor circuits self charge a battery or another capacitor. I even done test where I hook two capacitors up, one bigger than the other, and watch not only one increase in voltage but both increase in voltage. From playing around with capacitors have really peaked my interest in them and I'm trying to figure out why they would self charge like what I described in my Captret and Capacitor circuits. Why does a capacitor still have voltage even when its been shorted out? Some might say dielectric absorption, but I think it goes much deeper than that.

The Captret and Capacitor studies have led me to figure this mystery of the self charging capacitors, where is this electricity coming from. If you take a look at a capacitor you'll notice all it is two aluminum plates separated by a dielectric and thats it. Plates separated by a dielectric is the key to the excess electricity that capacitors have. It's a know fact that water is a dielectric and if you place two dissimilar metals in water you get voltage due to the galvanic reaction, but if you have the same plates like you do in a capacitor then the textbooks you should not get any voltage because the plates are the same. The truth is that the same metals placed in pure distilled water will produce a voltage and this is the excess electricity we see in capacitors. Same metals in water is what I've been studying now and now I understand why the captret could have self charging circuits. What I don't understand now is why do the same metals in water produce a voltage, I've searched everywhere to see if anyone could explain this but they all say that the same metals should not produce any voltage.

I've created a new Blog on the subject of the same metal water battery producing voltage here samemetalwaterbattery.blogspot.com

Tuesday, January 4, 2011

My biggest problem with this whole Captret idea is getting people to listen. No one really seems to care. People want a free energy device that has some mysterious devise on it from a unknown origin. Or people want some type of complex circuit requiring complex components, Its the mystery that keeps people coming back. I've concluded that there is no conspiracy when it comes to free energy devices, it just that people don't care. Most, if not all, free energy out their are frauds and the way you know is if it has some mystery to it, some missing part or thing you need to get it to work or a sum of money for them to get it going. If you do manage to make a free energy device and give it freely away people would not care because it doesn't hold that romance of the mystery that makes it work. Why should people care? They're already brain washed from there daily TV intake to even focus on what i'm doing and can't even understand what i'm doing because they simply don't care. My second biggest problem is that I do care, and in the end it all doesn't matter. At this point all I can say is "all well", I'll keep on doing what i'm doing and if you need me i'll be the guy running his lights for free for life.

Thursday, December 30, 2010

Come to find out that the Water Captrets are really batteries themselves. They can be shorted out for long periods of time and climb back up in voltage. The water captret relates very closely to a capacitor in that they both have aluminum plates that are placed in a liquid. Just like a capacitor when shorted out the water captret gets a bounce back of voltage, so this leads me to believe that the self charging we see is due to the capacitor being a battery.

As to how it can be a battery is still not very known, because a normal water battery has two different types of metals used to make a galvanic reaction and that gives you voltage. A water captret uses two of the same metal but it still gives you voltage. One reason why it gives voltage might be that the aluminium is paramagnetic and the water is diamagnetic, but I really don't know.

In this video I hook 10 water captrets up to get about 800mV. I really want to make a water captret that runs a LED light so that I can really test the life of the water captret. I'm sure it has a good life because they seem to work better when given a short or a load.

Water Captret gives more voltage out than in

I find out that when I hook up my Water captret up to a battery I can increase the voltage output of the battery.

Friday, December 17, 2010

Capacitors can be self charged

From my simple experiments I found that a capacitor can be very easily self charged.

A video of me self charging a capacitor higher than the original voltage.



All you need is two capacitors and then just hook them up positive to positive and negative negative. To keep the testing fair I had both capacitors sit over night to get a resting voltage. The bigger capacitor had more power in it than the little capacitor but both now seem to at a higher voltage than what the bigger capacitor standing voltage was.

Why is this so important?
When you hook a battery or capacitors up in parallel the battery or capacitor with the higher voltage will try to charge the battery or capacitor with less voltage. So the higher voltage capacitor will drop in voltage while the lower voltage capacitor will go up in voltage until both equal out. The thing is that i'm not using the same size capacitors, i'm using different size ones so the bigger cap losses less but the little cap still gets full. Once a capacitor is full it becomes a open circuit and no more electricity will flow, this is what we're taught and it is correct but not complete. The capacitors when full will not lose anymore power but for some odd reason will spontaneously self charge.

I'm not talking about the dielectric absorption here. Dielectric absorption deals with you having a capacitor that is charged up and you then go and discharge it and for some reason it won't discharge completely due to it getting a bounce back in voltage after the capacitor been sorted out. With my setup you charge up the capacitors and you leave to sit over night and after that you don't "discharge" them but instead hook them up to a battery or capacitor. In a way my setup is to not destroy the dipole, a complete circle is made and for some reason a spontaneous self charging occurs.

The big question is why does a closed system allow power to come in?

Is it the magnetic nature of the plates of the capacitors allow a hidden power to flow in?

Monday, December 13, 2010

In this video I show that some captrets could amplify voltage. It seems that where a normal capacitor could only be charge up to the voltage of the battery the captret could exceed that.