I initially began lighting incandescent bulbs though my research into the kapagen or kapanadze generator device. Very soon it became apparent to me that the kapanadze coil was not providing any beneficial output to occur in the back field of energy flow to my bulbs, with my particular setup. This may simply be in my case, however i believe that others have found this to be true to a varying degree. Please note, I understand that the real kapanadze device operates on a closed loop and bears no resemblance to anything i've made and/or are doing experiments with.
That being said, I was able to produce lighting to a very similar degree as others who have replicated the Kapanadze generator coil with out the coil in the circuit. Here is a video that illustrates a very simple demonstration of lighting incandescent bulbs utilizing a radiant form of current being provided as a result of a resonant disruptive discharge at the spark gap of my 4KV power supply. Sorry that i don't have proper instrumentation of my amperage consumption in this video. I promise will follow up with better instrumentation in my next video.
This power supply is made from 3 Microwave transformers. One has its secondary shorted out on itself to provide an inductive ballast and the other two are ran together in series to provide 4KV output to 10kv of HV capacitors.
My reason for posting this thread is that i would really like to have some ideas with regard to how I might now go about resolving that current flow efficiently. I know that the energy is already there for the taking. It is simply a matter of how effectively we can capture it and use it. For instance, I can literally see a marked improvement in light and temperature output from 2 bulbs in series as opposed to 1 bulb with the exact same input at the source? As well, 4 of those same 40watt bulbs in series will not light as well as 4- 60 watt bulbs in series with the same input at the source. I have not done enough testing to postulate with any precision how this resistant load in the back field of current flow really operates. I would appreciate any suggestions as far as how to proceed in tapping that source of energy effectively.
I can only postulate that we are looking for instruments (light bulbs in this case) that are capable of resonating in a inverse relationship to the spark gap in some way. In what way would one go about making this current operate an electric motor. It would seem to me that it should be possible to rectify (for lack of a better word) this current in some way to make it usable in other ways. I am envisioning a tun-able oscillator in line with the motor that might do such a job.
Any suggestions are greatly appreciated.
Have to cut this short for now.
I'll be back soon with some follow up.
Thanks.
TheDude
That being said, I was able to produce lighting to a very similar degree as others who have replicated the Kapanadze generator coil with out the coil in the circuit. Here is a video that illustrates a very simple demonstration of lighting incandescent bulbs utilizing a radiant form of current being provided as a result of a resonant disruptive discharge at the spark gap of my 4KV power supply. Sorry that i don't have proper instrumentation of my amperage consumption in this video. I promise will follow up with better instrumentation in my next video.
This power supply is made from 3 Microwave transformers. One has its secondary shorted out on itself to provide an inductive ballast and the other two are ran together in series to provide 4KV output to 10kv of HV capacitors.
My reason for posting this thread is that i would really like to have some ideas with regard to how I might now go about resolving that current flow efficiently. I know that the energy is already there for the taking. It is simply a matter of how effectively we can capture it and use it. For instance, I can literally see a marked improvement in light and temperature output from 2 bulbs in series as opposed to 1 bulb with the exact same input at the source? As well, 4 of those same 40watt bulbs in series will not light as well as 4- 60 watt bulbs in series with the same input at the source. I have not done enough testing to postulate with any precision how this resistant load in the back field of current flow really operates. I would appreciate any suggestions as far as how to proceed in tapping that source of energy effectively.
I can only postulate that we are looking for instruments (light bulbs in this case) that are capable of resonating in a inverse relationship to the spark gap in some way. In what way would one go about making this current operate an electric motor. It would seem to me that it should be possible to rectify (for lack of a better word) this current in some way to make it usable in other ways. I am envisioning a tun-able oscillator in line with the motor that might do such a job.
Any suggestions are greatly appreciated.
Have to cut this short for now.
I'll be back soon with some follow up.
Thanks.
TheDude
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