Like the video, would like to see further testing with this as you have suggested dog-one. Looks interesting.:D

Quote from geenee on April 19th, 2012, 01:20 AM

thanks for comment.

i'm not sure about that. I'm try to proof Voltage perform work.

i saw many videos.i think it can proof concept without testing by myself.

but i tested many things but not success.if i success that i will post my video that proof this concept.

thanks
geenee

Hi geenee,

yes voltage can perform work. Every capacitor works like this.
The voltage toggles ion movement in electrolytes or even in air which produces heat (OH or H3O ions).

If the voltage is high enough, ionization will accure. The weakest electron will be pulled away from the atom. It is easier to ionize gasses instead of liquid states.

Your video is amazing :)
How high was the voltage?

Quote from Amsy on December 27th, 2012, 06:21 AM

Quote from geenee on April 19th, 2012, 01:20 AM

thanks for comment.

i'm not sure about that. I'm try to proof Voltage perform work.

i saw many videos.i think it can proof concept without testing by myself.

but i tested many things but not success.if i success that i will post my video that proof this concept.

thanks
geenee

Hi geenee,

yes voltage can perform work. Every capacitor works like this.
The voltage toggles ion movement in electrolytes or even in air which produces heat (OH or H3O ions).

If the voltage is high enough, ionization will accure. The weakest electron will be pulled away from the atom. It is easier to ionize gasses instead of liquid states.

Your video is amazing :)
How high was the voltage?

Hi,Amsy.
that's not my video.i found on youtube.

-real capacitor use voltage and little amps(from source),inside capacitor no amps flow but flow outside(electron replacement).

about voltage only that's very hard,Tesla use high resistance coil(secondary),not copper,short duration dc disruptive discharge to primary coil.about electron flow i found from google,electron move very slow,8.4cm/hour.but charge that pull electron like domino,the last of electron will work job.if electron pass high resistance charge will increase.act like water pass big pipe to small pipe.in dc current if need high volt across load just put high resistance load but in ac current if need high voltage across load can use both high resistance(fr430ss wire) and high impedance(coil) to increase charge.i am not expert just thought from reading.long time ago to prove this but no result of success in voltage only.i buy many parts to test,find anyway to fix dead short problem but no success.now i just thought if use high voltage short duration before amps flow maybe work(inhibit amps).from use 555 timer change to 4046 to higher frequency,from npn transistor to scr to mosfet to now IGBT.need to test more and more.if someone can crack this problem please post here to help about knowledge.

http://amasci.com/miscon/speed.html     ---->SPEED OF "ELECTRICITY"

thanks
geenee

Quote from geenee on December 28th, 2012, 05:43 AM

Quote from Amsy on December 27th, 2012, 06:21 AM

Quote from geenee on April 19th, 2012, 01:20 AM

thanks for comment.

i'm not sure about that. I'm try to proof Voltage perform work.

i saw many videos.i think it can proof concept without testing by myself.

but i tested many things but not success.if i success that i will post my video that proof this concept.

thanks
geenee

Hi geenee,

yes voltage can perform work. Every capacitor works like this.
The voltage toggles ion movement in electrolytes or even in air which produces heat (OH or H3O ions).

If the voltage is high enough, ionization will accure. The weakest electron will be pulled away from the atom. It is easier to ionize gasses instead of liquid states.

Your video is amazing :)
How high was the voltage?

Hi,Amsy.
that's not my video.i found on youtube.

-real capacitor use voltage and little amps(from source),inside capacitor no amps flow but flow outside(electron replacement).

about voltage only that's very hard,Tesla use high resistance coil(secondary),not copper,short duration dc disruptive discharge to primary coil.about electron flow i found from google,electron move very slow,8.4cm/hour.but charge that pull electron like domino,the last of electron will work job.if electron pass high resistance charge will increase.act like water pass big pipe to small pipe.in dc current if need high volt across load just put high resistance load but in ac current if need high voltage across load can use both high resistance(fr430ss wire) and high impedance(coil) to increase charge.i am not expert just thought from reading.long time ago to prove this but no result of success in voltage only.i buy many parts to test,find anyway to fix dead short problem but no success.now i just thought if use high voltage short duration before amps flow maybe work(inhibit amps).from use 555 timer change to 4046 to higher frequency,from npn transistor to scr to mosfet to now IGBT.need to test more and more.if someone can crack this problem please post here to help about knowledge.

http://amasci.com/miscon/speed.html     ---->SPEED OF "ELECTRICITY"

thanks
geenee

Hi geenee,

DC Pulses which are sended to a coil, react like a damper for inrush current.
That means, when pulsing a coil with dc and a duty cycle which is 50% you can inhibit the current very good. As higher the inductivity is, as higher the damping factor. Let me show you this in an simulation.
The green line is the pulsed DC voltage (100V peak) and the blue is the current which is rising very slow. After some time, you have to stop the pulsing, because the current will grow too high. Then you can start from the beginning.
99.9% of the voltage drops at the coil. This is without resisitve coil wire.

I choose 1H for the coil, because the VIC also has this values.

Quote from Amsy on December 28th, 2012, 06:59 AM

Quote from geenee on December 28th, 2012, 05:43 AM

Quote from Amsy on December 27th, 2012, 06:21 AM

Quote from geenee on April 19th, 2012, 01:20 AM

thanks for comment.

i'm not sure about that. I'm try to proof Voltage perform work.

i saw many videos.i think it can proof concept without testing by myself.

but i tested many things but not success.if i success that i will post my video that proof this concept.

thanks
geenee

Hi geenee,

yes voltage can perform work. Every capacitor works like this.
The voltage toggles ion movement in electrolytes or even in air which produces heat (OH or H3O ions).

If the voltage is high enough, ionization will accure. The weakest electron will be pulled away from the atom. It is easier to ionize gasses instead of liquid states.

Your video is amazing :)
How high was the voltage?

Hi,Amsy.
that's not my video.i found on youtube.

-real capacitor use voltage and little amps(from source),inside capacitor no amps flow but flow outside(electron replacement).

about voltage only that's very hard,Tesla use high resistance coil(secondary),not copper,short duration dc disruptive discharge to primary coil.about electron flow i found from google,electron move very slow,8.4cm/hour.but charge that pull electron like domino,the last of electron will work job.if electron pass high resistance charge will increase.act like water pass big pipe to small pipe.in dc current if need high volt across load just put high resistance load but in ac current if need high voltage across load can use both high resistance(fr430ss wire) and high impedance(coil) to increase charge.i am not expert just thought from reading.long time ago to prove this but no result of success in voltage only.i buy many parts to test,find anyway to fix dead short problem but no success.now i just thought if use high voltage short duration before amps flow maybe work(inhibit amps).from use 555 timer change to 4046 to higher frequency,from npn transistor to scr to mosfet to now IGBT.need to test more and more.if someone can crack this problem please post here to help about knowledge.

http://amasci.com/miscon/speed.html     ---->SPEED OF "ELECTRICITY"

thanks
geenee

Hi geenee,

DC Pulses which are sended to a coil, react like a damper for inrush current.
That means, when pulsing a coil with dc and a duty cycle which is 50% you can inhibit the current very good. As higher the inductivity is, as higher the damping factor. Let me show you this in an simulation.
The green line is the pulsed DC voltage (100V peak) and the blue is the current which is rising very slow. After some time, you have to stop the pulsing, because the current will grow too high. Then you can start from the beginning.
99.9% of the voltage drops at the coil. This is without resisitve coil wire.

I choose 1H for the coil, because the VIC also has this values.

Now,i thought something,Great Amsy.

thanks
geenee