Selfrunning Free Energy devices up to 5 KW from Tariel Kapanadze

[Shokac]

How to Make High Voltage Using Capacitors     

Capacitors can store and discharge electric currents. A capacitor is an electrical component that stores up currents when you pass voltage through it. When the voltage across the capacitor drops, it discharges the stored current. The more voltage you charge a capacitor with, the more energy it stores. Capacitors don't generate voltage, but each capacitor has a specific voltage rating. The voltage rating indicates the maximum voltage rating that a capacitor can handle before it explodes. You can wire multiple capacitors together to create what is effectively a single capacitor with a very high voltage rating. If you have a high voltage power source you can charge a "capacitor bank" with tremendous amounts of current.

[frantz]

Oh boy.... exactly my idea. You take the cake!

And so what?
Do you know how to do it....?
Maybe we should to do together this project and share to people. ;-)

JesteÅ› z Polski?

Frantz

[jbignes5]

How to Make High Voltage Using Capacitors     

Capacitors can store and discharge electric currents. A capacitor is an electrical component that stores up currents when you pass voltage through it. When the voltage across the capacitor drops, it discharges the stored current. The more voltage you charge a capacitor with, the more energy it stores. Capacitors don't generate voltage, but each capacitor has a specific voltage rating. The voltage rating indicates the maximum voltage rating that a capacitor can handle before it explodes. You can wire multiple capacitors together to create what is effectively a single capacitor with a very high voltage rating. If you have a high voltage power source you can charge a "capacitor bank" with tremendous amounts of current.

Hmm obviously you have a different cap then all the rest.


"A capacitor (originally known as condenser) is a passive two-terminal electrical component used to store energy in an electric field. The forms of practical capacitors vary widely, but all contain at least two electrical conductors separated by a dielectric (insulator); for example, one common construction consists of metal foils separated by a thin layer of insulating film. Capacitors are widely used as parts of electrical circuits in many common electrical devices.
When there is a potential difference (voltage) across the conductors, a static electric field develops across the dielectric, causing positive charge to collect on one plate and negative charge on the other plate. Energy is stored in the electrostatic field. An ideal capacitor is characterized by a single constant value, capacitance, measured in farads. This is the ratio of the electric charge on each conductor to the potential difference between them."

A cap does not store current. That would be a battery...

Now this wiki states specifically that it converts the current to static electricity.. Hmm..

[Shokac]

Hmm obviously you have a different cap then all the rest.


"A capacitor (originally known as condenser) is a passive two-terminal electrical component used to store energy in an electric field. The forms of practical capacitors vary widely, but all contain at least two electrical conductors separated by a dielectric (insulator); for example, one common construction consists of metal foils separated by a thin layer of insulating film. Capacitors are widely used as parts of electrical circuits in many common electrical devices.
When there is a potential difference (voltage) across the conductors, a static electric field develops across the dielectric, causing positive charge to collect on one plate and negative charge on the other plate. Energy is stored in the electrostatic field. An ideal capacitor is characterized by a single constant value, capacitance, measured in farads. This is the ratio of the electric charge on each conductor to the potential difference between them."

A cap does not store current. That would be a battery...

Now this wiki states specifically that it converts the current to static electricity.. Hmm..

Read

http://www.ehow.com/how_7625397_make-high-voltage-using-capacitors.html

[jbignes5]

Read

http://www.ehow.com/how_7625397_make-high-voltage-using-capacitors.html

Thats mostly currentless voltage. Caps do not work with current...

Ok so I found a nice 3-d electrostaic simulator please try it out to see this network. http://www.falstad.com/vector3de/

Crank up the particle count and go ahead and try other counts of charges or even lines and different polarities.

The dipole seems to be our planet and sun. The sun being an out and we are the in or returns to ground back to source conductor. This would mean that the sun has a black hole counterpart and the earth is connected via the lines that form if you view a slice of space. It's strange but the atmosphere we have is a direct result of the larger flow from the sun to our sink or ground.This is evident by the simulator using the dipole and y axis slice to view the setup. You need to make sure you get the polar condensations together . In the process of attracting charges and dark matter in our core it creates matter. Real matter, when the charges condense into the darkmatter. So black holes rip charges out of matter and suns make it available for matter to be created.

Heh just when you thought you read it all.

Tesla made a most startling discovery the same year, when placing a long
  single-turn copper helix near his magnetic disrupter. The coil, some two feet
  in length, did not behave as did solid copper pipes and other objects. The
  thin walled coil became ensheathed in an envelope of white sparks. Undulating
  from the crown of this coil were very long and fluidic silvery white
  streamers, soft discharges which appeared to have been considerably raised in
  voltage. These effects were greatly intensified when the helical coil was
  placed within the disrupter wire circle. Inside this "shockzone", the helical
  coil was surrounded in a blast which hugged into its surface, and rode up the
  coil to its open end. It seemed as though the shockwave actually pulled away
  from surrounding space to cling to the coil surface, a strange attractive
  preference. The shockwave flowed over the coil at right angles to the
  windings, an unbelievable effect. The sheer length of discharges leaping from
  the helix crown was incomprehensible. With the disrupter discharge jumping I
  inch in its magnetic housing, the white shimmering discharges rose from the
  helix to a measured length of over two feet. This discharge equaled the very
  length of the coil itself'. It was an unexpected and unheard
  transformation.