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**Sephiroth** · 11-22-2008, 06:36 PM

ahhh... then that will be why

once the circuit is connected all three caps will start dropping in voltage, but the caps with the lower capacites will drop faster then the caps with the higher capacities. Once the cap with the lowest capacity has reached 0 volts then the caps with the higher capacity will still have a couple of volts in them and start reverse charging the lower capacity cap.

**gmeat** · 11-22-2008, 06:42 PM

Originally posted by Sephiroth View Post

ahhh... then that will be why

once the circuit is connected all three caps will start dropping in voltage, but the caps with the lower capacites will drop faster then the caps with the higher capacities. Once the cap with the lowest capacity has reached 0 volts then the caps with the higher capacity will still have a couple of volts in them and start reverse charging the lower capacity cap.

Ok Seph,

Thx for the explaination.

-Gary

**gmeat** · 11-22-2008, 07:04 PM

Originally posted by Sephiroth View Post

ahhh... then that will be why

once the circuit is connected all three caps will start dropping in voltage, but the caps with the lower capacites will drop faster then the caps with the higher capacities. Once the cap with the lowest capacity has reached 0 volts then the caps with the higher capacity will still have a couple of volts in them and start reverse charging the lower capacity cap.

Hmmm,

So in theory I could make a commutator to keep switching the caps back and forth until they completely drain.Not sure if this is worth the effort but maybe.

-Gary

**nul-points** · 11-22-2008, 08:22 PM

Originally posted by Sephiroth View Post

remember the experiment I did earlier in the year called "Conservation of Charge Violated?" ? First I showed that discharging a cap into another cap is inherently 50% efficient but by pulsing it through an inductor the efficiency increased. Well I don't believe that it is more efficient, but rather energy has entered from outside the circuit to compensate for the losses.

Soooo... the main problem is the inefficiency of directly discharing a cap into another cap. Half the energy always appears to be lost. If it is possible to discharge a cap into another cap without this loss (or at least greatly reduce it) without relying on the flyback then this will go over COP1.

But perhaps there is more to AC's circuits then we know

hi all

these setbacks are a real bummer!

it's such a simple problem and all - discharge one capacitor into another, overcome the losses and get an additional 50% gain of Free Energy

you'ld think someone would have done it by now...

what we could do with is someone to start a thread telling us how - something with a subject like "Achieve Overunity with just 7 components"

that would do the trick!

of course, it couldn't be as simple as that, could it AC? LOL

all the best
sandy

(Doc Ringwood's 'Free Energy' page ...providing measured COPs >= 120% since May 2008)

**Sephiroth** · 11-22-2008, 08:29 PM

Moving to Sandy's thread....

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