------HV---------- | | | | | C1 | |-----| |---R1---| | | | | | | | ---SW--| | | | |---Ground | | T1===Sparker T2===Oscilloscope | | | | ------> |-------- Filament Gap Fig. 1 - Jet spark circuit Requires fixed font like Courier to view Regards, Horace Heffner
A definitive test for thread vs drops would be the ability to
instantly transmit an AC signal or fast pulse chain along the
thread. You have already determined the thread velocity to be 5 to
10 MPH. It would take a couple isolation transformers T1 and T2, one
with primary in series with each electrode, each primary and
secondary coil possibly made from a few turns of 20 KV test lead
wrapped around a small ferrite core, an oscilloscope on the secondary
of T2, and a sparker circuit consisting of a HV DC supply and maybe
very small HV cap to discharge through T1 secondary of the isolation
transformer coils.
- Re: [Vo]:ion currents in pingpong balls Michel Jullian
- Re: [Vo]:ion currents in pingpong balls William Beaty
- Re: [Vo]:ion currents in pingpong balls Horace Heffner
- Re: [Vo]:ion currents in pingpong balls William Beaty
- Re: [Vo]:ion currents in pingpong balls Michel Jullian
- Re: [Vo]:ion currents in pingpong balls William Beaty
- Re: [Vo]:ion currents in pingpong balls Michel Jullian
- Re: [Vo]:ion currents in pingpong balls William Beaty
- Re: [Vo]:ion currents in pingpong balls Horace Heffner
- Re: [Vo]:ion currents in pingpong balls Michel Jullian
- Re: [Vo]:ion currents in pingpong balls Horace Heffner
- Re: [Vo]:ion currents in pingpong balls Horace Heffner
- Re: [Vo]:ion currents in pingpong balls Michel Jullian
- Re: [Vo]:ion currents in pingpong balls Horace Heffner
- Re: [Vo]:ion currents in pingpong balls Michel Jullian
- Re: [Vo]:Filament ion jets Horace Heffner
- Re: [Vo]:Filament ion jets Michel Jullian
- Re: [Vo]:Filament ion jets Michel Jullian
- Re: [Vo]:Filament ion jets Horace Heffner
- Re: [Vo]:Filament ion jets Michel Jullian
- Re: [Vo]:Filament ion jets Horace Heffner
