----- Original Message -----
From: "Frederick Sparber" <[EMAIL PROTECTED]>
To: <[email protected]>
Sent: Friday, April 14, 2006 5:13 PM
Subject: Re: Electrogravity & Proton Repulsion of Electrons
Michel Jullian wrote.
> IOW, neglect the high velocity stuff (easy to do electronically)
> and look for detection after at least 0.3 seconds delay.
I don't get it, what's wrong with the volunteers as you call them, aren't
they submitted to gravity too?
Yes, but, discerning a few meters/second subtracted from 100
kilometers/sec
Volunteers with millivolt resolution in adjusting decelerating electrodes
and all of
the artifact fields set up is too complicated for any believable
experimental results.
They can be made as slow as desired using a
decelerating electrode (another grid, which would have to be grounded, so
the photocathode right below this new grid would have to be at a positive
voltage wrt ground)
Too complicated.
Not that complicated !
If there is a gravity repulsion force on
any residual electrons after about a 0.3 second wait.....
The thing is, any current after 0.3 second will not be measurable, whereas
the volunteers current pulse will be high.
What about having two of these tubes end to end but looking opposite
ways,
and measuring the difference in the flight times of the fastest
electrons?
One could do this once with tube 1 on top, and once with tube 2 on top,
to
ascertain the effect is gravitational.
Hard vacuum plumbing and step-ladders don't come cheap. :-)
Actually it could be done with one single evacuated 2m tube with the
photocathodes in the middle, or a single vertical photocathode maybe.
The point is we could trigger the scope on one of the two collected current
pulses and watch the other one, whose time of arrival would be twice the
time of flight variation due to gravity. Turning the tube upside down should
make the observed pulse move to the other side of the synchro pulse. Might
work even with relatively fast electrons...or not :)
Michel
Fred
