It really doesn't matter what their velocities are, if enough for those that arrive and get trapped in the Faraday cup collector charge a 0.1 picofarad capacitor enough to get a measurable voltage off it with a DVM. That should strongly suggest that gravity repels electrons.
Fred > [Original Message] > From: Michel Jullian <[EMAIL PROTECTED]> > To: <[email protected]> > Date: 4/14/2006 5:22:38 PM > Subject: Re: Electrogravity & Proton Repulsion of Electrons > > > If no such charge or current is detected, then gravity attracts > > electrons. > > No Fred I disagree with your conclusion, there could be no electron arriving > at 0.3s simply because they all had sufficient velocity to arrive earlier. > Or there could be some, but gravity force is classically downwards and they > were about to fall back > > If you don't know the initial velocities you can't conclude, hence my > suggestion to use the "volunteers" whose initial velocity we know very > precisely (1/2*m*v0^2=h*nu-W) and can make as small as desired with a > retarding electrode (1/2*m*v0^2=h*nu-W-e*V), and whose flight time will > depend on the direction of gravity. > > Michel > > ----- Original Message ----- > From: "Frederick Sparber" <[EMAIL PROTECTED]> > To: "vortex-l" <[email protected]> > Sent: Friday, April 14, 2006 9:59 PM > Subject: Re: Electrogravity & Proton Repulsion of Electrons > > > > Starting from scratch, Michel. > > > > Attractive forces acting on the electron at or near the earth's surface. > > > > 1, At the Bohr Radius 8.24e-8 newton > > 2, Attached to an H2O molecule 6.4e-11 newtons > > 3, The earth's fair weather field 2.0e-17 newtons > > 4, The earth's gravity field attractive 8.9e-30 newtons, > > 5, or could it be gravity repelled 8.9e-30 newtons? > > > > In the latter case, if it is released in an evacuated vertical > > tube the direction of force, 4, or 5, can be determined, provided > > the tube is virtually free of extraneous electrical fields. > > > > Shining a pulse of light on a Cs-CsO film on a silver-plated > > foil placed on the bottom of the tube and looking for > > arrival of the electrons about 0.3 seconds or so later > > (3.0 meters/sec or so) using a faraday cup tied to an electrometer > > capable of femto-coulomb or femto-ampere currents > > (and the LED or other Photon source) at the top. > > > > If no such charge or current is detected, then gravity attracts > > electrons. > > > > Fred
