Why/how Fred? (just curious on how one can measure any gravity effect at
all, upward or downward, on an electron)
Designing experiments to test theories is not easy, you seem to be good at
this.
Michel
----- Original Message -----
From: "Frederick Sparber" <[EMAIL PROTECTED]>
To: "vortex-l" <[email protected]>
Sent: Wednesday, April 12, 2006 2:35 PM
Subject: Re: Electrogravity & Proton Repulsion of Electrons
A 2 meter tall evacuated vertical tube sitting atop or connected to the
sphere of a small Van De Graaff,
might allow measurement of an upward gravity force on electrons if they
can be
detected without error, perhaps?
Bottom Line, Electrons Repel Gravity,
but, the much stronger attractive 1/R^2 Electrostatic Force keeps them
close by.
------------------------------------------------------------------
Frederick Sparber
Sun, 09 Apr 2006 21:57:40 -0700
At the Bohr Radius (R) = 5.29e-11 meters the Electrostatic Attraction
force (F) between the proton and electron is k*q1*q2/R^2 = 8.23e-8 nt.
Coincidentally, the point pole magnetic attraction (or repulsion)
force F = uo* M^2/[4(pi)R^2] = 8.23e-8 nt
Where M is the magnetic moment constant, 4.8e-11 ampere-meter
for any particle.
This suggests that the Bohr radius is the balance point between the
electrostatic
attraction and magnetic dipole repulsion between the electron and proton,
provided
that the magnetic fields of the particles are oscillating at some
frequency.
The nature of the Proton-Electron-Proton ---> Deuteron
fusion reaction and also the Proton-Proton ---> D + neutrino+ e+
fusion reaction once the electrostatic coulomb barrier is surmounted
also lends credence to this aspect.
If this true, an Electrogravity Levitation force is attainable between the
predominately
proton mass of the earth (~ 4000 times that of the electron mass) with
manipulation
of electrons and/or energy fields resulting from electron manipulation.
