Test of the Nyman dipole-tripole hypothesis:
The Nyman hypothesis claims that gravity and strong force are caused by charged particles posturing in response to charges in surrounding particles and bodies. If this is true, a neutral particle like a neutron should respond to an external charge similar to the way it responds to charges in another neutron.
Equivalent charge. See figure above.
The gravitational pull on a neutron at the surface of earth is:
W = g*m = 9.81*1.674*10^-27 = 1.642*10^-26 Newton
A tripole equation using the above offset can now be used to calculate an equivalent, external, single charge that would produce a force equal to that between two neutrons:
ke*[0.6667*q*Y/(r-x)^2 -0.6667*q*Y/r^2] = 1.86962*10^-54
ke = 8.9875517873681764*10^9 N*m^2*C^-2
q = 1.60217662*10^-19 C
r = 1*10^-6 meter
Offset = 4.5584*10^-41 meter
Y = 1.7718*10^-40 C
ES force between a 1.7718*10^-40 C charge and a neutron 1*10^-6 meters apart = 1.869*10^-66 Newton
Earth gravitation on one neutron = 1.642*10^-26 Newton.
Earth gravitation is consequently 0.8785*10^40 stronger than one on one neutron attraction.
A charge producing a force equal to earth gravity would have to be (0.8785*10^40)*(1.7718*10^-40) C
= 1.5565 Coulombs at a distance of 1*10^-6 meter from the neutron.
A substantially lesser charge would suffice to lift a neutron from a distance equal to one neutron radius:
(1.113*10^-15 / 1*10^-6)^2 *1.5565 C = 1.9875*10^-18 Coulombs (=12.4 electrons)
Proposed neutron gravity experiment:
Place a negative charge of 2*10^-18 Coulombs (eq.13 electrons) above a source of neutrons.
Stir up the neutrons and see if they defy earth gravity and gravitate toward the charge above them.