3.  ANTIGRAVITATION

            In addition to an electric field, charges do also have a gravitational field due to their mass. Positive charges interact with VGs of the BF. Therefore, VGs are necessary  to build up the gravitational and the electric field of positive charges. In consequence, there is a competition between both fields for VGs, so that the stronger field (electric field) weakens the weaker field (gravitational field). The gravitational field does no longer dispose of 100 % of the VGs of the BF to be built up, with the result that it becomes weaker. This is the above mentioned electrogravity effect.

Since any VP in an EM field signifies a VG less in the corresponding gravitational field, the decrease of gravity of a body is proportional to the amount of positive charges of the body that determine how many VGs are converted into VPs of the corresponding electric field:

[11]     (-)F_G ~ n q(+)

            Where:      (-)F_G :              Gravity decrease of a body.

                                     n :              Number of positive charges of the body.

                               q(+) :              Load of a positive charge of the body.

This type of antigravitation (EM reduction of gravity) happens only with positive charges and can reach theoretically a value from 0 - 100 % according to how many VGs of the BF the positive charges interact with (absorb).

Negative charges, on the contrary, emit VGs, so that in this case, there would be no deficit of VGs that could produce antigravitation. In any way, VGs produced by negative particles are very "volatile" and cannot always interact with nearby positive particles (for ex. inside an atom), so that they escape partially to the BF without interacting. This produces always a slight deficit of VGs close to negative particles and thus, always a slight local reduction of gravity. In this sense, also negative particles would participate in antigravity, although not directly.

Antigravitation was found accidentally in an experiment with a turning superconductor that was suspended by solenoids (Podkletnov). In agreement with the experiment, antigravitation cannot be suddenly be switched on and off. It reaches a theoretical value up to a certain percentage. In the experiment, it was up to 2.1 %. This can be interpreted as if approx. 2.1 % of the VGs of the BF had been converted into VPs of the corresponding EM field, so that gravity had decreased in exactly this proportion.

he supposition that VPs in EM fields must not necessarily be very abundant with respect to VGs in a gravitational field, is supported by the considerations in chapter 4. „MAGNETISM“: if we approach 2 unequal poles, the field lines of both magnets combine to one unique field. This is an indication that these field lines are not so abundant as in the BF. Otherwise, such type of addition would probably not be possible because of the lacking space between two adjacent field lines (in the BF, this space is probably close to Planck’s Elementary Length). Therefore, the above supposition that it is about 2.1 % of the total virtual bosons, is effectively a realistic idea.