TITLE:
Analysis of Electrical Dipoles Interaction Forces as a Function of the Distance and of the Form of Electrical Force Law
AUTHORS:
Ioan Has, Simona Miclaus, Aurelian Has
KEYWORDS:
Electrical Forces, Completed Coulomb’s Law, Electric Dipoles Interactions, Torsion Moment of Orientation, Attraction Force between Two Dipoles Is Gravitation
JOURNAL NAME:
Journal of Applied Mathematics and Physics,
Vol.6 No.9,
September
20,
2018
ABSTRACT: Here, we initially introduced and demonstrated two
principles: orientation OR principle and attraction AT principle of electrical
dipoles. The OR principle stipulates that any two electrical dipoles P1A, P1B, from two
bodies A and B, at any distance in the free state each, will be
reciprocally oriented parallel and in the same sense if the electrical
interaction forces F between them are of decreasing type with distance r.
If the electrical interaction forces F are of increasing type with
distance, the two dipoles will be reciprocally oriented parallel but on the
opposite sense. The AT principle stipulate that any two electrical dipoles P1A, P1B, at any
distance in the free state each, will present always a reciprocal force of attraction FD in both cases of orientation accordingly to OR principle
in case of any type of electrical force F decreasing or increasing with
distance. These findings may complete our previous work where we found that FD force, between two electrical dipoles P1A, P1B considered at atomic and nuclear level, is
in fact the actual gravitation Newton force FN. The paper
must be considered together with this work for more consistency.