On asymmetric electric force: deflection of a magnetic needle in a static electric field which varies in the direction per- pendicular to its polarization

Motion of an electrical charged particle in a sta tic electric field, which varies in the direction perpendicular to its polarization, is investigated. The field applies asymmetric electric force on the particle consequently the par ticle follows a curved path like in magnetic fields. Comparative study shows that motion of a charged particle in the selected static electric ticle in static magnetic field produced by a straig ht long wire carrying a steady electric cur- rent are similar. It implies that the static asymme tric electric force and the static magnetic force are analogous to each other. Further the anal ysis shows deflection of a magnetic needle in the above static electric field due to the stati c asymmetric electric force and deflection of the same magnetic needle in the magnetic field of the s traight long conductor carrying the steady electric current are precisely similar. It implies that the straight long conductor carrying a steady electric current might be producing a static electric field, parallel to the wire, decreas- ing in magnitude away from the wire, and having direction opposite to the current. Conse- quent of this a circular coil carrying a steady ele ctric current and bar magnet too should pro- duce a circular electric fields around themselves. Therefore, a circular electric force should be responsible to produce the illusion of attraction a nd repulsion between the magnetic poles consequently there might be no any direct force of attraction or repulsion between the poles of bar magnets. For experimental verification of stati c asymmetric electric force the required static electric field which varies in the direction perpendicular to its polarization can be pro- duced by an electric dipole. A magnetic needle susp ended in this field, at particular position and at particular angle, should get deflected givin g confirmation of existence of the asymme- tric electric force. Deflection of a magnetic needl e in any static electric field is a surprising thing.