Abstract
We have investigated motion of a charged particle in static parallel electric field. The field is parallel to a straight line having zero divergence and non-zero curl. It applies asymmetric electric force on the charged particle forcing the particle to follow a curved path. The path is determined by the initial velocity of the particle in addition to the field properties, like in magnetic fields. This resemblance implies that the straight long conductor carrying steady electric current might produce a parallel electric field in opposite direction of the current. It further implies that the true face of static magnetic force can be a static asymmetric electric force and the true face of static magnetic field can be a static curled electric field. Thus, the parallel electric field produced by the long straight conductor can be used to accelerate charged particles and hence to build a current accelerator.
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