Saturday, October 30, 2021
Electric field
Structurally deformed region in the universal medium is a ‘field’. A field is represented by imaginary lines of force. Curved (angular) lines of force indicate an electric field. Linear lines of force indicate a magnetic field. Radial lines of force indicate a nuclear field.
Latticework squares of 2D energy fields (in universal medium) in an angular distortion-field are distorted in angular direction. Lines of force are curved lines with arrows in clockwise or anti-clockwise direction. Overlapping angular distortion-fields gives rise to ‘electric’ nature of interaction between the 3D matter-bodies that produce the distortion-fields. Hence angular distortion-fields are ‘electric fields’. Constituent photons in all primary 3D matter-particles (bitons) move in circular paths. Unstable inertial pockets of these photons deform latticework structures of 2D energy-fields angularly to produce angular distortion-fields. Hence, all bitons (and other superior particles being unions of bitons) have angular distortion fields.
Due to the angular nature of an electric field, its lines of force are (partly or fully circular) curved lines, in the (resultant) direction of motion of photons in the bitons. An electric field, being curved (circular) structural distortions in universal medium, has two possible directions. Looking from one side, electric lines of force appear clockwise. This side of the electric field is the ‘positive electric charge’. Looking from the opposite side, electric lines of force appear anti-clockwise. This side of the electric field is the ‘negative electric charge’. Electric charge is relative reference of an electric field’s direction (of structural distortions in universal medium). Since electric charges are relative directions, type of electric charge of an electric field depends on the reference used by the observer. Electric charge is a property of deformed electric field and a functional entity. Electric charges have no independent existence as is believed today. Every electric field has both positive and negative electric charges. Both, electrons and positrons, have similar electric fields with both positive and negative electric charges. Electric charges are synonymous with magnetic poles of a magnetic field.
Field forces or inertial actions on corresponding 3D matter-bodies, produced by interaction between two electric fields, not only depend on the type of electric charges (relative directions of electric fields) but also on the distance between their centres of curvature. At certain distance (‘zilch-force distance’) between two electric fields, they produce no ‘field forces’ or inertial motions of corresponding matter-bodies. Beyond zilch force distance, due to lower curvature of lines of force, magnetic nature of the distortion fields dominate and electric fields behave like magnetic fields. Electric nature of electric fields (during interaction between two angular distortion fields) is exhibited only when the distance between them is less than ‘zilch-force distance’, where their lines of force have greater curvatures.
It is a geometrical necessity to have axes of an electric field and corresponding magnetic field, perpendicular to each other. An electric field with lower curvature is often mistaken for a magnetic field, whose axis is at right angle to the axis of electric field. See: http://vixra.org/pdf/1409.0062v1.pdf
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