| CPC F41B 6/003 (2013.01) | 1 Claim |
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1. A method of using an electromagnetic launcher comprising of an apparatus and system of basin-formed electromagnetic field generators working in tandem with rotational electromagnetic field generators which may be mounted alternating in series, encircling a conduit and bracketed with thermal railing; energized in sequence for ferrous material, matter or at least one projectile's forward acceleration to, but not limited to or by, high-hypersonic velocity and rotation for trajectory stabilization and accuracy using also a described method further comprising;
(a) an embodiment wherein:
a basin-formed scaffold, which has an aperture at said basin-formed scaffold's base, also includes a radial pattern plurality of mounting slots on all sloping sides of said basin-formed scaffold's wall;
(b) a plurality of conductive wire-wrapped electromagnetic coils installed lengthwise perpendicular in relation to the outer basin surface into said mounting slots of said basin-formed scaffold;
(c) said electromagnetic coils are oriented so that all electromagnetic north or south poles point to the center of the shallowest point of said basin-formed scaffold's open area;
(d) said basin-formed scaffold in tandem with said electromagnetic coils, once energized and oriented in the previously mentioned fashion, creates a basin-formed electromagnetic field in which is generated a compressed electromagnetic hemisphere just above said basin-formed scaffold's base and aperture's rim, hereinafter referred to as basin-formed electromagnetic field generator;
(e) said compressed electromagnetic hemisphere's apex region consists of the highest point of condensed electromagnetic pressure and forward momentum electromagnetic force;
(f) said electromagnetic forward momentum force produces the forward momentum in ferrous material, matter or at least one projectile;
(g) said plurality of basin-formed electromagnetic field generators also form a toroid-shaped electromagnetic field below said basin-formed scaffold's base producing electromagnetic force
(h) an embodiment wherein:
conductive wire is structured and wound to form at least one electromagnetic coil that generates a rotating electromagnetic field, and once energized, physically rotates ferrous material or at least one projectile on their longitudinal axis to attain spin stabilization for flight accuracy;
(i) a method in which:
said ferrous material, matter or at least one projectile are acted upon to reach a first basin-formed electromagnetic field generator;
(j) said plurality of basin-formed electromagnetic field generators are is timed to be energized just as said ferrous material, matter or at least one projectile are crossing into the electromagnetically compressed hemisphere's apex region giving initial forward momentum;
(k) a proceeding basin-formed electromagnetic field generator is energized just as said ferrous material, matter or at least one projectile are crossing into it's electromagnetically compressed hemisphere's apex region giving further momentum;
(I) said ferrous material, matter or at least one projectile are then acted upon by a rotational electromagnetic field generator timed to be energized just as said ferrous material, matter or at least one projectile are entering said rotational electromagnetic field generator's area of influence giving rotation;
(m) another proceeding basin-formed electromagnetic field generator is timed to be energized just as said ferrous material, matter or at least one projectile are crossing into said basin-formed electromagnetic field generator's compressed electromagnetic hemisphere's apex region giving even further forward momentum acceleration;
(n) said plurality of basin-formed electromagnetic field generators may be oriented with their convex or concave sides facing forward, however, concave gives more forward electromagnetic force as the electromagnetic hemisphere's apex region gives more forward force than the toroidal convex electromagnetic force.
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