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poles of the stator magnets and positioning the armature magnet in
spaced relation to said magnetic field track longitudinally related to the
direction of the magnetic field track such a distance that the repulsion
and attraction forces imposed on the armature magnet by said magnetic field
track imposes a continuing unidirectional force on the armature magnet in
the direction of the magnetic field track.
23. The method of producing a unidirectional motive force as
in claim 22 including concentrating the magnetic fields created by magnetic
lines of force between the poles of the stator magnets.
24. The method of producing a unidirectional motive force as
in claim 22 including concentrating the magnetic field existing between the
poles of the armature magnet.
25. The method of producing a unidirectional motive force as
in claim 22 including concentrating the magnetic fields created by magnetic
lines of force between the poles of the stator magnets and concentrating
the
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magnetic field existing between the poles of the armature magnet.
26. The method of producing a motive force by permanent magnets
wherein the unpaired electron spinning particles existing within a permanent
magnet are utilized for producing a motive force comprising forming a stator
magnetic field track by means of at least one permanent magnet, producing
an armature magnetic field by means of a permament magnet and shaping and
locating said magnetic fields in such a manner as to produce relative continuous
unidirectional motion between said stator and armature field producing
magnets.
27. The method of producing a motive force by permanent magnets
as in claim 26 wherein said stator magnetic field is substantially of a single
polarity.
28. The method of producing a motive force by permanent magnets
as in claim 26 including concentrating the magnetic field of said stator
field track and armature magnetic field.
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