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Axial Magnetic Considerations.

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  • Harvey D Norris
    Strictly speaking the Einstein/ Dehaas effect is talking about the inertia of magnetism/ how it responds to axial rotation by a time lag/ very analagous to how
    Message 1 of 2 , Jun 9, 2005
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      Strictly speaking the Einstein/ Dehaas effect is talking about the
      inertia of magnetism/ how it responds to axial rotation by a time
      lag/ very analagous to how a DC inductor has a time lag of inductance
      at which this time; stored energy as a magnetic field developes
      instead of the instantaeous manifestation of that field.

      Such being the case a magnetic axis itself may translate
      instantaneous flux change to a recieving axial inductor only when the
      speed of that axial rotation changes. So ordinarily when the axial
      magnet poles are rotated; it is an axial rotation of north and south
      poles rotating according to a specific orientation of spin; it does
      not spin in two or three dimensions; as do random vectored
      ferromagnetic domains do; it only spins in one. Likewise the
      manifestions of that motionally derived flux change have an angle for
      maximum reception, which is orthogonal to the source of that motional
      emf. Thus two coils sharing the same axis of spin magnetically are
      non receptive to each other; except for the instantaneous rate
      changes between them; but afterwards a two dimensional spin as a
      gyroscopic reaction takes place so the the (materially magnetised)
      piece appears to move in that dimension of reception, but the
      magnetic flux change does not. The spinning piece having acquired its
      (extra) magnetic inertia via rotation through space itself means that
      a magnet can be accelerated and suddenly stopped; and the reaction
      flux change of the pivotal gyroscopic reactions can be measured.

      HDN
      Done for now.
    • JACK R.WELCH
      You just said nothing-jw
      Message 2 of 2 , Jun 9, 2005
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        You just said nothing-jw
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