Difference between revisions of "TFNR - Spin and magnetic phenomena"
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So, in a space-time domain, as for a particle of matter or for radiation, we can identify rotation / “'''spin'''”, or '''orientation of the axis of Rotation''', a particular form of the correlation of the distributions of the elementary perturbations of the point-events that compose that domain (Spin). | So, in a space-time domain, as for a particle of matter or for radiation, we can identify rotation / “'''spin'''”, or '''orientation of the axis of Rotation''', a particular form of the correlation of the distributions of the elementary perturbations of the point-events that compose that domain (Spin). | ||
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== See also == | == See also == | ||
*[[TFNR - Derived structured physical forces and fields]] | *[[TFNR - Derived structured physical forces and fields]] | ||
Revision as of 15:38, 7 July 2024
It is the state of a space-time domain where the distribution of the stochastic perturbations that constitute the Elementary Action is characterized by orientation of the axis of vorticity.
This is the root of magnetic phenomena.
So, in a space-time domain, as for a particle of matter or for radiation, we can identify rotation / “spin”, or orientation of the axis of Rotation, a particular form of the correlation of the distributions of the elementary perturbations of the point-events that compose that domain (Spin).
See also
- TFNR - Derived structured physical forces and fields
- TFNR - Space-time and metric phenomena
- TFNR - Mass and gravitational phenomena
- TFNR - Motion and kinetic phenomena
- TFNR - Charge and electric phenomena
Links to the tables of contents of TFNR Paper
